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The
InTellI genT
OpTIOn
Inves TOr
This page intentionally left blank
The
InTellI genT
OpTIOn
Inves TOr
Applying Value Investing to the
World of Options
erik Kobayashi-solomon
new Y ork Chicago s an Francisco Athens l ondon Madrid Mexico City
Milan n ew Delhi s ingapore s ydney Toronto
Copyright © 2015 by Erik Kobayashi-Solomon. All rights reserved. Except as permitted under the
United States Copyright Act of 1976, no part of this publication may be reproduced or distributed
in any form or by any means, or stored in a database or retrieval system, without the prior written
permission of the publisher.
ISBN: 978-0-07-183366-0
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To Fred Solomon
(19302013)
To my family and my “tribe”
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vii
Contents
Acknowledgments xi
Introduction xiii
Part I: options for the Intelligent Investor 1
Chapter 1: Option Fundamentals 3
Characteristics and history 4
Directionality 9
Flexibility 20
Chapter 2: The Black-scholes-Merton Model 29
The BsMs Main Job is to predict stock prices 30
The BsM is lousy at Its Main Job 39
Chapter 3: The Intelligent Investors guide to Option pricing 49
how Option prices are Determined 50
Time value versus Intrinsic value 56
how Changing Market Conditions Affect Option prices 59
Part II: A sound Intellectual Framework for Assessing Value 75
Chapter 4: The golden rule of valuation 77
The value of an Asset 78
Cash Flows generated on Behalf of Owners 80
The Companys economic life 82
Time value of Money: summing Up Cash Flows Over Time 87
Chapter 5: The Four Drivers of value 91
Birds eye view of the valuation process 91
A Detailed look at the Drivers of value 97
viii •   Contents
Chapter 6: Understanding and Overcoming Investing pitfalls 113
Behavioral Biases 114
structural Impediments 131
Part III: Intelligent option Investing 141
Chapter 7: Finding Mispriced Options 143
Making sense of Option Quotes 144
Delta: The Most Useful of the greeks 151
Comparing an Intelligent valuation range with a BsM range 155
Chapter 8: Understanding and Managing leverage 163
Investment leverage 164
simple Ways of Measuring Option Investment leverage 169
Understanding leverages effects on a portfolio 174
Managing leverage 183
Chapter 9: gaining exposure 187
long Call 189
long put 201
strangle 205
straddle 208
Chapter 10: Accepting exposure 211
short put 212
short Call (Call spread) 220
short straddle/short strangle 230
Chapter 11: Mixing exposure 233
long Diagonal 235
short Diagonal 238
Covered Call 240
protective puts 248
Collar 258
Chapter 12: risk and the Intelligent Option Investor 263
Market risk 263
valuation risk 265
Intelligent Option Investing 267
Appendix A: Choose Y our Battles Wisely 269
Where the BsM Works Best 269
Where the BsM Works Worst 273
Appendix B: The Many Faces of leverage 282
Operational leverage 282
Financial leverage 285
Appendix C: p ut-Call parity 287
Dividend Arbitrage and put-Call parity 288
Notes 295
Index 305
Contents ix
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xi
ACknowledgments
Many thanks to all the people who have been part of the process during
the writing of this book. I am indebted to three people in particular,
Mr. Brent Farler, Mr. Ben louviere, and Mr. neil Kozarsky, who have gra-
ciously offered their time, help, and business expertise in bringing this pro-
ject to fruition. Certainly this book would be much different and of not
nearly the quality without Brents guidance, thorough reading, and insight-
ful, helpful suggestions, starting with the very first draft in late 2012.
In the literary world, I cannot say enough good things about Mr. sam
Fleishman, of l iterary Arts r epresentatives, and Mr. Knox h uston and
Ms. Daina penikas, my editors at Mcgraw-hill, all of whom have allowed
this work to move from conception to completion and whose advice and
support have made all the hard work worthwhile.
In the investment-management world, I am indebted to Mr. steve
silverman, owner and portfolio manager of Ironbound Capital Manage-
ment, who taught me important lessons about the business of investing and
about how to critically assess the value of a company, and to Mr. Deepinder
Bhatia, Founding partner of Bayard Asset Management llC, a true expert
in the art and science of equity research and analysis.
In addition, I thank Mr. rafael garcia, of the International Financial
Corporation; Mr. Joe Miramonti, of Fedora Investment p artners;
Mr. Franco Dal pont, of Batalha Capital Management; and Mr. paul neff,
of the Federal reserve Bank of Chicago, for the excellent discussions about
valuation, option theory, and bringing the touchstone of valuation into the
realm of option investments.
When I began work on this book, I did not realize just what an
enormous process it would be. Truly, without the help and support of
all the people mentioned here and all my friends and family around
the world, I would have had a much more difficult time completing
this work.
xii •   Acknowledgments
xiii
IntroduCtIon
You have a tremendous advantage over algorithmic trading models,
investment bank trading desks, hedge funds, and anyone who appears on or
pays attention to cable business news shows. This book is written to show
where that advantage lies and how to exploit it to make confident and suc-
cessful investment choices. In doing so, it explains how options work and
what they can tell you about the markets estimation of the value of stocks.
even if, after reading it, you decide to stick with straight stock in-
vesting and never make an option transaction, understanding how options
work will give you a tremendous advantage as an investor. The reason for
this is simple: by understanding options, you can understand what the rest
of the market is expecting the future price of a stock to be. Understanding
what future stock prices are implied by the market is like playing cards with
an opponent who always leaves his or her hand face up on the table. Y ou
can look at the cards you are dealt, compare them with your opponents,
and play the round only when you are sure that you have the winning hand.
By incorporating options into your portfolio, you will enjoy an even
greater advantage because of a peculiarity about how option prices are
determined. Option prices are set by market participants making trans-
actions, but those market participants all base their sale and purchase
decisions on the same statistical models. These models are like sausage
grinders. They contain no intelligence or insight but rather take in a few
simple inputs, grind them up in a mechanical way, and spit out an option
price of a specific form.
An option model does not, for instance, care about the operational
details of a company. This oversight can lead to situations that seem to be
too good to be true. For instance, I have seen a case in which an investor
could commit to buy a strong, profitable company for less than the amount
of cash it held—in effect, allowing the investor to pay $0.90 to receive a
dollar plus a share of the companys future profits! Although it is true that
these kinds of opportunities do not come along every day, they do indeed
come along for patient, insightful investors.
This example lies at the heart of intelligent option investing, the es-
sence of which can be expressed as a three-step process:
1. Understanding the value of a stock
2. Comparing that intelligently estimated value with the mechani-
cally derived one implied by the option market
3. Tilting the risk-reward balance in ones favor by investing in the
best opportunities using a combination of stocks and options
The goal of this book is to provide you with the knowledge you need to be
an intelligent option investor from the standpoint of these three steps.
There is a lot of information contained within this book but also a lot
of information left out. This is not meant to be an encyclopedia of option
equations, a handbook of colorfully named option strategies, or a treatise on
financial statement analysis. Unlike academic books covering options, such
as hulls excellent book,
1 not a single integration symbol or mathematical
proof is found between this books covers. Understanding how options are
priced is an important step in being an intelligent option investor; doing dif-
ferential partial equations or working out mathematical proofs is not.
Unlike option books written for professional practitioners, such as
natenbergs book,2 you will not find explanations about complex strategies
or graphs about how “the greeks”3 vary under different conditions. Floor
traders need to know these things, but intelligent option investors—those
making considered long-term investments in the financial outcomes of
companies—have very different motivations, resources, and time horizons
from floor traders. Intelligent option investors, it turns out, do better not
even worrying about the great majority of things that floor traders must
consider every day.
Unlike how-to books about day trading options, this book does not
have one word to say about chart patterns, market timing, get-rich-quick
schemes, or any of the many other delusions popular among people who
xiv •   Introduction
Introduction xv
will soon be paupers. Making good decisions is a vital part of being an
intelligent option investor; frenetic, haphazard, and unconsidered trading
is most certainly not.
Unlike books about securities analysis, you will not find detailed dis-
cussions about every line item on a financial statement. Understanding
how a company creates value for its owners and how to measure that value
is an important step in being an intelligent option investor; being able to
rattle off information about arcane accounting conventions is not.
To paraphrase Warren Buffett,
4 this book aims to provide you with
a sound intellectual framework for assessing the value of a company and
making rational, fact-based decisions about how to invest in them with the
help of the options market.
The book is split into three parts:
part I provides an explanation of what options are, how they are
priced, and what they can tell you about what the market thinks the
future price of a stock will be. This part corresponds to the second
step of intelligent option investing listed earlier.
part II sets forth a model for determining the value of a company
based on only a handful of drivers. It also discusses some of the
behavioral and structural pitfalls that can and do affect investors
emotions and how to avoid them to become a better, more rational
investor. This part corresponds to the first step of intelligent option
investing listed earlier.
part III turns theory into practice—showing how to read the nec-
essary information on an option pricing screen; teaching how
to measure and manage leverage in a portfolio containing cash,
stocks, and options; and going into detail about the handful of op-
tion strategies that an intelligent option investor needs to know to
generate income, boost growth, and protect gains in an equity port-
folio. This part corresponds to the final step of intelligent option
investing listed earlier.
no part of this book assumes any prior knowledge about options or
stock valuation. That said, it is not some sort of “Options for Beginners” or
“My First Book of valuation” treatment either.
Investing beginners will learn all the skills—soup to nuts—they need
to successfully and confidently invest in the stock and options market. peo-
ple who have some experience in options and who may have used covered
calls, protective puts, and the like will find out how to greatly improve their
results from these investments and how to use options in other ways as
well. professional money managers and analysts will develop a thorough
understanding of how to effectively incorporate option investments into
their portfolio strategies and may in fact be encouraged to consider ques-
tions about valuation and behavioral biases in a new light as well.
The approach used here to teach about valuation and options is
unique, simple without being simpleminded, and extremely effective in
communicating these complex topics in a memorable, vivid way. r ead-
ers used to seeing option books littered with hockey-stick diagrams and
partial differential equations may have some unlearning to do, but no mat-
ter your starting point—whether you are a novice investor or a seasoned
hedge fund manager—by the end of this book, I believe that you will look
at equity investing in a new light.
xvi •   Introduction
1
Part I
OptiOns FOr the
intelligent invest Or
Dont believe anything you have heard or read about options.
If you listen to media stories, you will learn that options are modern
financial innovations so complex that only someone with an advanced
degree in mathematics can properly understand them.
Every contention in the preceding sentence is wrong.
If you listen to the pundits and traders blabbing on the cable business
channels, you will think that you will never be successful using options
unless you understand what “put backspreads, ” “iron condors, ” and count-
less other colorfully named option strategies are. Y ou will also learn that
options are short-term trading tools and that youll have to be a razor-sharp
“technical analyst” who can “read charts” and jump in and out of positions
a few times a week (if not a few times a day) to do well.
Every contention in the preceding paragraph is so wrong that believing
them is liable to send you to the poor house.
The truth is that options are simple, directional instruments that
we understand perfectly well from countless encounters with them in
our daily lives. They are the second-oldest financial instrument known to
humanity—in a quite literal sense, modern economic life would not be
possible without them. Options are instruments that not only can be used
but should be used in long-term strategies; they most definitely should be
traded in and out of as infrequently as possible.
2 •   TheIntelligentOptionInvestor
The first part of this book will give you a good understanding of
what options are, how their prices are determined, and how those prices
fluctuate based on changes in market conditions.
There is a good reason to develop a solid understanding of this
theoretical background: the framework the option market uses to determine
the price of options is based on provably faulty premises that, while
“approximately right” in certain circumstances, are laughably wrong in
other circumstances. The faults can be exploited by intelligent, patient inves-
tors who understand which circumstances to avoid and which to seek out.
Without understanding the framework the market uses to value
options and where that framework breaks down, there is no way to exploit
the faults. Part I of this book, in a nutshell, is designed to give you an
understanding of the framework the market uses to value options.
This book makes extensive use of diagrams to explain option theory,
pricing, and investment strategies. Those readers of the printed copy of this
book are encouraged to visit the Intelligent Option Investor website (www
.IntelligentOptionInvestor.com) to see the full-color versions of the type of
illustrations listed here. Doing so will allow you to visualize options even
more effectively in the distinctive intelligent option investing way.
3
Chapter 1
OptiOn Fundamentals
This chapter introduces what an option is and how to visualize options in
an intelligent way while hinting at the great flexibility and power a sensible
use of options gives an investor. It is split into three sections:
1. Option Overview: Characteristics, everyday options, and a brief
option history.
2. Option Directionality: An investigation of similarities and differ -
ences between stocks and options. This section also contains an
introduction to the unique way that this book visualizes options
and to the inescapable jargon used in the options world and a bit
of intelligent option investorspecific jargon as well.
3. Option Flexibility: An explanation of why options are much more
investor-friendly than stocks, as well as examples of the handful of
strategies an intelligent option investor uses most often.
Even those of you who know something about options should at the
very least read the last section. Y ou will find that the intelligent option
investor makes very close to zero use of the typical hockey-stick diagrams
shown in other books. Instead, this book uses the concept of a range of
exposure. The rest of the book—discussing option pricing, corporate
valuation, and option strategies—builds on this range-of-exposure concept,
so skipping it is likely to lead to confusion later.
This chapter is an important first step in being an intelligent option
investor. Someone who knows how options work does not qualify as be-
ing an intelligent option investor, but certainly, one cannot become an
4 •   TheIntelligentOptionInvestor
intelligent option investor without understanding these basic facts. The
concepts discussed here will be covered in greater detail and depth later in
this book. For now, it is enough to get a sense for what options are, how to
think about them, and why they might be useful investment tools.
Characteristics and History
By the end of this section, you should know the four key characteristics
of options, be able to name a few options that are common in our daily
lives, and understand a bit about the long history of options as a financial
product and how modern option markets operate.
Jargon introduced in this section is as follows:
Black-Scholes-Merton model (BSM)
Listed look-alike
Central counterparty
Characteristics of Options
Rather than giving a definition for options, Ill list the four most important
characteristics that all options share and provide a few common examples.
Once you understand the basic characteristics of options, have seen a few
examples, and have spent some time thinking about them, you will start to
see elements of optionality in nearly every situation in life.
An option
1. Is a contractual right
2. Is in force for a specified time
3. Allows an investor to profit from the change in value of another
asset
4. Has value as long as it is still in force
This definition is broad enough that it applies to all sorts of options—
those traded on a public exchange such as the Chicago Board Options
Exchange and those familiar to us in our daily lives.
Option Fundamentals 5
Options in Daily Life
The type of option with which people living in developed economies are
most familiar is an insurance contract. Lets say that you want to fully insure
your $30,000 car. Y ou sign a contract (option characteristic number 1)
with your insurance company that covers you for a specified amount of time
(option characteristic number 2)—lets say one year. If during the coverage
period your car is totaled, your insurance company buys your wreck of a
car (worth $0 or close to it) for $30,000—allowing you to buy an identical
car. When this happens, you as the car owner (or investor in a real asset)
realize a profit of $30,000 over the market value of your destroyed car
(option characteristic number 3). Obviously, the insurance company is
bound to uphold its promise to indemnify you from loss for the entire term
of the contract; the fact that you have a right to sell a worthless car to your
insurance company for the price you paid for it implies that the insurance
has value during its entire term (option characteristic number 4).
Another type of option, while perhaps not as widely used by everyday
folks, is easily recognizable. Imagine that you are a struggling author who
has just penned your first novel. The novel was not a great seller, but one day
you get a call from a movie producer offering you $50,000 for the right to
draft a screenplay based on your work. This payment will grant the producer
exclusive right (option characteristic number 1) to turn the novel into a
movie, as well as the right to all proceeds from a potential future movie
for a specific period of time (option characteristic number 2)—lets say
10 years. After that period is up, you as the author are free to renegotiate an-
other contract. As a struggling artist working in an unfulfilling day job, you
happily agree to the deal. Three weeks later, a popular daytime talk show
host features your novel on her show, and suddenly, you have a New York
Times bestseller on your hands. The value of your literary work has gone
from slight to great in a single week. Now the movie producer hires the
Cohen brothers to adapt your film to the screen and hires George Clooney,
Matt Damon, and Julia Roberts to star in the movie. When it is released,
the film breaks records at the box office. How much does the producer pay
to you? Nothing. The producer had a contractual right to profit from the
screenplay based on your work. When the producer bought this right, your
literary work was not worth much; suddenly, it is worth a great deal, and
6 •   TheIntelligentOptionInvestor
the producer owns the upside potential from the increase in value of your
story (option characteristic number 3). Again, it is obvious that the right
to the literary work has value for the entire term of the contract (option
characteristic number 4).
Keep these characteristics in mind, and we will go on to look at how
these defining elements are expressed in financial markets later in this
chapter. Now that you have an idea of what an option looks like, lets turn
briefly to a short history of these financial instruments.
A Brief History of Options
Many people believe that options are a new financial invention, but in
fact, they have been in use for more than two millennia—one of the first
historically attested uses of options was by a pre-Socratic philosopher
named Miletus, who lived in ancient Greece. Miletus the philosopher was
accused of being useless by his fellow citizens because he spent his time
considering philosophical matters (which at the time included a study of
natural phenomena as well) rather than putting his nose to the grindstone
and weaving fishing nets or some such thing.
Miletus told them that his knowledge was in fact not useless and that
he could apply it to something people cared about, but he simply chose not
to. As proof of his contention, when his studies related to weather revealed
to him that the area would enjoy a bumper crop of olives in the upcoming
season, he went around to the owners of all the olive presses and paid them
a fee to reserve the presses (i.e., he entered into a contractual agreement—
option characteristic number 1) through harvest time (i.e., the contract
had a prespecified life—option characteristic number 2).
Indeed, Miletuss prediction was correct, and the following season
yielded a bumper crop of olives. The price of olives must have fallen because
of the huge surge of supply, and demand for olive presses skyrocketed
(because turning the olive fruit into oil allowed the produce to be stored
longer). Because Miletus had cornered the olive press market, he was able
to generate huge profits, turning the low-value olives into high-value oil
(i.e., he profited from the change in value of an underlying asset—option
characteristic number 3). His rights to the olive presses ended after the har-
vest but not before he had become very wealthy thanks to his philosophical
Option Fundamentals 7
studies (i.e., his contractual rights had value through expiration—option
characteristic number 4).
This is only one example of an ancient option transaction (a few thou-
sand years before the first primitive common stock came into existence),
but as long as there has been insurance, option contracts have been a well-
understood and widely used financial instrument. Can you imagine how
little cross-border trade would occur if sellers and buyers could not shift the
risk of transporting goods to a third party such as an insurance company?
How many ships would have set out for the Spice Islands during the Age of
Exploration, for instance? Indeed, it is hard to imagine what trade would
look like today if buyers and sellers did not have some way to mitigate the
risks associated with uncertain investments.
For hundreds of years, options existed as private contracts specifying
rights to an economic exposure of a certain quantity of a certain good over
a given time period. Frequently, these contracts were sealed between the
producers and sellers of a commodity product and wholesale buyers of
that commodity. Both sides had an existing exposure to the commodity
(the producer wanted to sell the commodity, and the wholesaler wanted to
buy it), and both sides wanted to insure themselves against interim price
movements in the underlying commodity.
But there was a problem with this system. Lets say that you were a
Renaissance merchant who wanted to insure your shipment of spice from
India to Europe, and so you entered into an agreement with an insurer. The
insurer asked you to pay a certain amount of premium up front in return
for guaranteeing the value of your cargo. Y our shipment leaves Goa but is
lost off Madagascar, and all your investment capital goes down with the
ship to the bottom of the Indian Ocean. However, when you try to find
your option counterparty—your insurer—it seems that he has absconded
with your premium money and is living a life of pleasure and song in
another country. In the parlance of modern financial markets, your option
investment failed because of counterparty risk.
Private contracts still exist today in commodity markets as well as
the stock market (the listed look-alike option market—private contracts
specifying the right to upside and downside exposure to single stocks,
exchange-traded funds, and baskets is one example that institutional
investors use heavily). However, private contracts still bring with them a
8 •   TheIntelligentOptionInvestor
risk of default by ones counterparty, so they are usually only entered into
after both parties have fully assessed the creditworthiness of the other.
Obviously, individual investors—who might simply want to speculate on
the value of an underlying stock or exchange-traded fund (ETF)—cannot
spend the time doing a credit check on every counterparty with whom
they might do business.
1 Without a way to make sure that both parties are
financially able to keep up their half of the option bargain, public option
markets simply could not exist.
The modern solution to this quandary is that of the central counter -
party. This is an organization that standardizes the terms of the option con-
tracts transacted and ensures the financial fulfillment of the participating
counterparties. Central counterparties are associated with securities
exchanges and regulate the parties with which they deal. They set rules
regarding collateral that must be placed in escrow before a transaction
can be made and request additional funds if market price changes cause
a counterpartys account to become undercollateralized. In the United
States, the central counterparty for options transactions is the Options
Clearing Corporation (OCC). The OCC is an offshoot of the oldest option
exchange, the Chicago Board Option Exchange (CBOE).
In the early 1970s, the CBOE itself began as an offshoot of a large
futures exchange—the Chicago Mercantile Exchange—and subsequently
started the process of standardizing option contracts (i.e., specifying the
exact per-contract quantity and quality of the underlying good and the
expiration date of the contract) and building the other infrastructure and
regulatory framework necessary to create and manage a public market.
Although market infrastructure and mechanics are very important for
the brokers and other professional participants in the options market,
most aspects are not terribly important from an investors point of view
(the things that are—such as margin—will be discussed in detail later in
this book). The one thing an investor must know is simply that the option
market is transparent, well regulated, and secure. Those of you who have a
bit of extra time and want to learn more about market mechanics should
take a look through the information on the CBOEs and OCCs websites.
Listing of option contracts on the CBOE meant that investors needed
to have a sense for what a fair price for an option was. Three academics,
Fischer Black, Myron Scholes, and Robert Merton, were responsible for
Option Fundamentals 9
developing and refining an option pricing model known as the Black-
Scholes or Black-Scholes-Merton model, which I will hereafter abbreviate
as the BSM.
The BSM is a testament to human ingenuity and theoretical elegance,
and even though new methods and refinements have been developed
since its introduction, the underlying assumptions for new option pricing
methods are the same as the BSM. In fact, throughout this book, when you
see “BSM, ” think “any statistically based algorithm for determining option
p r i c e s .”
The point of all this background information is that options are not
only not new-fangled financial instruments but in fact have a long and
proud history that is deeply intertwined with the development of modern
economies themselves. Those of you interested in a much more thorough
coverage of the history of options would do well to read the book, Against
the Gods: The Remarkable History of Risk, by Peter Bernstein (New Y ork:
Wiley, 1998).
Now that you have a good sense of what options are and how they are
used in everyday life, lets now turn to the single most important thing for a
fundamental investor to appreciate about these financial instruments: their
inherent ability to exploit directionality.
Directionality
The key takeaway from this section is evident from the title. In addition to
demonstrating the directional power inherent in options, this section also
introduces the graphic tools that I will use throughout the rest of this book
to show the risk and reward inherent in any investment—whether it is an
investment in a stock or an option.
For those of you who are not well versed in options yet, this is the
section in which I explain most of the jargon that you simply cannot escape
when transacting in options. However, even readers who are familiar with
options should at least skim through this explanation. Doing so will likely
increase your appreciation for the characteristics of options that make
them such powerful investment tools and also will introduce you to this
novel way of visualizing them.
10 •   TheIntelligentOptionInvestor
Jargon introduced in this section is as follows:
Call option Moneyness
Put option In the money (ITM)
Range of exposure At the money (ATM)
Strike price Out of the money (OTM)
Gain exposure Premium
Accept exposure American style
Canceling exposure European style
Exercise (an option)
Visual Representation of a Stock
Visually, a good stock investment looks like this:
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Future Stock Price
Last Stock Price
Y ou can make a lot of mistakes when investing, but as long as you are right
about the ultimate direction a stock will take and act accordingly, all those
mistakes will be dwarfed by the success of your position.
Good investing, then, is essentially a process of recognizing and
exploiting the directionality of mispriced stocks. Usually, investors get
exposure to a stocks directionality by buying, or going long, that stock. This
is what the investors risk and reward profile looks like when he or she buys
the stock:
Option Fundamentals 11
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GREEN
RED
As soon as the “Buy” button is pushed, the investor gains expo-
sure to the upside potential of the stock—this is the shaded region la-
beled “green” in the figure. However, at the same time, the investor
also must accept exposure to downside risk—this is the shaded region
labeled “red. ”
Anyone who has invested in stocks has a visceral understanding of
stock directionality. We all know the joy of being right as our investment
soars into the green and weve all felt the sting as an investment we own
falls into the red. We also know that to the extent that we want to gain
exposure to the upside potential of a stock, we must necessarily simultane-
ously accept its downside risk.
Options, like stocks, are directional instruments that come in two
types. These two types can be defined in directional terms:
Call option A security that allows an investor exposure to a stocks
upside potential (remember, “Call up”)
Put option A security that allows an investor exposure to a stocks
downside potential (remember, “Put down”)
The fact that options split the directionality of stocks in half—up and
down—is a great advantage to an investor that we will investigate more in
a moment.
Right now, lets take a look at each of these directional instruments—
call options and put options—one by one.
12 •   TheIntelligentOptionInvestor
Visual Representation of Call Options
In a similar way that we created a diagram of the risk-reward profile of owner-
ship in a common stock, a nice way of understanding how options work is to
look at a visual representation. The following diagram represents a call option.
There are a few things to note about this representation:
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1. The shaded area (green) represents the price and time range over
which the investor has economic exposure—I term this the range
of exposure. Because we are talking about call options, and because
call options deal with the upside potential of a stock, you see that
the range of exposure lies higher than the present stock price
(remember, “Call up”).
2. True to one of the defining characteristics of an option mentioned
earlier, our range of exposure is limited by time; the option pictured
in the preceding figure expires 500 days in the future, after which
we have no economic exposure to the stocks upside potential.
3. The present stock price is $50 per share, but our upside exposure only
begins at $60 per share. The price at which economic exposure begins
is called the strike price of an option. In this case, the strike price is
$60 per share, but we could have picked a strike price at the market price
of the stock, further above the market price of the stock (e.g., a strike
price of $75), or even below the market price of the stock. We will inves-
tigate optimal strike prices for certain option strategies later in this book.
Option Fundamentals 13
4. The arrow at the top of the shaded region in the figure indicates
that our exposure extends infinitely upward. If, for some reason,
this stock suddenly jumped not from $50 to $60 per share but
from $50 to $1,234 per share, we would have profitable exposure
to all that upside.
5. Clearly, the diagram showing a purchased call option looks a great deal
like the top of the diagram for a purchased stock. Look back at the top
of the stock purchase figure and compare it with the preceding figure:
the inherent directionality of options should be completely obvious.
Any time you see a green region on diagrams like this, you should
take it to mean that an investor has the potential to realize a gain on the
investment and that the investor has gained exposure. Any time an option
investor gains exposure, he or she must pay up front for that potential gain.
The money one pays up front for an option is called premium (just like the
fee you pay for insurance coverage).
In the preceding diagram, then, we have gained exposure to a range
of the stocks upside potential by buying a call option (also known as a long
call). If the stock moves into this range before or at option expiration, we
have the right to buy the stock at our $60 strike price (this is termed exer -
cising an option) or simply sell the option in the option market. It is almost
always the wrong thing to exercise an option for reasons we discuss shortly.
2
If, instead, the stock is trading below our strike price at expiration, the
option is obviously worthless—we owned the right to an upside scenario
that did not materialize, so our ownership right is worth nothing.
It turns out that there is special jargon that is used to describe the
relationship between the stock price and the range of option exposure:
Jargon Situation
In the money (ITM) Stock price is within the options range of exposure
Out of the money (OTM) Stock price is outside the options range of exposure
At the money (ATM) Stock price is just at the border of the options range of
exposure
Each of these situations is said to describe the moneyness of the option.
Graphically, moneyness can be represented by the following diagram:
14 •   TheIntelligentOptionInvestor
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ITM
ATM
OTM
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749 999
GREEN
As we will discuss in greater detail later, not only can an investor use
options to gain exposure to a stock, but the investor also can choose to accept
exposure to it. Accepting exposure means running the risk of a financial loss if
the stock moves into an options range of exposure. If we were to accept expo-
sure to the stocks upside potential, we would graphically represent it like this:
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RED
Any time you see a shaded region labeled “red” on diagrams like this, you
should take it to mean that the investor has accepted the risk of realizing a loss
on the investment and should say that the investor has accepted exposure. Any
time an option investor accepts exposure, he or she gets to receive premium
up front in return for accepting the risk. In the preceding example, the investor
has accepted upside exposure by selling a call option (a.k.a. a short call).
Option Fundamentals 15
In this sold call example, we again see the shaded area representing
the exposure range. We also see that the exposure is limited to 500 days
and that it starts at the $60 strike price. The big difference we see between
this diagram and the one before it is that when we gained upside exposure
by buying a call, we had potentially profitable exposure infinitely upward;
in the case of a short call, we are accepting the possibility of an infinite
loss. Needless to say, the decision to accept such risk should not be taken
lightly. We will discuss in what circumstances an investor might want to
accept this type of risk and what techniques might be used to manage that
risk later in this book. For right now, think of this diagram as part of an
explanation of how options work, not why someone might want to use this
particular strategy.
Lets go back to the example of a long call because its easier for
most people to think of call options this way. Recall that you must pay a
premium if you want to gain exposure to a stocks directional potential. In
the diagrams, you will mark the amount of premium you have to pay as a
straight line, as can be seen here:
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Breakeven Line: $62.50
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GREEN
I have labeled the straight line the “Breakeven line” for now and have as-
sumed that the options premium totals $2.50.
Y ou can think of the breakeven line as a hurdle the stock must cross
by expiration time. If, at expiration, the stock is trading for $61, you have
the right to purchase the shares for $60. Y ou make a $1 profit on this trans-
action, which partially offsets the original $2.50 cost of the option.
16 •   TheIntelligentOptionInvestor
It is important to note that a stock does not have to cross this line for
your option investment to be profitable. We will discuss this dynamic in
Chapter 2 when we learn more about the time value of options.
Visual Representation of Put Options
Now that you understand the conventions we use for our diagrams, lets
think about how we might represent the other type of option, dealing with
downside exposure—the put. First, lets assume that we want to gain expo-
sure to the downside potential of a stock. Graphically, we would represent
this in the following way:
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First, notice that, in contrast to the diagram of the call option, the
directional exposure of a put option is bounded on the downside by $0,
so we do not draw an arrow indicating infinite exposure. This is the same
downside exposure of a stock because a stock cannot fall below zero dollars
per share.
In this diagram, the time range for the put option is the same 500 days
as for our call option, but the price range at which we have exposure starts
at a strike price of $50—the current market price of the stock—making this
an at-the-money (ATM) put. If you think about moneyness in terms of a
range of exposure, the difference between out of the money (OTM) and in
the money (ITM) becomes easy and sensible. Here are examples of differ-
ent moneyness cases for put options:
Option Fundamentals 17
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OTM
ATM
ITMGREEN
We are assuming that this put option costs $5, leading to a breakeven
line of $45. This breakeven line is like an upside-down hurdle in that we
would like the stock to finish below $45; if it expires below $50 but above
$45, again, we will be able to profit from the exercise, but this profit will not
be great enough to cover the cost of the option.
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Breakeven Line: $45.00
GREEN
Obviously, if we can gain downside exposure to a stock, we must be
able to accept it as well. We can accept downside exposure by selling a put;
this book represents a sold put graphically like this:
18 •   TheIntelligentOptionInvestor
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Breakeven Line: $45.00
RED
In this diagram, we are receiving a $5 premium payment in return for
accepting exposure to the stocks downside. As such, as long as the stock
expires above $45, we will realize a profit on this investment.
Visual Representation of Options Canceling Exposure
Lets take a look again at our visual representation of the risk and reward
of a stock:
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GREEN
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We bought this stock at $50 per share and will experience an unreal-
ized gain if the stock goes up and an unrealized loss if it goes down. What
might happen if we were to simultaneously buy a put, expiring in 365 days
and struck at $50, on the same stock?
Because we are purchasing a put, we know that we are gaining expo-
sure to the downside. Any time we gain exposure, we shade the exposure
Option Fundamentals 19
in green. Lets overlay this gain of downside exposure on the preceding
risk-return diagram and see what we get.
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The region representing the downside exposure we gained by buy-
ing the put perfectly overlaps part of the region representing the downside
exposure we accepted when we bought the stock. When there is a region
such as this, where we are simultaneously gaining and accepting exposure,
the two exposures cancel out, creating no economic exposure whatsoever.
From here on out, to show a canceling of economic exposure, we will
shade the region in gray, like the following:
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20 •   TheIntelligentOptionInvestor
Any time a gain of exposure overlaps another gain of exposure,
the potential gain from an investment if the stock price moves into that
region rises. We will not represent this in the diagrams of this book,
but you can think of overlapping gains as deeper and deeper shades of
green (when gaining exposure) and deeper and deeper shades of red
(when accepting it).
Now that you understand how to graphically represent gaining and
accepting exposure to both upside and downside directionality and how to
represent situations when opposing exposures overlap, we can move onto
the next section, which introduces the great flexibility options grant to an
investor and discusses how that flexibility can be used as a force of either
good or evil.
Flexibility
Again, the main takeaway of this section should be obvious from the title.
Here we will see the only two choices stock investors have with regard to
risk and return, and we will contrast that with the great flexibility an option
investor has. We will also discuss the concept of an effective buy price and
an effective sell price—two bits of intelligent option investor jargon. Last,
we will look at a typical option strategy that might be recommended by
an option “guru” and note that these types of strategies actually are at
cross-purposes with the directional nature of options that makes them so
powerful in the first place.
Jargon introduced in this chapter is as follows:
Effective buy price (EBP) Covered call
Effective sell price (ESP) Long strangle
Leg
Stocks Give Investors Few Choices
A stock investor only has two choices when it comes to investing: going
long or going short. Using our visualization technique, those two choices
look like this:
Option Fundamentals 21
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Going long a stock (i.e., buying
a stock).
Going short a stock (i.e., short
selling a stock).
If you want to gain exposure to a stocks upside potential by going
long (left-hand diagram), you also must simultaneously accept exposure to
the stocks downside risk. Similarly, if you want to gain exposure to a stocks
downside potential by going short (right-hand diagram), you also must ac-
cept exposure to the stocks upside risk.
In contrast, option investors are completely unrestrained in their
ability to choose what directionality to accept or gain. An option investor
could, for example, very easily decide to establish exposure to the direc-
tionality of a stock in the following way:
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GREEN
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GRAY
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RED
RED
RED
Why an investor would want to do something like this is completely beyond
me, but the point is that options are flexible enough to allow this type of a
crazy structure to be built.
22 •   TheIntelligentOptionInvestor
The beautiful thing about this flexibility is that an intelligent option in-
vestor can pick and choose what exposure he or she wants to gain or accept in
order to tailor his or her risk-return profile to an underlying stock. By tailoring
your risk-return profile, you can increase growth, boost income, and insure
your portfolio from downside shocks. Lets take a look at a few examples.
Options Give Investors Many Choices
Buying a Call for Growth
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BE = $55
GREEN
Above an investor is bullish on the prospects of the stock and is using a call op-
tion to gain exposure to a stocks upside potential above $50 per share. Rather
than accepting exposure to the stocks entire downside potential (maximum
of a $50 loss) as he or she would have by buying the stock outright, the call-
option investor would pay an upfront premium of, in this case, $5.
Selling a Put for Income
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RED
Option Fundamentals 23
Here an investor is bullish on the prospects of the stock, so he or she doesnt
mind accepting exposure to the stocks downside risk below $50. In return for
accepting this risk, the option investor receives a premium—lets say $5. This
$5 is income to the investor—kind of like a do-it-yourself dividend payment.
By the way, as you will discover later in this book, this is also the risk-
return profile of a covered call.
Buying a Put for Protection
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GREEN
REDGRAY
Above an investor wants to enjoy exposure to the stocks upside potential
while limiting his or her losses in case of a market fall. By buying a put
option struck a few dollars under the market price of the stock, the investor
cancels out the downside exposure he or she accepted when buying the
stock. With this protective put overlay in place, any loss on the stock will be
compensated for through a gain on the put contract. The investor can use
these gains to buy more of the stock at a lower price or to buy another put
contract as protection when the first contract expires.
Tailoring Exposure with Puts and Calls
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BE = $60.50
GREEN
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24 •   TheIntelligentOptionInvestor
Here an investor is bullish on the prospects of the stock and is tailor -
ing where to gain and accept exposure by selling a short-term put and
simultaneously buying a longer-term call. By doing this, the investor
basically subsidizes the purchase of the call option with the sale of the
put option, thereby reducing the level the stock needs to exceed on the
upside before one breaks even. In this case, were assuming that the call
option costs $1.50 and the put option trades for $1.00. The cash inflow
from the put option partially offsets the cash outflow from the call op-
tion, so the total breakeven amount is just the calls $60 strike price plus
the net of $0.50.
Effective Buy Price/Effective Sell Price
One thing that I hope you realized while looking at each of the preceding
diagrams is how similar each of them looks to a particular part of our long
and short stock diagrams:
Buying a stock.
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Short selling a stock.
For example, doesnt the diagram labeled “Buying a call for growth”
in the preceding section look just like the top part of the buying stock
diagram?
Option Fundamentals 25
In fact, many of the option strategies I will introduce in this book
simply represent a carving up of the risk-reward profile of a long or short
stock position and isolating one piece of it. To make it more clear and easy
to remember the rules for breaking even on different strategies, I will actu-
ally use a different nomenclature from breakeven.
If a diagram has one or both of the elements of the risk-return profile
of buying a stock, I will call the breakeven line the effective buy price and
abbreviate it EBP. For example, if we sell a put option, we accept downside
risk in the same way that we do when we buy a stock:
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EBP = $45
RED
Basically, what we are saying when we accept downside risk is that
we are willing to buy the stock if it goes below the strike price. In return
for accepting this risk, we are paid $5 in premium, and this cash inflow
effectively lowers the buying price at which we own the stock. If, when the
option expires, the stock is trading at $47, we can think of the situation
not as “being $3 less than the strike price” but rather as “being $2 over the
b u y p r i c e .”
Conversely, if a diagram has one or both of the elements of the risk-
return profile of short selling a stock, I will call the breakeven line the
effective sell price and abbreviate it ESP. For example, if we buy a put option
anticipating a fall in the stock, we would represent it graphically like this:
26 •   TheIntelligentOptionInvestor
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ESP = $45
GREEN
When a short seller sells a stock, he or she gets immediate profit exposure
to the stocks downside potential. The seller is selling at $50 and hopes to make
a profit by buying the shares back later at a lower price—lets say $35. When we
get profit exposure to a stocks downside potential using options, we are getting
the same exposure as if we sold the stock at $50, except that we do not have to
worry about losing our shirts if the stock moves up instead of down. In order to
get this peace of mind, though, we must spend $5 in premium. This means that
if we hold the position to expiration, we will only realize a net profit if the stock
is trading at the $50 mark less the money we have already paid to buy that ex-
posure—$5 in this case. As such, we are effectively selling the stock short at $45.
There are some option strategies that end up not looking like one of
the two stock positions—the flexibility of options allows an investor to do
things a stock investor cannot. For example, here is the graphic representa-
tion of a strategy commonly called a long strangle:
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BE 1 = $80.75
BE 2 = $19.25
GREEN
GREEN
Option Fundamentals 27
Here we have a stock trading at $50 per share, and we have bought
one put option and one call option. The put option is struck at $20 and
is trading for $0.35. The call option is struck at $80 and is trading for
$0.40. Note that the top part of the diagram looks like the top part of the
long-stock diagram and that the bottom part looks like the bottom part
of the short-stock diagram. Because a stock investor cannot be simulta-
neously long and short the same stock, we cannot use such terminology
as effective buy or effective sell price. In this case, we use breakeven and
abbreviate it BE.
This option strategy illustrates one way in which options are much
more flexible than stocks because it allows us to profit if the stock moves
up (into the calls range of exposure) or down (into the puts range of
exposure). If the stock moves up quickly, the call option will be in the
money, but the put option will be far, far, far out of the money . Thus, if
we are ITM on the call, the premium paid on the puts probably will end
up a total loss, and vice versa. For this reason, we calculate both break-
even prices as the sum of both legs of our option structure (where a leg
is defined as a single option in a multioption strategy). As long as the leg
that winds up ITM is ITM enough to cover the cost of the other leg, we
will make a profit on this investment. The only way we can fail to make a
profit is if the stock does not move one way or another enough before the
options expire.
Flexibility without Directionality Is a Suckers Game
Despite this great flexibility in determining what directional invest-
ments one wishes to make, as I mentioned earlier, option market mak-
ers and floor traders generally attempt to mostly (in the case of floor
traders) or wholly (in the case of market makers) insulate themselves
against large moves in the underlying stock or figure out how to lim-
it the cost of the exposure they are gaining and do so to such an ex-
tent that they severely curtail their ability to profit from large moves.
I do not want to belabor the point, but I do want to leave you with one
graphic illustration of a “typical” complex option strategy sometimes
called a condor :
28 •   TheIntelligentOptionInvestor
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BE 1
BE 2
RED
RED
There are a few important things to notice. First, notice how much shorter
the time frame is—we have moved from a 500-day time exposure to a two-week
exposure. In general, a floor trader has no idea of what the long-term value of a
stock should be, so he or she tries to protect himself or herself from large moves
by limiting his or her time exposure as much as possible. Second, look at how
little price exposure the trader is accepting! He or she is attempting to control his
or her price risk by making several simultaneous option trades (which, by the
way, puts the trader in a worse position in terms of breakeven points) that end up
canceling out most of his or her risk exposure to underlying moves of the stock.
With this position, the trader is speculating that over the next short
time period, this stocks market price will remain close to $50 per share;
what basis the trader has for this belief is beyond me. In my mind, winning
this sort of bet is no better than going to Atlantic City and betting that the
marble on the roulette wheel will land on red—completely random and
with only about a 50 percent chance of success.
3
It is amazing to me that, after reading books, subscribing to newslet-
ters, and listening to TV pundits advocating positions such as this, inves-
tors continue to have any interest in option investing whatsoever!
With the preceding explanation, you have a good foundation in the
concept of options, their inherent directionality, and their peerless flex-
ibility. We will revisit these themes again in Part III of this book when we
investigate the specifics of how to set up specific option investments.
However, before we do that, any option investor must have a good
sense of how options are priced in the open market. We cover the topic of
option pricing in Chapter 2.
29
Chapter 2
The black-scholes-
merTon model
As you can tell from Chapter 1, options are in fact simple financial instru-
ments that allow investors to split the financial exposure to a stock into upside
and downside ranges and then allow investors to gain or accept that expo-
sure with great flexibility. Although the concept of an option is simple, trying
to figure out what a fair price is for an options range of exposure is trickier. The
first part of this chapter details how options are priced according to the Black-
Scholes-Merton model (BSM)—the mathematical option pricing model
mentioned in Chapter 1—and how these prices predict future stock prices.
Many facets of the BSM have been identified by the market at large
as incorrect, and you will see in Part III of this book that when the rubber
of theory meets the road of practice, it is the rubber of theory that gets
deformed. The second half of this chapter gives a step-by-step refutation
to the principles underlying the BSM. Intelligent investors should be very,
very happy that the BSM is such a poor tool for pricing options and pre-
dicting future stock prices. It is the BSMs shortcomings and the general
markets unwillingness or inability to spot its structural deficiencies that
allow us the opportunity to increase our wealth.
Most books that discuss option pricing models require the reader to have
a high level of mathematical sophistication. I have interviewed candidates with
masters degrees in financial engineering who indeed had a very high level
of mathematical competence and sophistication yet could not translate that
sophistication into the simple images that you will see over the next few pages.
30 •   TheIntelligentOptionInvestor
This chapter is vital to someone aspiring to be an intelligent options
investor. Contrary to what you might imagine, option pricing is in itself
something that intelligent option investors seldom worry about. Much
more important to an intelligent option investor is what option prices im-
ply about the future price of a stock and in what circumstances option
prices are likely to imply the wrong stock prices. In terms of our intelligent
option investing process, we need two pieces of information:
1. A range of future prices determined mechanically by the option
market according to the BSM
2. A rationally determined valuation range generated through an
insightful valuation analysis
This chapter gives the theoretical background necessary to derive the
former.
The BSMs Main Job is to Predict Stock Prices
By the end of this section, you should have a big-picture sense of how the
BSM prices options that is put in terms of an everyday example. Y ou will also
understand the assumptions underlying the BSM and how, when combined,
these assumptions provide a prediction of the likely future value of a stock.
Jargon introduced in this section includes the following:
Stock price efficiency Forward price (stock)
Lognormal distribution Efficient market hypothesis (EMH)
Normal distribution BSM cone
Drift
The Big Picture
Before we delve into the theory of option pricing, let me give you a general
idea of the theory of option prices. Imagine that you and your spouse or
significant other have reservations at a nice restaurant. The reservation time
is coming up quickly, and you are still at home. The restaurant is extremely
hard to get reservations for, and if you are not there at your reservation time,
The Black-Scholes-Merton Model 31
your seats are given to someone else. Now lets assume that in the midst
of the relationship stress you are likely feeling at the moment, you decide
to lighten the mood by betting with your spouse or significant other as to
whether you will be able to make it to the restaurant in time for your seating.
If you were a statistician attempting to lighten the mood of the
evening, before you placed your bet, you would have attempted to factor in
answers to the following questions to figure out how likely or unlikely you
would be to make it on time:
1. How long do you have until your reservation time?
2. How far away is the restaurant?
3. How many stop signs/stoplights are there, and how heavy is traffic?
4. What is the speed limit on the streets?
5. Does your car have enough gasoline to get to the restaurant?
Lets say that your reservation time is 6 p.m. and it is now 5:35 p.m .
Y ou realize that you will not be able to calculate an exact arrival time be -
cause there are some unknown factors—especially how heavy traffic is and
how often youll have to stop at stoplights. Instead of trying to pick a point
estimate of your arrival time, you decide to calculate the upper and lower
bounds of a range of time over which you may arrive.
After assessing the input factors, lets say that your estimated arrival
time range looks something like this:
Moderate traffic
No traffic
Heavy traffic
12
6 5
4
39
10
11
8
7
2
1
In other words, you think that your best chance of arrival is the 15-minute
range between 5:50 and 6:05 p.m. If traffic is light, youll make it toward the
beginning of that interval; if traffic is heavy, youll make it toward the end
of that interval or may not make it at all. How willing would you be to bet
on making it on time? How much would be a fair amount to bet?
32 •   TheIntelligentOptionInvestor
This example illustrates precisely the process on which the BSM and
all other statistically based option pricing formulas work. The BSM has a
fixed number of inputs regarding the underlying asset and the contract itself.
Inputting these variables into the BSM generates a range of likely future values
for the price of the underlying security and for the statistical probability of the
security reaching each price. The statistical probability of the security reach-
ing a certain price (that certain price being a strike price at which we are inter-
ested in buying or selling an option) is directly tied to the value of the option.
Now that you have a feel for the BSM on a conceptual dining-
reservation level, lets dig into a specific stock-related example.
Step-by-Step Method for Predicting Future Stock
Price Ranges—BSM-Style
In order to understand the process by which the BSM generates stock price
predictions, we should first look at the assumptions underlying the model.
We will investigate the assumptions, their tested veracity, and their impli-
cations in Chapter 3, but first let us just accept at face value what Messrs.
Black, Scholes, and Merton take as axiomatic.
According to the BSM,
Securities markets are “efficient” in that market prices perfectly
reflect all publicly available information about the securities. This
implies that the current market price of a stock represents its fair
value. New information regarding the securities is equally likely to
be positive as negative; as such, asset prices are as likely to move up
as they are to move down.
Stock prices drift upward over time. This drift cannot exceed the
risk-free rate of return or arbitrage opportunities will be available.
Asset price movements are random and their percentage returns
follow a normal (Gaussian) distribution.
There are no restrictions on short selling, and all hedgers can bor -
row at the risk-free rate. There are no transaction costs or taxes.
Trading never closes (24/7), and stock prices are mathematically
continuous (i.e., they never gap up or down), arbitrage opportuni-
ties cannot persist, and you can trade infinitely small increments of
shares at infinitely small increments of prices.
The Black-Scholes-Merton Model33
Okay, even if the last assumption is a little hard to swallow, the first
three sound plausible, especially if you have read something about the
efficient market hypothesis (EMH). Suffice it to say that these assumptions
express the “orthodox” opinion held by financial economists. Most finan-
cial economists would say that these assumptions describe correctly, in
broad-brush terms, how markets work. They acknowledge that there may
be some exceptions and market frictions that skew things a bit in the real
world but that on the whole the assumptions are true.
Let us now use these assumptions to build a picture of the future
stock price range predicted by the BSM.
Start with an Underlying Asset
First, imagine that we have a stock that is trading at exactly $50 right now
after having fluctuated a bit in the past.
Advanced Building Corp. (ABC)
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90
80
70
60
50
40
30
20
Date/Day Count
Stock Price
I am just showing one year of historical trading data and three years
of calendar days into the future. Lets assume that we want to use the BSM
to predict the likely price of this asset, Advanced Building Corp. (ABC),
three years in the future.
The BSMs first assumption—that markets are efficient and stock
prices are perfect reflections of the worth of the corporation—means that if
34 •   TheIntelligentOptionInvestor
there is no additional information about this company, the best prediction
of its future price is simply its present price. In graphic terms, we would
represent this first step in the following way:
Advanced Building Corp. (ABC)
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100
90
80
70
60
50
40
30
20
Date/Day Count
Stock Price
Here the dotted straight line represents a prediction of the future
price of the stock at any point in time. However, to the extent that the world
simply cannot stop spinning, news never stops flowing. Some of this news
likely will have an impact on the economic value of the firm, but as stated
earlier, according to the EMH, the incoming information is random and is
just as likely to be positive for valuation as it is to be negative.
The first step of the BSM prediction is pretty raw. Stated simply, at
this point in the process, the BSM predicts that the future price of the stock
most likely will be the present price of the stock, with a possible range of
values around that expected price randomly fluctuating from $0 to infinity.
To refine this decidedly unhelpful range, the BSM must incorporate
its second axiom into its prediction methodology.
Calculate the Forward Price of the Stock
Looking at a long-range chart of stock markets, one fact sticks out: mar -
kets tend to rise over the long term. Although this is obvious to even a
The Black-Scholes-Merton Model35
casual observer, the fact that markets tend to rise is contradictory to our
first principal—that stocks are as likely to go up as they are to go down.
Indeed, if stocks in general did not go up, people would not think to
invest in them as long as there were other investment choices such as risk-
free bonds available. Thus the theorists modified their first assumption
slightly, saying that stock prices are just as likely to go up as they are to
go down over a very short period of time; over longer time periods, they
would have to drift upward. The amount of this drift is set to the risk-free
rate via a wonderfully elegant argument involving the no-arbitrage condi-
tion in the fourth assumption listed earlier.
Increasing the present price of the stock into the future at the risk-
free rate generates what is known as the forward price of the stock. Here is
what the forward price of our asset looks.
Advanced Building Corp. (ABC)
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90
80
70
60
50
40
30
20
Date/Day Count
Stock Price
Here we see the stock being subject to risk-free drift—moving up
steadily to $52 at the end of three years—this is the forward price. In terms
of the BSMs prediction of the future stock price, this forward price line
represents its most likely value.
The only slight modification to this calculation of forward price
involves dividend-paying stocks. For dividend-paying stocks, the expected
36 •   TheIntelligentOptionInvestor
dividend serves as a downward drift that cancels out some of the upward
drift of the risk-free rate. Simplistically, if the risk-free rate is 3 percent
per year and the company has a dividend yield of 1 percent per year, the
upward-drift term will be 2 percent (= 3 percent 1 percent).
Add a Range around the Forward Price
Now even an academic would look at the preceding diagram and have his
or her doubts that the model regarding whether the future price of this
asset will ever be proven correct. This is when the academic will start to
backpedal and remind us of the first axiom by saying, “Markets are effi-
cient, but stock prices fluctuate based on new data coming into the market.
Because good news is as likely to come into the market as bad news, stock
prices should fluctuate up and down in equal probability. ” Because they
are fluctuating randomly, our prediction should be a statistical one based
on a range.
To make the predictive range more usable than our earlier condition
(i.e., a predicted stock price between $0 and infinity), we must take a look
at the next axiom—the percentage return of stocks follows a normal (also
called Gaussian) distribution. A normal distribution is simply a bell curve,
with which most people are very familiar in the context of IQ scores and
other natural phenomena. A bell curve is perfectly symmetrical—the most
commonly found value (e.g., an IQ of 100) is the value at the tallest point
of the curve, and there are approximately as many instances of profound
genius as there are of profound mental disability.
Note that the BSM assumes that percentage returns are normally dis-
tributed. In our graphs, we are showing price rather than percentage return
on the vertical axis, so we will have to translate a percentage return into a
price. Translating a percentage return into a price gives us a distribution
that is skewed to the right called a lognormal distribution.
Thinking about stock prices for a moment, it becomes obvious that it
is likely that stock prices will follow a skewed distribution simply because
the price cannot fall any further than $0 per share but has no upward
bound. For further evidence that this skewed distribution is correct,
take a look at what happens to the prices of two stocks, both of which
start initially at $50, but one of which decreases by 10 percent for three
The Black-Scholes-Merton Model37
consecutive days and the other which increases by 10 percent for three
consecutive days.
Losing Stock Winning Stock
Original price $50.00 Original price $50.00
Price after falling 10% $45.00 Price after rising 10% $55.00
Price after falling
another 10%
$40.50 Price after rising
another 10%
$60.50
Price after falling
another 10%
$36.45 Price after rising
another 10%
$66.55
Final difference
from $50
$13.55 Final difference
from $50
$16.55
Notice that even though both have changed by the same percentage
each day, the stock that has increased has done so more than the losing stock
has decreased. This experiment shows that if we assume a normal distribu-
tion of returns, we should wind up with a distribution that is skewed toward
higher prices. Mathematically, this distribution is called the lognormal curve.
If we use the forward price as a base and then draw a cone
representing the lognormal distribution around it, we end up with the
following diagram:
Advanced Building Corp. (ABC)
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80
70
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50
40
30
20
Date/Day Count
Stock Price
38 •   TheIntelligentOptionInvestor
This diagram shows that the most likely future price projected by the
BSM still lies along the straight dotted line, and the most likely range lies
between the solid lines of the curve. In this diagram, note that even though
the skew is subtle, the lower bound is closer to the forward price of the
stock than is the upper bound. This confirms that the BSMs predictive
model is consistent with its third assumption. It also gives us a much more
sensible prediction of the future price of this stock than when we started
out. We will term this graph the BSM cone.
According to the BSM, if you want to know the price at which a stock
will trade at any point in the future, you can look within the bounds of
the BSM cone. The prices within this cone are more likely to be near the
forward price line and less likely to be near the lines of the cone itself. In
a phrase, the BSM tells an investor, “If you want to know what the future
price of a stock will be, look within the cone. ”
With the refinements we have made, we can say that our best guess
for the value of this stock in three years will be $52, and the range of
values between which the stock will most plausibly fall will be anywhere
from around $37 to just over $70. One thing to note is that the cone as
I have drawn it here does not, in fact, show the outline of the entire log-
normal price distribution for the stock but rather just the most plausible
range.
Also, as mentioned earlier, the likelihood of the stock price reaching
each of the prices along the vertical axis is not equal. The most likely future
value according to the BSM is the forward price. Most likely means, in the
statistical sense, that there is a 50-50 chance that the stock will be above or
below that line.
As one moves up the vertical (price) axis from the forward price
line, the likelihood that the stock price will be above that point is pro-
gressively lower. By the time you reach the upper line of the cone, the
chance that the stock price will be higher than that is only around 16
percent. Conversely, as you move down the vertical axis from the for -
ward price line, the likelihood that the stock price will be below that
point is progressively lower. By the time you reach the lower line of the
cone, the chance that the stock price will fall lower than that is again
around 16 percent.
The Black-Scholes-Merton Model39
Stock has ~16% chance
of rising above this line
50% chance of stock being
above or below this price
Stock has ~16% chance of
falling below this line
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50
40
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20
Advanced Building Corp. (ABC)
Date/Day Count
Stock Price
Because the BSM assumes that stock returns are lognormally distrib-
uted, and because the properties of the lognormal curve are very well un-
derstood by mathematicians, every single point on the vertical price axis
is associated with a distinct probability. In other words, with just the few
simple inputs we have discussed, the BSM mechanically churns out pre-
dictions of future stock prices by associating a future stock price with a
theoretically derived probability.
Now that we know what the theory says and have created a predic-
tion of the future price of a stock based on the theory, lets look at key areas
where the BSM breaks down.
The BSM is Lousy at Its Main Job
By the end of this section, you will have a good understanding why the
BSM—although a testament to human ingenuity and logical reasoning—is
deeply flawed as a model to predict asset prices in general and stock prices
specifically.
40 •   TheIntelligentOptionInvestor
Jargon that will be introduced in this section is as follows:
Leptokurtic
Fat-tailed
Critiques of the Base Assumptions of the BSM
Before we head into the critique section, let us remind ourselves of the
base assumptions of the BSM. When I introduced these assumptions ear -
lier, I suggested that you should just accept them at face value, but this time
around, lets look at the assumptions with a more critical eye.
Securities markets are efficient in that market prices perfectly reflect all
publicly available information about the securities. This implies that the
current market price of a stock represents its fair value. New information
regarding the securities is equally likely to be positive as negative; as
such, asset prices are as likely to move up as they are to move down.
Stock prices drift upward over time. This drift cannot exceed the
risk-free rate of return, or arbitrage opportunities will be available.
Asset price percentage returns follow a normal (Gaussian) distribution.
There are no restrictions on short selling, and all hedgers can bor -
row at the risk-free rate. There are no transaction costs or taxes.
Trading never closes (24/7), and stock prices are mathematically
continuous (i.e., they never gap up or down), arbitrage opportuni-
ties cannot persist, and you can trade infinitely small increments of
shares at infinitely small increments of prices.
Although the language is formal and filled with jargon, you need not be in-
timidated by the special terminology but should simply look at the assumptions
from a commonsense perspective. Doing so, you will see how ridiculous each
of these assumptions appears. Indeed, each one of them has either been proven
wrong through experimental evidence (i.e., the first three assumptions) or is
plainly false (the fourth assumption). Lets look at each assumption one by one.
Markets Are Efficient
The first two assumptions spring from a theory in financial economics
called the efficient market hypothesis (EMH), which is strongly associated
The Black-Scholes-Merton Model41
with the University of Chicago and which, more or less, still holds truck
with many theorists to this day. Stock prices, under this theory, move in ac-
cordance with the random-walk principal—having a 50-50 chance of going
up or down in a short time period because they are bought and sold on the
basis of new information coming into the market, and this new informa-
tion can be either good or bad.
The EMH proposes that there are different levels of efficiency in fi-
nancial markets. The weakest form of efficiency holds that one cannot gen-
erate returns that are disproportionate to risk in a market simply by having
access to information related to historical prices of the market (i.e., refut-
ing so-called technical analysis). The strongest form of efficiency holds that
even an investor with inside information about a company cannot generate
returns that are disproportionate to the risk they assume by investing (this
form is usually rejected even by supporters of the EMH).
In short, the EMH says that investors, in aggregate, dispassionately
assess all available facts regarding the economic environment and
rationally and methodically incorporate their well-informed expectations
about likely future outcomes into their decisions to buy or sell a given
stock. They always act in such a way as to maximize their utility in a ra-
tional, considered way.
Now, before running to your favorite search engine to look for aca-
demic papers refuting or defending the EMH, just step back and ask one sim-
ple question: Does this model of human behavior seem right to you? How
many people on the road with you during rush hour or attending a sporting
event or going holiday shopping seem to make calculated, rational, and well-
considered decisions? When it comes to something dealing with money and
investing, how many people do you know who act in the way just described?
No matter what mathematical proof may or may not support the EMH, as a
model of human behavior, the EMH simply does not ring true—to us at least.
Aside from the fundamental criticism that the EMH does not pre-
sent a model of human behavior that seems, well, human, there have been
empirical refutations of the EMH from almost its conception. Studies
showing that stocks with low price-to-book ratios, price-to-sales ratios,
and price-to-earnings ratios outperform those with high ratios have been
well documented, and the effects mentioned seem to persist. One of my
professors in business school, Graeme Rankine, helped to discover the
42 •   TheIntelligentOptionInvestor
so-called stock-split effect—the fact that stocks that split (i.e., the owners
were simply told that for every share they previously owned, they now owned
multiple shares, a change that should not have any effect whatsoever on the
value of the firm) performed better after the split than those that did not
split. More recently, Andrew Lo and Craig MacKinlay have demonstrated
that financial markets are not efficient on even a weak basis but that they
have some sort of a long-term price “memory” and seem to act more like
an organic system than a mechanical one.
Later in this book we will discuss behavioral factors that affect invest-
ing, and in fact, several prominent behavioral economics theorists (Daniel
Kahneman and Robert Shiller) have won Nobel prizes in economics as a
result of their groundbreaking work in this field. In essence, what behav-
ioral economics points out is that when given questions that test decision-
making ability and process, most people—even highly trained people—do
not make decisions in a way described by the tenants of the EMH. In fact,
economists have found that experimentally, human decision makers are
swayed by all sorts of issues that someone subscribing to the EMH would
find irrational. Human decision makers do not, it turns out, act as perfectly
rational economic animals as the EMH posits but rather are swayed by
emotion, illusion, and ingrained prejudice that cause their decisions to
be made in consistently flawed ways. Obviously, the experimental evi-
dence that behavioral economics researchers have highlighted regarding
how economic actors make decisions casts doubt on the basic premises of
the EMH.
Indeed, proponents of EMH would argue (do argue in the case of
Eugene Fama, a Nobel prizewinning economist at the University of
Chicago and one of the intellectual godfathers of the EMH) that asset price
bubbles cannot occur. If markets are efficient, they incorporate all avail-
able information regarding the likely future outcome of stocks and other
financial assets in their present prices—meaning that even when prices are
very high, as they were during the Internet boom and the mortgage finance
boom, market participants expectations are “rational. ” Fama has famously
said, “I dont even know what a bubble is. ”
This type of pedagogical rigidity in the face of clear evidence of
the existence of bubbles and crashes, and in fact the enormous human
costs that the bursting of bubbles bring about (e.g., in the wake of the
The Black-Scholes-Merton Model43
bursting of the mortgage finance bubble), has soured many laypeople on
the philosophical underpinnings of the EMH, even if they have never
heard the term specifically mentioned. Academic responses to the ten-
ants of the EMH from economists such as Nobel prizewinner Rob-
ert Shiller and Australian Steven Keen have been gaining strength and
acceptance in recent years, whereas only a few years ago they would have
been considered apostate and would have been ridiculed by “respectable”
orthodox economists.
Whatever the arguments both for and against the EMH, if you are
reading this book, you implicitly must hold the belief that stock markets
are inefficient because by reading this book, you must be trying to “beat”
the markets—an act that the EMH maintains is impossible. Although it is a
pretty blunt tool for someone trying to accurately describe the complexity
of markets, the one thing the EMH does have to recommend it is that if you
hold to its assumptions, the mathematics describing asset prices is made
much easier, and this ease leads to the ability to develop a pricing model
such as the BSM.
In fact, although one of my favorite indoor sports is making fun of
EMH assumptions, I do not disagree that, especially over short time frames
and especially for certain types of assets, the EMH assumptions hold up
pretty well and that the BSM is useful in describing likely price ranges.
I discuss when the BSM is more useful and correct in Appendix A because
in those instances an intelligent investor has a small chance of success.
It goes without saying that intelligent investors choose not to invest in
situations in which there is a small chance of success!
A good theory must be simple, but it also must be provably correct
under all conditions. While the EMH is certainly simple, I maintain that it
cannot be considered a good theory because it does not explain phenom-
ena in financial markets correctly in all (most?) circumstances. This means
that the first pillar on which the BSM is built is, for the purposes of intel-
ligent investors, wrong.
Stock Returns Are Normally Distributed
A picture is worth a thousand words. Here is a picture of a normal
distribution probability curve:
44 •   TheIntelligentOptionInvestor
-3σ 0
x
.1359
.0214
Gaussian or
“normal”
distribution
fg(x)
.00135 .3413 .3413 .1359
.0214
.00135
-2σ 2σ 3σ-σ σ
The numbers near the horizontal axis show the percent of cases in
each region (e.g., between the 0 and σ, you see the number 0.3413—this
means that for a normally distributed quantity such as IQ, you would ex-
pect 34.13 percent of cases to lie in that region), and the regions are marked
off into numbers of standard deviations [denoted by the lowercase Greek
letter sigma (σ)].
Now that youve seen a normal curve, lets take a look at daily returns
for the Standard & Poors 500 Index (S&P 500) over the past 50 years:
-21% -19% -17% -15% -13% -11% -9%- 7% -5%- 3% -1%3 %1% 5% 7% 9% 11%
0
100
200
300
400
500
900
800
700
600
S&P Returns
Frequency
S&P 500 Daily Returns
The Black-Scholes-Merton Model45
There is a very easily recognizable difference between this curve and
the preceding one—namely that this one looks much pointier than the
other. However, a more profound difference can be seen by looking at the
cases out near the 21 percent mark and the +11 percent mark. If the S&P
500s actual returns were normally distributed, these points simply would
not exist—not for another billion years or so. The huge fall (a 20-standard-
deviation event) might be expected to happen in financial markets every
few billion years if in fact daily returns were normally distributed. Instead,
they seem to happen about once every 70 years or so.
These observations should provide good anecdotal evidence that the
assumption of normally distributed returns is unfounded. Indeed, empir-
ical evidence has shown that stock market returns are what are termed
strongly leptokurtic (a.k.a. fat-tailed) to the extent that it is not helpful to
think of them as normal at all. The two characteristics of leptokurtic distri-
butions are that (1) they are pointy and (2) they contain a relatively large
proportion of extreme tail values. Some theorists think that the best way to
understand stock returns is actually to conceive of them as multiple over -
lapping (and non-Gaussian) distributions. Whatever statistical distribu-
tion stock returns follow, it is certainly not Gaussian.
Option traders, in fact, took markets to be normally distributed
until the great crash of 1987. After that time, the practitioner response
to the obvious leptokurtic nature of stock price returns—charging a
much higher than theoretically justified price for far out-of-the money
(OTM) puts and far in-the-money (ITM) calls—came into being, and the
volatility smile, a feature we will discuss in detail in Part III of the book,
came into existence. This means that the second pillar on which the BSM
is built is wrong.
Stock Prices Drift Upward at the Risk-Free Rate
On average, the compound annual growth of the stock market since
1926 has been on the order of 10 percent. The average annual compound
growth of U.S. government Treasury bonds (our risk-free benchmark)
has been on the order of 5 percent. Therefore, just comparing these
averages, it would seem that stocks drift upward at roughly twice the
risk-free rate.
46 •   TheIntelligentOptionInvestor
Averages can be misleading, however, so in the following graph I have
plotted the five-year rolling compound annual growth rate for both the
S&P 500 and T-bonds:
35%
30%
25%
20%
15%
10%
5%
0%
-5%
-10%
-15%1932 1937 1942 1947 1952 1957 1962 1967 1972 1977 1982 1987 1992 1997 2002 2007
Stocks 5-year CAGR T-Bonds 5-year CAGR
Y ou can see that there are some significant outliers in the Great
Depression area of the graph, but in general, stock returns are much higher
than those of risk-free instruments on this rolling basis as well. In fact,
if you asked me to guess what any randomly selected rolling five-year
compound annual growth rate (CAGR) for stocks was going to be, I would
probably pick a number like 13 percent and figure that I would at least be in
the ballpark 80 percent of the time. Certainly, by looking at the preceding
graph, you can tell that there is no reasonable basis to believe that stocks
should increase anywhere around the rate of risk-free securities! As such,
we can discard the third pillar of the BSM.
No Taxes, No Trading Restrictions, and All Market Participants
Can Borrow at the Risk-Free Rate, Etc.
No comment, other than to say, “Ha!” With no pillars left, the edifice of the
BSM crumbles in on itself after even just a cursory look.
The Black-Scholes-Merton Model47
The fact that the theoretical basis of option pricing is provably wrong
is very good news for intelligent investors. The essence of intelligent option
investing involves comparing the mechanically determined and unreason-
able range of stock price predictions made by the BSM with an intelligent
and rational valuation range made by a human investor. Because the BSM
is using such ridiculous assumptions, it implies that intelligent, rational
investors will have a big investing advantage. Indeed, I believe that they do.
Now that we have seen how the BSM forecasts future price ranges for
stocks and why the predictions made by the BSM are usually wrong, let us
now turn to an explanation of how the stock price predictions made by the
BSM tie into the option prices we see on an option exchange such as the
Chicago Board Option Exchange (CBOE).
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49
Chapter 3
The InTellIgenT
InvesTors guIde To
opTIon prIcIng
By the end of this chapter, you should understand how changes in the follow-
ing Black-Scholes-Merton model (BSM) drivers affect the price of an option:
1. Moneyness
2. Forward volatility
3. Time to expiration
4. Interest rates and dividend yields
Y ou will also learn about the three measures of volatility—forward, im-
plied, and statistical. Y ou will also understand what drivers affect option
prices the most and how simultaneous changes to more than one variable
may work for or against an option investment position.
In this chapter and throughout this book in general, we will not try to
figure out a precise value for any options but just learn to realize when an op-
tion is clearly too expensive or too cheap vis-à-vis our rational expectations
for a fair value of the underlying stock. As such, we will discuss pricing in
general terms; for example, “This option will be much more expensive than
that one. ” This generality frees us from the computational difficulties that
come about when one tries to calculate too precise a price for a given op-
tion. The BSM is designed to give a precise answer, but for investing, simply
knowing that the price of some security is significantly different from what
it should be is enough to give one an investing edge.
50 •   TheIntelligentOptionInvestor
In terms of how this chapter fits in with the goal of being an
intelligent option investor, it is in this chapter that we start overlaying
the range of exposure introduced in Chapter 1 with the implied stock
price range given by the BSM cone that was introduced in Chapter 2.
This perspective will allow us to get a sense of how expensive it will
be to gain exposure to a given range or, conversely, to see how much
we are likely to be able to generate in revenue by accepting exposure
to that range. Understanding the value of a given range of exposure as
perceived by the marketplace will allow us to determine what option
strategy will be best to use after we determine our own intelligent
valuation range for a stock.
Jargon introduced in this chapter is as follows:
Strikestock price ratio Volatility (Vol)
Time value Forward volatility
Intrinsic value Implied volatility
Tenor Statistical volatility
Time decay Historical volatility
How Option Prices are Determined
In Chapter 1, we saw what options looked like from the perspective of
ranges of exposure. One of the takeaways of that chapter was how flexible
options are in comparison with stocks. Thinking about it a moment, it is
clear that the flexibility of options must be a valuable thing. What would
it be worth to you to only gain upside to a stock without having to worry
about losing capital as a result of a stock price decline?
The BSM, the principles of which we discussed in detail in Chapter 2,
was intended to answer this question precisely—“What is the fair value of
an option?” Let us think about option prices in the same sort of probabilis-
tic sense that we now know the BSM is using.
First, lets assume that we want to gain exposure to the upside poten-
tial of a $50 stock by buying a call option with a strike price of $70 and a
time to expiration of 365 days. Here is the risk-return profile of this option
position merged with the image of the BSM cone:
The Intelligent Investors Guide to Option Pricing  •  51
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Notice that because this call option is struck at $70, the upside po-
tential we have gained lies completely outside the cone of values the BSM
sees as reasonably likely. This option, according to the BSM, is something
like the bet that a seven-year-old might make with another seven-year-
old: “If you can [insert practically impossible action here], Ill pay you a
zillion dollars. ” The action is so risky or impossible that in order to entice
his or her classmate to take the bet, the darer must offer a phenomenal
return.
Off the playground and into the world of high finance, the way to
offer someone a phenomenal return is to set the price of a risky asset very
low. Following this logic, we can guess that the price for this option should
be very low. In fact, we can quantify this “very low” a bit more by thinking
about the probabilities surrounding this call option investment.
Remembering back to the contention in Chapter 2 that the lines of
the BSM cone represent around a 16 percent probability of occurrence,
we can see that the range of exposure lies outside this, so the chance of
the stock making it into this range is lower than 16 percent. Lets say that
the range of exposure sits at just the 5 percent probability level. What this
means is that if you can find 20 identical investments like this and invest in
all of them, only one will pay off (1/20 = 5 percent).
52 •   TheIntelligentOptionInvestor
Thus, if you thought that you would win $1 for each successful invest-
ment you made, you might only be willing to pay $0.04 to play the game. In
this case, you would be wagering $0.04 twenty times in the hope of making
$1 once—paying $0.80 total to net $0.20 for a (probabilistic) 25 percent
return.
Now how much would you be willing to bet if the perceived chance
of success was not 1 in 20 but rather 1 in 5? With options, we can increase
the chance of success simply by altering the range of exposure. Lets try this
now by moving the strike price down to $60:
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30
40
50
60
70
80
90
100
999
Advanced Building Corp. (ABC)
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After moving the strike price down, one corner of the range of
exposure we have gained falls within the BSM probability cone. This option
will be significantly more expensive than the $70 strike option because the
perceived probability of the stock moving into this range is material.
If we say that the chance of this call option paying its owner $1 is
1 in 5 rather than 1 in 20 (the range of exposure is within the 16 percent
line, so were estimating it as a 20 percent chance—1 in 5, in other words),
we should be willing to pay more to make this investment. If we expected
to win $1 for every five tries, we should be willing to spend $0.16 per bet.
Here we would again expect to pay $0.80 in total to net $0.20, and again
our expected percentage return would be 25 percent.
The Intelligent Investors Guide to Option Pricing  •  53
Notice that by moving the strike down from an expected 5 percent chance
of success to an expected 20 percent chance of success, we have agreed that we
would pay four times the amount to play. What would happen if we lowered the
strike to $50 so that the exposure range started at the present price of the stock?
Obviously, this at-the-money (ATM) option would be more expensive still:
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100
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Stock Price
GREEN
The range of upside exposure we have gained with this option is not only
well within the BSM probability cone, but in fact it lies across the dotted line in-
dicating the “most likely” future stock value as predicted by the BSM. In other
words, this option has a bit better than a 50 percent chance of paying off, so it
should be proportionally more expensive than either of our previous options.
The payouts and probabilities I provided earlier are completely made
up in order to show the principles underlying the probabilistic pricing of
option contracts. However, by looking at an option pricing screen, it is very
easy to extrapolate annualized prices associated with each of the probabil-
ity levels I mentioned—5, 20, and 50 percent.
The following table lists the relative market prices of call options cor-
responding to each of the preceding diagrams.
1 The table also shows the
calculation of the call price as a percentage of the present price of the stock
($50) as well as the strikestock price ratio , which shows how far above or
below the present stock price a given strike price is.
54 •   TheIntelligentOptionInvestor
Strike Price StrikeStock Price Ratio Call Price
Call Price as a Percent
of Stock Price
70 140% $0.25 0.5
60 120% $1.15 2.3
50 100% $4.15 8.3
Notice that each time we lowered the strike price in successive
examples, we lowered the ratio of the strike price to the stock price. This
relationship (sometimes abbreviated as K/S, where K stands for strike price
and S stands for stock price) and the change in option prices associated
with it are easy for stock investors to understand because of the obvious tie
to directionality. This is precisely the reason why we have used changes in
the strikestock price ratio as a vehicle to explain option pricing. There are
other variables that can cause option prices to change, and we will discuss
these in a later section.
I will not make such a long-winded explanation, but, of course,
put options are priced in just the same way. In other words, this put
option,
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The Intelligent Investors Guide to Option Pricing  •  55
would be more expensive than the following put option, which looks like
this:
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60
70
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Advanced Building Corp. (ABC)
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The former would be more expensive than the latter simply because the
range of exposure for the first lies further within the BSM cone of prob-
ability than the latter.
We can extrapolate these lessons regarding calls and puts to come
up with a generalized rule about comparing the prices of two or more op-
tions. Options will be more expensive in proportion to the total range of
exposure that lies within the BSM cone. Graphically, we can represent this
rule as follows:
This call option will be much less
expensive…
GREEN
GREEN
than this call option.
56 •   TheIntelligentOptionInvestor
This is so because the area of the range of exposure for the option on
the left that is bounded by the BSM probability cone is much smaller than
the range of exposure for the option on the right that is bounded by the
same BSM probability cone.
Time Value versus Intrinsic Value
One thing that I hope you will have noticed is that so far we have talked
about options that are either out of the money (OTM) or at the money
(ATM). In-the-money (ITM) options—options whose range of exposure
already contains the present stock price—may be bought and sold in just
the same way as ATM and OTM options, and the pricing principle is ex-
actly the same. That is, an ITM option is priced in proportion to how much
of its range of exposure is contained within the BSM probability cone.
However, if we think about the case of an OTM call option, we realize
that the price we are paying to gain access to the stocks upside potential
is based completely on potentiality. Contrast this case with the case of an
ITM call option, where an investor is paying not only for potential upside
exposure but also for actual upside as well.
It makes sense that when we think about pricing for an ITM call option,
we divide the total option price into one portion that represents the poten-
tial for future upside and another portion that represents the actual upside.
These two portions are known by the terms time value and intrinsic value,
respectively. It is easier to understand this concept if we look at a specific
example, so lets consider the case of purchasing a call option struck at $40
and having it expire in one year for a stock presently trading at $50 per share.
We know that a call option deals with the upside potential of a stock
and that buying a call option allows an investor to gain exposure to that up-
side potential. As such, if we buy a call option struck at $40, we have access
to all the upside potential over that $40 mark. Because the stock is trading
at $50 right now, we are buying two bits of upside: the actual bit and the
potential bit. The actual upside we are buying is $10 worth (= $50 $40)
and is termed the intrinsic value of the option.
A simple way to think of intrinsic value that is valid for both call options
and put options is the amount by which an option is ITM. However, the options
cost will be greater than only the intrinsic value as long as there is still time
The Intelligent Investors Guide to Option Pricing  •  57
before the option expires. The reason for this is that although the intrinsic value
represents the actual upside of the stocks price over the option strike price,
there is still the possibility that the stock price will move further upward in the
future. This possibility for the stock to move further upward is the potential bit
mentioned earlier. Formally, this is called the time value of an option.
Let us say that our one-year call option struck at $40 on a $50 stock
costs $11.20. Here is the breakdown of this examples option price into in-
trinsic and time value:
$10.00 Intrinsic value: the amount by which the option is ITM
+ $1.20 Time value: represents the future upside potential of the stock
= $11.20 Overall option price
Recall that earlier in this book I mentioned that it is almost always a mis-
take to exercise a call option when it is ITM. The reason that it is almost always
a mistake is the existence of time value. If we exercised the preceding option,
we would generate a gain of exactly the amount of intrinsic value—$10. How-
ever, if instead we sold the preceding option, we would generate a gain totaling
both the intrinsic value and the time value—$11.20 in this example—and then
we could use that gain to purchase the stock in the open market if we wanted.
Our way of representing the purchase of an ITM call option from a
risk-reward perspective is as follows:
Advanced Building Corp. (ABC)
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EBP = $51.25
999
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GREEN
ORANGE
58 •   TheIntelligentOptionInvestor
Usually, our convention is to shade a gain of exposure in green, but
in the case of an ITM option, we will represent the range of exposure with
intrinsic value in orange. This will remind us that if the stock falls from its
present price of $50, we stand to lose the intrinsic value for which we have
already paid.
Notice also that our (two-tone) range of exposure completely over -
laps with the BSM probability cone. Recalling that each upper and lower
line of the cone represents about a 16 percent chance of going higher or
lower, respectively, we can tell that according to the option market, this
stock has a little better than an 84 percent chance of trading for $40 or
above in one years time.
2
Again, the pricing used in this example is made up, but if we take a
look at option prices in the market today and redo our earlier table to in-
clude this ITM option, we will get the following:
Strike Price ($)
StrikeStock
Price Ratio (%) Call Price ($)
Call Price as a Percent
of Stock Price
70 140 $0.25 0.5
60 120 $1.15 2.3
50 100 $4.15 8.3
40 80 10.85 21.7
Again, it might seem confounding that anyone would want to use the
ITM strategy as part of their investment plan. After all, you end up paying
much more and being exposed to losses if the stock price drops. I ask you
to suspend your disbelief until we go into more detail regarding option
investment strategies in Part III of this book. For now, the important points
are (1) to understand the difference between time and intrinsic value,
(2) to see how ITM options are priced, and (3) to understand our convention
for diagramming ITM options.
From these diagrams and examples it is clear that moving the range
of exposure further and further into the BSM probability cone will increase
the price of the option. However, this is not the only case in which options
will change price. Every moment that time passes, changes can occur to
The Intelligent Investors Guide to Option Pricing  •  59
the size of the BSMs probability cone itself. When the cone changes size,
the range-of-exposure area within the cone also changes. Lets explore this
concept more.
How Changing Market Conditions
Affect Option Prices
At the beginning of Chapter 2, I started with an intuitive example related
to a friendly bet on whether a couple would make it to a restaurant in time
for a dinner reservation. Lets go back to that example now and see how the
inputs translate into the case of stock options.
Dinner Reservation Example Stock Option Equivalent
How long before seating time Tenor 3 of the option
Distance between home and restaurant Difference between strike price and
present market price (i.e., strikestock
price ratio)
Amount of traffic/likelihood of getting caught
at a stoplight
How much the stock returns are
thought likely to vary up and down
Average traveling speed Stock market drift
Gas expenditure Dividend payout
Looking at these inputs, it is clear that the only input that is not known
with certainty when we start for the restaurant is the amount of traffic/
number of stoplights measure.
Similarly, when the BSM is figuring a range of future stock prices,
the one input factor that is unknowable and that must be estimated is
how much the stock will vary over the time of the option contract. It is
no surprise, then, that expectations regarding this variable become the
single most important factor for determining the price of an option and
the factor that people talk most about when they talk about options—
volatility (vol).
This factor is properly known as forward volatility and is formally
defined as the expected one-standard-deviation fluctuation up and
down around the forward stock price. If this definition sounds familiar,
60 •   TheIntelligentOptionInvestor
it is because it is also the definition of the BSM cone. To the extent that
expectations are not directly observable, forward volatility can only be
guessed at.
The option markets best guess for the forward volatility, as expressed
through the option prices themselves, is known as implied volatility. We
will discuss implied volatility in more detail in the next section and will
see how to build a BSM cone using option market prices and the forward
volatility they imply in Part III.
The one other measure of volatility that is sometimes mentioned is sta-
tistical volatility (a.k.a. historical volatility). This is a purely descriptive statis-
tic that measures the amount the stock price actually fluctuated in the past.
Because it is simply a backward-looking statistic, it does not directly affect
option pricing. Although the effect of statistical volatility on option prices
is not direct, it can have an indirect effect, thanks to a behavioral bias called
anchoring. Volatility is a hard concept to understand, let alone a quantity to
attempt to predict. Rather than attempt to predict what forward volatility
should be, most market participants simply look at the recent past statistical
volatility and tack on some cushion to come to what they think is a reason-
able value for implied volatility. In other words, they mentally anchor on the
statistical volatility and use that anchor as an aid to decide what forward vola-
tility should be. The amount of cushion people use to pad statistical volatility
differs for different types of stocks, but usually we can figure that the markets
implied volatility will be about 10 percentage points higher than statistical
volatility. It is important to realize that this is a completely boneheaded way
of figuring what forward volatility will be (so dont emulate it yourself), but
people do boneheaded things in the financial markets all the time.
However people come to an idea of what forward volatility is rea-
sonable for a given option, it is certain that changing perceptions about
volatility are one of the main drivers of option prices in the market. To
understand how this works, lets take a look at what happens to the BSM
cone as our view of forward volatility changes.
Changing Volatility Assumptions
Lets say that we are analyzing an option that expires in two years, with a
strike price of $70. Further assume that the market is expecting a forward
The Intelligent Investors Guide to Option Pricing  •  61
volatility of 20 percent per year for this stock. Visually, our assumptions
yield the following:
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A forward volatility of 20 percent per year suggests that after
three years, the most likely range for the stocks price according to the
BSM will be around $41 on the low side to around $82 on the high
side. Furthermore, we can tell from our investigations in Chapter 2 that
this option will be worth something, but probably not much—about the
same as or maybe a little more than the one-year, $60 strike call option
we saw in Chapter 2.
4
Now lets increase our assumption for volatility over the life of the
contract to 40 percent per year. Increasing the volatility means that the
BSM probability cone becomes wider at each point. In simple terms, what
we are saying is that it is likely for there to be many more large swings in
price over the term of the option, so the range of the possible outcomes
is wider.
Here is what the graph looks like if we double our assumptions
regarding implied volatility from 20 to 40 percent:
62 •   TheIntelligentOptionInvestor
Advanced Building Corp. (ABC)
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Compared with the preceding diagram, look how far into the exposure
range the new BSM probability cone extends! Under an assumption of
40 percent per year forward volatility, the most likely price range for the
stock as calculated by the BSM is around $30 to nearly $120.
Looking at the range of exposure contained within the new BSM
probability cone, we can tell that the likelihood of the stock being at $70 or
greater in two years is much higher than it was when we assumed a forward
volatility of 20 percent. Because the area of the range of exposure contained
within the new BSM cone is much greater, we can be sure that the option
will be much more expensive now.
Lets now take a look at the opposite case—volatility is assumed to be
half that of our original 20 percent per year assumption:
Advanced Building Corp. (ABC)
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The Intelligent Investors Guide to Option Pricing  •  63
With this change in assumptions, we can see that the most likely
range for the stocks price three years in the future is between about $50 and
about $70. As such, the chance of the stock price hitting $70 in two years
moves from somewhat likely (20 percent volatility in the first example) to
very likely (40 percent volatility in the second example) to very unlikely
(10 percent volatility in the third example) in the eyes of the BSM. This
characterization of “very unlikely” is seen clearly by the fact that the BSM
probability cone contains not one whit of the call options exposure range.
In each of these cases, we have drawn the graphs by first picking an
assumed volatility rate and then checking the worth of an option at a cer -
tain strike price. In actuality, option market participants operate in reverse
order to this. In other words, they observe the price of an option being
transacted in the marketplace and then use that price and the BSM model
to mathematically back out the percentage volatility implied by the option
price. This is what is meant by the term implied volatility and is the process
by which option prices themselves display the best guesses of the option
markets participants regarding forward volatility.
Indeed, many short-term option speculators are not interested in the
range of stock prices implied by the BSM at all but rather the dramatic change in
price of the option that comes about with a change in the width of the volatility
cone. For example, a trader who saw the diagram representing 10 percent annu-
alized forward volatility earlier might assume that the company should be trad-
ing at 20 percent volatility and would buy options hoping that the price of the
options will increase as the implied volatility on the contracts return to normal.
This type of market participant talks about buying and selling volatility as if
implied volatility were a commodity in its own right. In this style of option trad-
ing, investors assume that option contracts for a specific stock or index should
always trade at roughly the same levels of implied volatility.
5 When implied vola-
tilities change from the normal range—either by increasing or decreasing—an
option investor in this vein sells or buys options, respectively. Notice that this
style of option transaction completely ignores not only the ultimate value of the
underlying company but also the very price of the underlying stock.
It is precisely this type of strategy that gives rise to the complex short-
term option trading strategies we mentioned in Chapter 1—the ones that are
set up in such a way as to shield the investor transacting options from any of
the directionality inherent in options. Our take on this kind of trading is that
64 •   TheIntelligentOptionInvestor
although it is indeed possible to make money using these types of strategies,
because multiple options must be transacted at one time (in order to control
directional risk), and because in the course of one year many similar trades
will need to be made, after you pay the transaction costs and assuming that
you will not be able to consistently win these bets, the returns you stand to
make using these strategies are low when one accounts for the risk undertaken.
Of course, because this style of option trading benefits brokers by
allowing them to profit from the bid-ask spread and from a fee on each
transaction, they tend to encourage clients to trade in this way. What is
good for the goose is most definitely not good for the gander in the case of
brokers and investors, so, in general, strategies that will benefit the investor
relatively more than they benefit the investors broker—like the intelligent
option investing we will discuss in Part III—are greatly preferable.
The two drivers that have the most profound day-to-day impact
on option prices are the ones we have already discussed: a change in the
strikestock price ratio and a change in forward volatility expectations.
However, over the life of a contract, the most consistent driver of option
value change is time to expiration. We discuss this factor next.
Changing Time-to-Expiration Assumptions
To see why time to expiration is important to option pricing, let us leave
our volatility assumptions fixed at 20 percent per year and assume that we
are buying a call option struck at $60 and expiring in two years. First, lets
look at our base diagram—two years to expiration:
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The Intelligent Investors Guide to Option Pricing  •  65
It is clear from the large area of the exposure range bordered by the
BSM probability cone that this option will be fairly expensive.
Lets now look at an option struck at the same price on the same un-
derlying equity but with only one year until expiration:
Advanced Building Corp. (ABC)
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100
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Date/Day Count
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Consistent with our expectations, shortening the time to expiration
to 365 days from 730 days does indeed change the likelihood as calculated
by the BSM of a call option going above $60 from quite likely to just barely
likely. Again, this can be confirmed visually by noting the much smaller
area of the exposure range bounded by the BSM probability cone in the
case of the one-year option versus the two-year one.
Indeed, even without drawing two diagrams, we can see that the
chance of this stock rising above $60 decreases the fewer days until expira-
tion simply because the outline of the BSM probability cone cuts diagonal-
ly through the exposure range. As the cones outline gets closer to the edge
of the exposure range and finally falls below it, the perceived chance falls
to 16 percent and then lower. We would expect, just by virtue of the cones
shape, that options would lose value with the passage of time.
This effect has a special name in the options world—time decay. Time
decay means that even if neither a stocks price nor its volatility change very
much over the duration of an option contract, the value of that option will
66 •   TheIntelligentOptionInvestor
still fall slowly. Time decay is governed by the shape of the BSM cone and
the degree to which an options range of exposure is contained within the
BSM cone. The two basic rules to remember are:
1. Time decay is slowest when more than three months are left
before expiration and becomes faster the closer one moves toward
expiration.
2. Time decay is slowest for ITM options and becomes faster the
closer to OTM the option is.
Visually, we can understand the first rule—that time decay increases
as the option nears expiration—by observing the following:
Slope is shallow here...
But steep here...
The steepness of the slope of the curve at the two different points
shows the relative speed of time decay. Because the slope is steeper the less
time there is on the contract, time decay is faster at this point as well.
Visually, we can understand the second rule—that OTM options lose
value faster than ITM ones—by observing the following:
Time BT ime A Time BT ime A
GREEN
GREEN
ORANGE
OTM option ITM option
The Intelligent Investors Guide to Option Pricing  •  67
At time A for the OTM option, we see that there is a bit of the range of
exposure contained within the cone; however, after some time has passed
and we are at time B, none of the range of exposure is contained within
the BSM cone. In contrast, at times A and B for the ITM option, the entire
range of exposure is contained within the BSM cone. Granted, the area of
the range of exposure is not as great at time B as it was at time A, but still,
what there is of the area is completely contained within the cone.
Theoretically, time decay is a constant thing, but sometimes actual
market pricing does not conform well to theory, especially for thinly traded
options. For example, you might not see any change in the price of an option
for a few days and then see the quoted price suddenly fall by a nickel even
though the stock price has not changed much. This is a function of the way
prices are quoted—often moving in 5-cent increments rather than in 1-cent
increments—and lack of “interest” in the option as measured by liquidity.
Changing Other Assumptions
The other input assumptions for the BSM (stock market drift and dividend
yield) have very small effects on the range of predicted future outcomes in
what I would call “normal” economic circumstances. The reason for this is
that these assumptions do not change the width of the BSM cone but rather
change the tilt of the forward stock price line.
Remember that the effect of raising interest rates by a few points is
simply to tilt the forward stock price line up by a few degrees; increasing
your dividend assumptions has the opposite effect. As long as interest rates
and dividend yields stay within typical limits, you hardly see a difference in
predicted ranges (or option prices) on the basis of a change in these variables.
Simultaneous Changes in Variables
In all the preceding examples, we have held all variables but one constant
and seen how the option price changes with a change in the one “free”
variable. The thing that takes some time to get used to when one is first
dealing with options is that, in fact, the variables dont all hold still when
another variable changes. The two biggest determinants of option price
are, as weve seen, the strikestock price ratio and the forward volatility
68 •   TheIntelligentOptionInvestor
assumption. Because these are the two biggest determinants, lets take a
look at some common examples in which a change in one offsets or exac-
erbates a change in the other.
Following are a few examples of how interactions between the variables
sometimes appear. For each of these examples, I am assuming a shorter
investment time horizon than I usually do because most people who get hurt
by some adverse combination of variables exacerbate their pain by trading
short-term contracts, where the effect of time value is particularly severe.
Falling Volatility Offsets Accurate Directional Prediction
Lets say that we are expecting Advanced Building Corp. to announce that it
will release a new product and that we believe that this product announcement
will generate a significant short-term boost in the stock price. We think that
the $50 stock price could pop up to $55, so we buy some short-dated calls
struck at $55, figuring that if the price does pop, we can sell the calls struck at
$55 for a handsome profit. Heres a diagram of what we are doing:
20
25
30
35
40Stock Price
45
50
55
60
Advanced Building Corp. (ABC)
65
GREEN
As you should be able to tell by this diagram, this call option should
be pretty cheap—there is a little corner of the call options range of expo-
sure within the BSM cone, but not much.
The Intelligent Investors Guide to Option Pricing  •  69
Now lets say that our analysis is absolutely right. Just after we buy the
call options, the company makes its announcement, and the shares pop up
by 5 percent. This changes the strikestock price ratio from 1.05 to 1.00.
All things being held equal, this should increase the price of the option
because there would be a larger portion of the range of exposure contained
within the BSM cone.
However, as the stock price moves up, lets assume that not everything
remains constant but that, instead, implied volatility falls. This does hap-
pen all the time in actuality; the option market is full of bright, insightful
people, and as they recognize that the uncertainty surrounding a product
announcement or whatever is growing, they bid up the price of the options
to try to profit in case of a swift stock price move.
In the preceding diagram, weve assumed an implied volatility of 35
percent per year. Lets say that the volatility falls dramatically to 15 percent
per year and see what happens to our diagram:
20
25
30
35
40Stock Price
45
50
55
60
Advanced Building Corp. (ABC)
65
Stock price jumps
Implied volatility drops
GREEN
The stock price moves up rapidly, but as you can see, the BSM cone shrinks
as the market reassesses the uncertainty of the stocks price range in the
short term. The tightening of the BSM cone is so drastic that it more than
offsets the rapid price change of the underlying stock, so now the option is
actually worth less!
70 •   TheIntelligentOptionInvestor
We, of course, know that it is worth less because after the announce-
ment, there is only the smallest sliver of the calls range of exposure con-
tained within the BSM cone.
Volatility Rise Fails to Offset Inaccurate Directional Prediction
Lets say that we are bullish on the Antelope Bicycle Co. (ABC) and, noting
that the volatility looks “cheap, ” buy call options on the shares. In this case,
an investor would be expecting to make money on both the stock price and
the implied volatility increasing—a situation that would indeed create an
amplification of investor profits.
We buy a 10 percent OTM call on ABC that expires in 60 days when
the stock is trading for $50.
20
25
30
35
40Stock Price 45
50
55
Antelope Bicycle Corp. (ABC)
60
GREEN
The next morning, while checking our e-mail and stock alerts, we find
that ABC has been using a metal alloy in its crankshafts that spontaneously
combusts after a certain number of cranks. This process has led to severe
burn injuries to some of ABCs riders, and the possibility of a class-action
lawsuit is high. The market opens, and ABCs shares crash by 10 percent. At
the same time, the volatility on the options skyrocket from 15 to 35 percent
The Intelligent Investors Guide to Option Pricing  •  71
because of the added uncertainty surrounding product liability claims.
Here is what the situation looks like now:
20
25
30
35
40Stock Price 45
50
55
Antelope Bicycle Corp. (ABC)
60
GREEN
This time we were right that ABCs implied volatility looked too cheap, but
because we were directionally wrong, our correct volatility prediction does us
no good financially. The stock has fallen heavily, and even with a large increase
in the implied volatility, our option is likely worth less than it was when we
bought it. Also, because the option is now further OTM than it originally was,
time decay is more pronounced. Thus, to the extent that the stock price stays at
the new $45 level, our options value will slip away quickly with each passing day.
Rise in Volatility Amplifies Accurate Directional Prediction
These examples have shown cases in which changes in option pricing
variables work to the investors disadvantage, but it turns out that changes
can indeed work to an investors advantage as well. For instance, lets say
that we find a company—Agricultural Boron Co. (ABC)—that we think,
because of its patented method of producing agricultural boron com-
pounds, is relatively undervalued. We decide to buy 10 percent OTM calls
on it. Implied volatility is sitting at around 25 percent, but our option is far
enough OTM that it is not very expensive.
72 •   TheIntelligentOptionInvestor
20
30
40Stock Price
50
60
70
Agricultural Boron Co.
80
GREEN
The morning after we buy these call options, chemical giant
DuPont (DD) announces that it is initiating a hostile takeover and of-
fering shareholders of ABC a 20 percent premium to the present mar -
ket price—$60 per share. DuPonts statement mentions that it wants to
gain exclusive access to ABCs boron processing technology. The market
immediately thinks of German chemical giant BASF and believes BASF
will make a higher counteroffer so as to keep ABCs revolutionary boron
processing technology out of DuPonts hands. Because there is uncer -
tainty surrounding the possibility of a counterbid and perhaps even the
uncertainty that DuPonts offer will not be accepted, forward volatility on
the contracts increases. The net result is this
6:
20
30
40Stock Price
50
60
70
Agricultural Boron Co. (ABC)
80
GREEN
The Intelligent Investors Guide to Option Pricing  •  73
With this happy news story, our call options went from nearly
worthless to worth quite a bit—the increase in volatility amplified the
rising stock price and allowed us to profit from changes to two drivers of
option pricing.
There is an important follow-up to this happy story that is well worth
keeping in the back of your mind when you are thinking about investing
in possible takeover targets using options. That is, our BSM cone widened
a great deal when the announcement was made because the market be-
lieved that there might be a higher counteroffer or that the deal would fall
through. If instead the announcement from DuPont was that it had made
a friendly approach to the ABC board of directors and that its offer had
already been accepted, uncertainty surrounding the future of ABC would
fall to zero (i.e., the market would know that barring any antitrust con-
cerns, DuPont would close on this deal when it said it would). In this case,
implied volatility would simply fall away, and the call options value would
become the intrinsic value (in other words, there is no potential or time
value left in the option). The situation would look like this:
20
30
40 Stock Price
50
60
70
Agricultural Boron Co. (ABC)
80
GREEN
We would still make $5 worth of intrinsic value on an invested base
that must have been very small (lets say $0.50 or so), but were the situation
to remain uncertain, we would make much more.
74 •   TheIntelligentOptionInvestor
Y ou now have a good understanding of how options work and how
they are priced from a theoretical perspective. Although it is clear from
Chapter 2 that the BSM has its faults, it is undeniable that in certain times
and under certain conditions, it works well. Please see Appendix A for a
brief discussion of the situations in which the BSM is fairly good at pricing
options—intelligent option investors will want to avoid these—and when
it is poor—cases that present the most attractive chances for intelligent in-
vestors.
Now that you have a good idea of how options work and are priced,
lets turn to how we can do a better job of predicting valuation ranges than
the BSM does. This is the subject of Part II.
75
Part II
A sound intellectuAl
frAmework for
Assessing vAlue
After reading Part I, you should have a very good theoretical grasp on
how options work and how option prices predict the future prices of stocks.
This takes us partway to the goal of becoming intelligent option investors.
The next step is to understand how to make intelligent, rational es-
timates of the value of a company. It makes no sense at all for a person to
invest his or her own capital buying or selling an option if he or she does not
have a good understanding of the value of the underlying stock.
The problem for most investors—both professional and individual—
is that they are confused about how to estimate the value of a stock. As such,
even those who understand how the Black-Scholes-Merton model (BSM)
predicts future stock prices are not confident that they can do any better.
There is a good reason for the confusion among both professional and
private investors: they are not taught to pay attention to the right things.
Individual investors, by and large, do not receive training in the basic tools
of valuation analysis—discounted cash flows and how economic transac-
tions are represented in a set of financial statements. Professional investors
are exquisitely trained in these tools but too often spend time spinning
their wheels considering immaterial details simply because that is what
they have been trained to do and because their compensation usually relies
on short- rather than long-term performance. They have all the tools in the
world but are taught to apply them to answering the wrong questions.
76 •   TheIntelligentOptionInvestor
Part II of this book sets forth a commonsense approach to determining
the value of a company. It aims to provide individual investors with the
tools they need and to offer both individual and professional investors a
framework that allows them to focus their attention on the most important
things and ignore the rest.
Chapter 4 discusses what I call the golden rule of valuation. Chapter 5
looks at the only four things that can affect the long-term value of a stock
and offers a way to estimate the value a company will create over its entire
economic life. Chapter 6 investigates the behavioral biases and structural
impediments working against us in our investment decisions and offers
tools to avoid them.
In general, I have written these chapters to present the valuation
framework from a conceptual perspective and have thus left out many de-
tails regarding financial statement line items and the like. These details are
important, however, and it is unrealistic to think that you could translate
theory into practice without knowing them. For this reason, I have provid-
ed a detailed valuation example on the Intelligent Option Investor website,
complete with descriptions of all the financial statements I analyzed and
explanations of the thought processes I used when doing the analysis.
77
Chapter 4
the golden rule of
v AluAtion
Commit the following definition to memory:
The value of an asset is the sum of the cash flows it creates on
behalf of its owners over its economic life.
Contrary to popular opinion, valuation is easy. One does not need a masters
degree in accounting or to be an expert in financial statement analysis to com-
petently value a company and estimate a fair value range for a stock. The only
thing a person needs is to internalize the preceding sentence and understand
the handful of factors that affect the cash flows of a firm over time.
This chapter focuses on developing a theoretical framework using the
golden rule of valuation—which you have already memorized—and looks
at each part of that simple definition phrase by phrase, with each phrase a
different section of the chapter. The sections are as follows:
1. The Value of an Asset: Here we offer a specific definition for an as-
set and discuss the distinction between value and price.
2. Cash Flows Generated on Behalf of the Owners: Specifies which
cash flows we will measure when valuing an asset.
3. The Companys Economic Life: Breaks the life of the firm into
three stages to help make the valuation process easier and more
transparent.
For those new to the subject of valuation, I present an additional
section that provides overviews of specific topics such as time value of
78 •   TheIntelligentOptionInvestor
money and discount rates, but even being unacquainted with these terms
right now will not be a handicap.
Business is essentially a collection of very simple transactions—pro-
ducing, selling, and investing excess profits. In my experience, one of the
biggest investing mistakes occurs when people forget to think about busi-
ness in terms of these simple transactions.
Having a firm grasp of valuation is an essential part of being an in-
telligent option investor. The biggest drawback of the BSM is its initial as-
sumption that all stock prices represent the true values of the stocks in
question. It follows that the best opportunity for investors comes when a
stocks present price is far from its true intrinsic value. In order to assess
how attractive an investment opportunity is, we must have a good under-
standing of the source of value for a firm and the factors that contribute to
it. These are the topics of this chapter and the next.
In terms of our intelligent option investing process, we need two
pieces of information:
1. A range of future prices determined mechanically by the option
market according to the BSM
2. A rationally determined valuation range generated through an in-
sightful valuation analysis
This chapter and the next give the theoretical background necessary to de-
rive the latter.
Jargon to be introduced in this chapter is as follows:
Asset Structural constraints
Demand-side constraints Supply-side constraints
Owners cash profit (OCP) Expansionary cash flow
Free cash flow to owner(s) (FCFO) Working capital
The Value of an Asset
The meaning of asset , in financial terms, is different from the vernacular
meaning of “something I d be upset about if it broke or was stolen. ” In
financial terms, an asset is anything that can be owned that (1) was created
The Golden Rule of Valuation 79
through an expenditure and (2) has the capacity to generate revenues
and/or to increase profits. Thinking about assets from the perspective of
revenue creation and profit growth, it is clear that things such as family cars
are usually not assets but are rather convenience items.
A collection of assets is also an asset—if you own a taxi cab, you own
an asset; if you own a taxi-cab company, you also own an asset. Modern
corporations are extremely complex, frequently with multiple business
lines and operations in multiple states and countries and with assets com-
prised of machinery, land, and intellectual property. However, even though
corporations are complex, they are still assets in the sense that they are a
collection of discrete assets themselves.
An asset is created through an expenditure, so it follows that all assets
have a price; this price may be greater or less than the assets value. The distinc-
tion between the price of an asset and its value lies at the heart of what is known
as value investing, so it is an important one to grasp. As an example, lets say that
you would like to start a suburban taxi service, and frame the difference be-
tween price and value of the main asset you need to start this business: a car. In
order for your business to be successful, the car you buy should be roomy, reli-
able, and attractive to customers. Y ou do some research and decide to buy one
of the two following cars—both of which fit your above-stated requirements:
1. 2013 Bentley Mulsanne: Manufacturers suggested retail price
(MSRP) of $300,000
2. 2013 Toyota Camry: MSRP of $28,000
The choice between the two cars for a typical taxi business is simple.
The price of the Mulsanne is clearly too high. It is hard to imagine that
the cash flows that would accrue to the owner of a Mulsanne taxi service
would ever be enough to cover the cost of the car itself. In this case, the
assets value as a cab is much less than its price. In the parlance of modern
financial theorists, a company paying the price of a Mulsanne for a car to
start a suburban taxi service is “destroying shareholder value. ”
Obviously, it is not necessary to do complex calculations to see that
value would be destroyed in this case with the purchase of the Bentley. We
cannot be sure of what the value of a suburban taxi service is without some
more information, but we can pretty easily guess that the cash generated
from such a service would not be enough to pay off the price of the Mulsanne.
80 •   TheIntelligentOptionInvestor
Whether the purchase of the Camry is a good idea or not is a bit more
complicated. However, our conception of value for the service should not
change, so our decision to invest will be driven completely by the relation-
ship of the price of the Camry to our best idea for the value it can create. If
the likely value of the car is higher than its price, its an investment worth
considering; if the likely value of the car is less than its price (as was the
case in the Mulsanne), it is folly to do anything but walk away. If the likely
value is much, much higher than the price, to the extent that it would pro-
vide you much more wealth than you might generate with another simi-
larly sized, similarly risky investment, it would be irrational not to make
the investment.
All of this—determination of the value and considerations
surrounding investment—should seem very sensible to you. Indeed, it is
only common sense. The problem is that when it comes to the investment
process, many investors—professional and amateur alike—throw this
common sense to the wind and start getting confused by what other people
are saying about chart patterns and multiples and potential demand for a
companys nascent product line.
I will talk about where this confusion might come from in Chapter 6.
Now that we have an understanding of what an asset is—something
that can be owned, that is created through expenditures, and has the capac-
ity to generate revenue or increase profits—lets investigate the next phrase
in our golden rule: “cash flows generated on behalf of owners. ”
Cash Flows Generated on Behalf of Owners
Our taxi-cab entrepreneur buys the Camry—an act that, in the parlance of
financiers, is called a capital expense—and opens the taxi service. In order
to receive revenues, she will have to do a few things:
Advertise
Pay herself a salary
Spend money to maintain the taxi in good working condition (gas,
oil changes, etc.)
Spend money on such things as insurance, licensing, mobile phone
service, and banking and professional fees
The Golden Rule of Valuation 81
Lets assume that the owner runs the business for an entire year, and
she leaves what is left over after paying the preceding expenses in her bank
account. At the end of the year, the owner is sitting on excess profits of
$5,000. Y ou might be tempted to say that this amount is the cash flow gen-
erated on behalf of the owner, but lets think about it more carefully for a
moment.
The owner is a good businessperson, so she realizes that the Camry is
not going to last forever. At some point, the owner will need to buy another
one, so she wants to set some money aside for a down payment—lets say
she sets aside $1,000.
Now the owner has $4,000 that is not spoken for—perhaps this is the
amount of the total cash flow generated on behalf of the owner. It could be.
The owner might simply be interested in running the business at the pre-
sent level and may be content with the $4,000 in cash or so that she figures
she can generate in excess of expenses every year. If so, the owner might
pay herself a special “bonus” and use the $4,000 to go on a cruise.
However, lets say that the owner has an idea that she can schedule
more efficiently if she uses an online ordering system that is tied into her
accounting system. She thinks this online ordering system will allow her to
schedule a few more fares a week just from improved order efficiency and
will also save her a few hours a month 10-keying data into her accounting
system. In other words, she believes that if she invests in the system, she will
be able to increase the rate of growth of both revenues (through more fares
per week) and profits (from the reduced time expended on bookkeeping).
The online ordering system and related equipment cost $2,000.
If the owner does not spend the $2,000, she can be pretty confident
that her business will keep buzzing along and will generate about $4,000
in cash flow for her the next year. If she spends the $2,000, she figures that
she will be able to generate $4,500 next year—the extra $500 representing
a nice return on her investment of 25 percent (= $500/$2,000). This extra
return is at risk—it could be that the investment in the computerized
system will not pay off, in which case the $2,000 she spent will simply
be a waste—but if successful, the expenditure will pay for itself in just a
few years.
If the taxi owner decides to spend the money on the new system, she
ends up with $2,000 free and clear in her bank account. This money—the
82 •   TheIntelligentOptionInvestor
money that is left over after paying all her daily expenses, setting aside
money for the maintenance of her business, and purchasing an asset de-
signed to help her business expand—is the amount that we will term cash
flows generated on behalf of the owner.
We have developed some terms to use in this book to describe each
step of the process of generating cash flows on behalf of an owner. These are:
1. Owners Cash Profit (OCP): Cash available to owners after all nec-
essary direct costs of the business have been paid and after money
is spent or set aside to maintain the business as a going concern
(e.g., gas, insurance, maintenance, and setting aside funds for the
next taxi).
2. Expansionary Cash Flows: Any money invested to try to generate
more revenues or increase profit in the future. Expansionary cash
flows are an investment, so are not guaranteed of being successful
(e.g., online ordering system).
3. Free Cash Flow to Owners (FCFO): Any OCP left over after
expansionary cash flows are made.
Free cash flow to owners is the quantity that we will measure and
project to get an estimate of the value of a company.
From these descriptions, you can certainly identify the OCP , ex-
pansionary cash flows, and FCFO for our taxi entrepreneur. To analyze a
public company, we need to associate these concepts with particular line
items on a financial statement. On my website, I have a detailed valuation
example (of enterprise software giant, Oracle) that shows what specific line
items to estimate each of the quantities mentioned here.
Now that we have a good understanding of what cash flows we are
looking at in order to value a company, lets investigate the phrase over the
companys economic life.
The Companys Economic Life
The economic life of a company involves the firm struggling to generate
cash flow subject to various constraints that change as the company
grows older. When a company is young, like our taxi company, the main
The Golden Rule of Valuation 83
constraint it is likely to face is a supply-side one. Our taxi company has only
one car and one driver. Assuming that the average ride for a customer lasts
15 minutes, the taxi company would be hard pressed to service more than
about 40 customers a day or 240 customers a week (assuming a 10-hour
work day and a 6-day work week). Because the taxis capital resource base
is small—one car—no matter how many potential customers may exist,
the volume of service that may be provided is also small. This is a classic
example of supply-side constraints.
Money and credit are like oxygen to a fire for supply-constrained
companies. Given extra money—whether generated through operations,
borrowed from a bank, or raised by selling shares to other part owners—
our taxi company will be able to buy more cars and hire more drivers. If we
think about these expenditures as investments, this is clearly an investors
dream because virtually any investment made is guaranteed to have good
results.
“There is enough customer demand for 10 taxis in this town. We have
three taxis and some money to invest. Lets buy another taxi. ” This is not a
difficult or intellectually draining analytical process!
As long as the company has access to capital
1 and is producing some-
thing consumers want, the percentage growth rates of its revenues year
over year during this stage of the businesss economic life can be phenom-
enal; after all, if you own one cab and simply buy two others to serve a cab-
starved region, your revenues are likely to show a year-over-year growth
rate of somewhere around 200 percent.
FCFO during this time may, in fact, be negative—a company can
fund itself through debt and actually pay more on expansionary projects
than it receives in profits—but this does not mean that the business is bad,
merely that it is facing supply-side constraints and trying to expand its
capital base to meet the size of the markets demand.
We see this type of rapid growth in public companies all the time.
Railroads in the 1800s, automobile companies in the 1900s, and Internet
firms in the late 1990s all showed incredible revenue growth as customer
demand swelled for products and services based on the latest technological
advances.
If the taxi owner can navigate the process of raising money, eventu-
ally, she will have built up her capital base to match the size of the market
84 •   TheIntelligentOptionInvestor
opportunity. It is at this point that a company begins operating subject to
demand-side constraints—constraints arising from the vagaries of competi-
tion and consumer choice.
When faced with demand-side constraints, the taxi cab owner is no
longer concerned with finding new investment money to expand her capi-
tal base but rather with finding ways to keep her cash flows growing even
though her capital base is sufficient to meet current customer demand. Dur-
ing this part of the companys economic life, investment decisions become
more difficult. One possible investment choice is to spend money on systems
or processes to make the operation more efficient. This will not affect top-line
(i.e., revenue) growth but likely will increase the flow of cash to the owner
by allowing for a higher proportion of revenues to be converted into profits.
Other investment possibilities for our demand-constrained taxi
entrepreneur include opening an operation in another geographic area—
maybe in the form of a joint venture (JV) with another entrepreneur in the
new region who understands the local economy well—buying a rival taxi
company, or indeed branching out to start some other business under the
taxi companys umbrella.
In terms of our original example to illustrate FCFO, in this period, for
a single car in her fleet, our taxi owner may be receiving the same $5,000 in
profits, setting aside the same $1,000 for a replacement vehicle, paying the
driver a $500 profit-sharing bonus, spending $700 for an improved lighting
and security system for the lot in which she parks her fleet of cars, and
squirreling away the rest in case the opportunity to buy the taxi company
across town presents itself. The company may look as though it is generat-
ing $2,800 in FCFO (= $5,000 $1,000 $500 $700), but in fact, in the
owners mind, that $2,800 may just be temporarily available. If a good, large
investment opportunity presents itself, what had looked like free cash flow
from years past might get used all at once in a major investment program.
To find examples of companies in this stage of development, one only
needs to open the business section of the local newspaper. General Motors
JVs with Chinese carmakers to get a toehold in the burgeoning China
market, Procter & Gamble buying Gillette Razors to boost its personal-
care product lines, and Google stepping out of its turf of Internet search-
based advertising to buy Motorola Mobility Systems and manufacturing
mobile phones are all cases in point.
The Golden Rule of Valuation 85
The growth of the taxi companys cash flows will depend on how good
the potential investment opportunities are and how skillful the companys
management is at exploiting those opportunities. If the opportunities are
good and management is skillful, growth rates will continue to be high.
They will certainly not be as high as during the “shooting fish in a barrel”
investment environment when the company was supply constrained, but
they will be higher than the growth rates of most of the companies in the
larger economy.
At some point, however, good investment opportunities will become
fewer and farther between. The taxi-cab company has bought up most of
its regional competitors and is now constrained by the local regulators
rules against monopoly power and anticompetitive practices. The JV in a
neighboring region did well, so our taxi owner bought out her partner and
has expanded that business as far as it will go as well. She dallied with set-
ting up a craft beer brewery (figuring that tipsy customers would be more
likely to hire taxis) but abandoned that when it seemed like it was more
trouble than it was worth.
In fact, the taxi owner noticed that in general, as her business grew
larger, her investment opportunities seemed to generate less and less mar-
ginal improvement in cash flow to her. As with the case of the brewery,
sometimes the extra money flowing in was simply not worth the time and
hassle of running the new business.
So it goes in listed companies as well. Eventually, all the low-hanging
investment fruit is picked and in placed in the companys basket, and get-
ting that next apple requires more energy than it is worth. Looking at long
data series of companies profit growth, you can clearly see the downward
trend over time as the investment opportunities become less and less com-
pelling. Part of the problem for listed firms is not only the availability of
good investment opportunities but also the fact that they have grown so
large that it takes not only a compelling investment but also a compelling
investment that is enormous in size to really move the needle. This is col-
loquially known as the law of large numbers .
2 Stated simply, this rule says
that if you are really big, it is hard to grow really fast.
Now what?
The taxi cab company has been operating under an environment
of demand constraints for some time, and the company—through
86 •   TheIntelligentOptionInvestor
acquisitions, expansion, and the like—has expanded as far as it can into
its local economy. From here on, as long as no one invents a teleportation
device (which would fairly quickly make taxis obsolete), its growth will
depend on structural constraints —factors such as population growth,
general economic conditions, and inflation.
If our taxi cab owner is smart, when faced with structural constraints,
she will stop looking to invest the excess profits her company is generating
every year and instead start paying herself a bonus (which she should in-
vest wisely by buying a copy of this book, of course). In the world of listed
companies, this bonus is termed a dividend.
There is, in fact, a structural speed limit for public companies as
well—the rate of growth of the economy at large. And when a company is
consistently growing at or near this structural rate, it is time for sharehold-
ers to demand to be paid dividends.
In the old days, before globalization, the rate of growth of the econ-
omy at large meant the growth rate of ones domestic economy. However,
more and more, reduced trade barriers and cheap transportation cost have
meant that the limiting growth rate is closer to that of the global economy.
There are investing cases in which a company can potentially grow very
quickly overseas, but for large, well-established firms (i.e, “Blue Chip”
companies), usually their overseas exposure is much smaller or much less
profitable than their domestic exposure, so the maximum growth rate ends
up being pretty close to the domestic rate.
Thinking about this progression from start to finish, you can see that
growth rates vary broadly in three stages—a startup stage (during which
the firm faces supply constraints), an investment phase (during which the
firm faces demand constraints), and a terminal phase (during which the
firm faces structural constraints). It is important to realize that companies
can sometimes jump between these growth stages, even though it is fairly
rare.
3
Throughout the life of a company, the firm is a machine generating
profits and cash flows on behalf of its owners. I have said that the value of a
company is the sum of the cash flows created by that company on behalf of
its owners over its economic life. We only have one more tiny bit to inves-
tigate to have a complete understanding of this definition: how to sum up
cash flows that are generated over time.
The Golden Rule of Valuation 87
Time Value of Money: Summing Up Cash Flows Over Time
It turns out that summing up cash flows is not as easy as simply adding
one years cash flows to the next because the value of cash flows depends
on when they are received. Have a hard time believing this? Look at this
example: assume that you get stranded in the middle of the Mojave Desert
and have to walk through the intense summer sun to find help at the next
town. Y ou stumble into a convenience store, suffering from acute dehy-
dration—shaking, nauseous, and with an intense headache—but soon you
realize that you have lost your wallet on the trek into town. The shopkeeper
offers to loan you $5 now to buy drinks, but you will have to pay him $20
when you return with your wallet.
Of course, under the circumstances, your need is so great for the $5
worth of liquid now that you are glad to part with $20 a few hours later.
In a sense, the difference between the two amounts is sort of an exchange
rate between two different time periods. If you go to England, it takes
one U.S. dollar to equal 0.66 of a British pound (lets assume). In the case of
the Mojave convenience store, it takes 20 future dollars to equal 5 dollars
right now.
This is the basic idea behind the time value of money. I will not go into
detail behind this concept here (because it is discussed in detail in various
online and print sources), but the main point is the one I made earlier: cash
flows from different periods cannot be directly summed.
The main assumption behind modern finance is that cash flows that
occur later are always worth proportionally less than cash flows that occur
sooner. The formula to translate a future cash flow (CF) into its present
value (PV) is
PV = CF × e
rt
where r is what is called the discount rate, e is the exponential function, and
t is the time before the future cash flow is set to occur.
When one raises an exponent to a negative power, the result is a num-
ber smaller than one. This is just the mathematical translation of the phrase
“a dollar today is worth more than a dollar tomorrow. ”
4
Assuming we can forecast a future cash flow, the next most impor -
tant question we should ask is what we should use for the discount rate.
88 •   TheIntelligentOptionInvestor
According to the orthodox view of finance [embodied in something called
the capital asset pricing model (CAPM), which is an idea closely related to
the efficient market hypothesis (EMH)], there is a statistical formula that
should generate the proper discount rate for any publicly traded asset by
plugging in a few numbers. I will not go into detail as to why, but suffice it
to say that I believe that the CAPM models discount rate should be ignored
by anyone who believes that stocks can be mispriced in the marketplace.
Abandoning orthodoxy, I advocate use of a 10 percent discount rate
for most U.S. large- or medium-cap investments and about 12 percent for
U.S. small- and microcap investments. The reason for this is that the market
as a whole has generated compounded returns for the last century or so of
around 10 percent per year. If you restrict yourself to the small-cap stock
universe, that number increases to around 12 percent. By using 10 and
12 percent as fixed discount rates, the question I am answering is this: “If I
expect this company to perform about as well as its peers, what is my best
guess for what its peers will return?”
5 Using these set numbers allows you to
measure different stocks according to a common yardstick, thereby taking
out one source of error that one can make a mistake on in a valuation.
For now, lets just see what happens to a nominal payment of
$100 per year when discounted at 10 and 12 percent. In the following
graph, I have assumed that a payment of $100 is made at the end of the next
100 years. I discounted each of these payments at the discount rate listed and
then kept the running sum of those discounted payments. Here is the graph:
1,200
1,000
800
600
400
200
0
048 12 16 20 24 28 32 36 40 44 48 52 56 60
Years
64 68 72 76 80 84 88 92 96 100
10% Discount Rate 12% Discount Rate
The Golden Rule of Valuation 89
The interesting thing to note is how much the value is in the first
30 years or less of cash flows. At the 12 percent discount rate, the sum of
the present value of all future cash flows trends toward around $506; at the
10 percent discount rate, the value levels off at $1,051. The points at which
each of the curves level off represent the total value of the respective stream
of cash flows. Using a 12 percent discount rate, the sum of the first 13 years
of cash flows already exceeds 95 percent of the total $506 value—in other
words, by year 14, it is almost the same as if you stop counting. At a 10
percent discount rate, it takes until year 29 to reach this point.
Thinking about this graph from a practical standpoint, it makes per-
fect sense. What if you loaned $100 to someone and he or she promised to
repay you in 75 years. What value would you put on that promise of repay-
ment? Nothing or next to nothing, I wager.
At a 10 percent discount rate, a promise to pay $100 in 75 years, using
the preceding formula, is worth about $0.06; at a 12 percent discount rate,
that promise is worth about $0.00001. These figures can surely be consid-
ered “next to nothing” and “nothing, ” respectively.
Look at the golden rule of valuation again:
The value of an asset is the sum of the cash flows it creates on
behalf of its owners over its economic life.
After the preceding discussion, its meaning now should be perfectly clear.
And now that you have a good grasp of the golden rule, lets take a
look at the only four factors that can affect the value of a firm—I call them
the drivers of value—and how we can analyze them to get a picture of what
the company is worth.
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91
Chapter 5
the four Drivers of value
In my experience, most people who analyze investments spend far too
much time getting distracted by trivialities. These trivialities end up pull-
ing them off course, confusing them, and creating valuation rationales that
are so complex as to become gothic. Getting carried away with unimpor -
tant minutiae also contributes to the difficulties people have in making
investing decisions—whether to invest in the first place and whether to
decrease, increase, or close an investment.
This chapter introduces a process to estimate the value of a compa-
ny—based on the golden rule of valuation —by singling out and analyzing
only a handful of drivers. It seems counterintuitive, but you will see later in
this book that less information actually counts for more in many circum-
stances, especially when valuing a companys stock. This chapter works
hand in hand with Chapter 4 in teaching the skills of an intelligent option
investor. Chapter 4 outlined how value accrues to the owner of a company.
This chapter looks at the specific factors that allow that value to accrue.
Jargon introduced in this chapter is as follows:
Explicit forecast stage Structural growth stage
Investment stage
Birds Eye View of the Valuation Process
Before looking at each of the drivers in turn, lets first get an idea of the goal
we are trying to reach from a high level. Our golden rule of valuation ties
the value of a company to the cash flows it creates over time. Cash flows are
92 •   TheIntelligentOptionInvestor
created through the process we saw in the example of the taxi company in
Chapter 4: revenues come in, present costs are paid, likely future costs are
saved up for, and some investments may be undertaken to expand the busi-
ness. Any cash that is left over after this process can be paid to the owners.
This is a pretty simple model, so it should not be hard to create a fairly
accurate picture of how an individual company operates and how it is likely
to operate in the future. All we need to understand is:
1. How revenues are likely to change
2. How efficiently a company is translating those revenues into profits
3. What proportion of the profits the company is investing in the
growth of the business and how effective those investments are
Indeed, this picture also describes all the typical drivers of value for a
company. There is one more driver, that I call “Balance Sheet Effects” and
will describe in detail later in this chapter, but it is only applicable in a very
few companies, so most of the time all you have to consider are the preced-
ing three. In tabular format, the drivers are as follows:
Driver Description
Revenue growth How fast sales will likely increase
Profitability How efficient the firm is in converting
revenues to profits
Investment level and efficacy Proportion of profits that must be invested
to allow profits to grow in the future
Balance-sheet effects The effect of hidden assets or liabilities
on future cash flows
This seems like an easy enough task—just figure out three or maybe four
things, and you are set—until you remember that you must make this analysis
for the entire economic life of the firm. “How can I know what the revenues of
this company are going to be 50 years in the future? What will its profitability
be then? How should I know what kinds of investments it will be making?”
Indeed, having to forecast revenue growth and profitability 50, 75, or
100 years into the future for a company is an impossible task, and an inves-
tor would be foolish to even try (although in my consulting work I have
seen financial models extending 50 years into the future).
The Four Drivers of Value  •  93
Happily, the task of an intelligent investor can be made easier by
doing three things:
1. Breaking up the economic life of a company into discrete stages
and using shortcuts to make assumptions about what will happen
in each stage
2. Recalling that based on the time value of money, future cash flows
have increasingly shrinking present values
3. Focusing not on forecasting a single, exact number for each of the
drivers but rather on developing a sensible best- and worst-case
scenario for each one
Lets first look at shortcut number one: breaking up the economic
life of a company into stages. It is not rocket science—the stages are short,
medium, and long term. In the short term (03 or 5 years, lets say), we
have a pretty easy time of thinking about how revenues, profitability, and
investment levels are likely to change, so we can model the cash flows in
this stage explicitly. For this reason, I call this the explicit forecast stage.
In the medium term (from the end of the short-term period to a point
in time 5 or 10 years in the future for most companies), we would have a
much more difficult time of forecasting explicit cash flows, so we dodge
the difficulty by using a shortcut. We can see what investments are avail-
able to the company at present—whether the firm is supply- or demand-
constrained—and what the companys track record has been regarding the
outcomes of its past investments. Based on this analysis, we can say, “Con-
sidering the investment environment and managements skill in investing
in the past, this firms cash flows should be able to grow at an average rate
of x percent during this period. ” Because this medium-term stage relies on
the success of present investments, I call this the investment stage . Note,
though, that mature companies—those that are already constrained by
structural factors—will not, by definition, be able to grow any faster than
the economy, no matter what investments they make. As such, for a mature
firm in a mature industry, the investment stage usually does not have to be
considered. The one case where it does is when a mature firm continues to
invest in value-destructive projects. In this case, rather than factoring in
above-normal growth, we should factor in below-normal growth because
the owners cash profit is eaten up by poor investments.
1
94 •   TheIntelligentOptionInvestor
In the long term (anything after the investment valuation stage),
we know that a company will become constrained by structural factors
and will, on average, only be able to grow as fast as the economy at large.
Because of the structural constraints on growth, I call this the structural
growth stage.
Pulling all these stages together in graphic format is instructive, and
on careful inspection, we can also see something important about the
second shortcut regarding the time value of money:
1,600
1,400
1,200
1,000
800
600
400
200
05 10 15 20 25 30
Years in the Future
Cash Flows
35 40 45 50
-
Nominal Cash Flow Cumulative DCF
This diagram shows the nominal amount of cash flow generated by the
company over a period of 50 years—represented by the solid line—overlain
by its discounted value—represented by the dashed line. The explicit fore-
cast stage is from zero to five years, the investment stage picks up after that
and lasts five years, and the structural growth stage begins after that. Y ou
will notice that the dashed line starts to level off at a figure of around $1,200.
The point at which that line levels off represents the total discounted value
of those cash flows and, by extension, the value of this firm.
The explicit forecast stage assumes that cash-flow growth will vary up
and down because of various competitive pressures that we have forecast
based on our understanding of the business environment. In this diagram,
The Four Drivers of Value  •  95
the value of the discounted cash flows generated during the explicit fore-
cast stage makes up 39 percent of the total value of the firm.
During the investment stage, we have assumed that the companys
investments will be very successful and allow the firm to generate a growth
in cash flows of 15 percent per year (suggesting that this is a company with a
large number of high-quality investment possibilities). An assumption of a
constant-percentage rate of growth implies that the resulting line will be an
exponential curve, and indeed, we can see that exponential curve between
the 5- and 10-year marks. In this example—assuming this quick 15 percent
per year rate of growth—the sum of discounted cash flows generated during
the investment stage makes up 23 percent of the total value of the firm.
The structural growth stage—covering years 11 onto forever—assumes
that investment opportunities will dry up for the firm as it hits structurally
based demand constraints and that cash flows from that point forward will
grow at 5 percent per year. We are again assuming a constant-percentage
growth per year that again will generate an exponential curve—this is the
solid line starting after year 5 and continuing upward through year 50. Note,
though, that the slope of the solid line during the structural growth stage is
subtly shallower than the slope of the solid line during the investment stage.
This subtle change of slope represents a pretty big slowdown from an average
growth rate of 15 percent per year to only 5 percent per year. All in all, the
discounted cash flows generated during the structural growth stage make up
the remaining 38 percent of total value of this example firm.
Note how small a percentage of overall value cash flows generated
during the explicit forecast stage represents—only 39 percent of the total.
This obviously implies that more than three-fifths of the value of this stock is
based on the cash flows generated in the investment and structural growth
stages. The sadly amusing fact about almost all the target prices published
by sell-side research companies (such as the big brokerage houses), the
fair-value estimates published by third-party research companies, and the
investment valuations used by buy-side companies (such as hedge and
mutual funds) is that they are generated by analysts who spend the vast
majority of their analytical energy on estimating only the explicit stage of
the forecast—which proportionally makes up the least amount of value of a
going concern—and only a tiny sliver of their time and energy on the most
important, weightiest component of the forecast—future growth rates.
96 •   TheIntelligentOptionInvestor
The best thing that we as intelligent investors can do is to understand
the effect of medium- and long-term growth rates on the value of compa-
nies (this makes us less susceptible to being swayed by short-term, nonma-
terial developments such as the delayed launch of a product line or the like)
and to attempt to rationally analyze the amount of cash flows likely to be
generated along all three of the stages.
The final shortcut we use to improve the quality of our valuations is
to not make the mistake of false precision and try to forecast one “right”
number for each of the valuation drivers but rather to develop an idea of
what the best- and worst-case scenarios are for each of the drivers. There
are some very compelling benefits to taking this tact that I will discuss in
greater detail in Chapter 6 on behavioral biases and later when we talk
about finding option investments in Chapter 7. In the end, what we should
be looking to develop is a series of ranges for our drivers in the first two
stages
2 that looks something like this:
Explicit Forecast Stage
Best Case Worst Case
Revenues 8% 5%
Profits 18% 12 %
Investment Level 30% of OCP 45% of OCP
Investment Stage
Best Case Worst Case Duration
Growth of cash flows 15% 8% 10 years
One last thing to note is that although the number of drivers we need
to consider and forecast is few, we really need to understand what makes
each of these drivers vary. In Chapter 6, I will address the idea of anchoring
more, but in short, it is the assumption that the next number in a series will
be close to the last number in that series. This assumption is not necessarily
true and can, in fact, be dangerously false. For instance, just because a firm
has expanded revenues at an average annual percentage rate of 37 percent
over the past few years does not mean that the next yearly increase needs
to be 35, 30, or 25 percent or even positive.
3
The Four Drivers of Value  •  97
So making projections for each of the drivers should never be just a pro-
cess of simply extrapolating past results. Making projections for each driver
means really understanding what factors are influencing that driver and how
those factors are likely to change in the future. Although this process of under-
standing the underlying factors and projecting driver values into the future is
not as difficult or complex as neurosurgery or designing a manned spacecraft
to Mars, it does require some creativity, insight, thought, and patience.
For an actual, specific example of a valuation done using this
methodology, please see the detailed valuation example of Oracle posted
on the Intelligent Option Investor (IOI) website www.IntelligentOptionInvestor
.com. A general explanation of the valuation drivers, along with a few high-
level examples, follows.
A Detailed Look at the Drivers of Value
Now that we have an idea of where we are going in our valuation process,
let us take a look at each of the valuation drivers one by one.
Revenue Growth
Revenue growth is the first determinant of value for a company—if rev-
enues are not coming in, it is obvious that cash will not flow to the com-
panys owners. Organic revenue growth (i.e., that which does not come
from acquiring another company) can come from
1. Increased volume of sales (selling more stuff)
2. Increased value of sales (selling stuff for more)
At the heart of understanding a companys revenues and forecasting
the future growth rate of its revenues is understanding what the company
is selling and to whom it is selling its product(s). The business model for
a company such as Bentley that is selling $300,000 Mulsannes that we re-
jected for our taxi-cab company in Chapter 4 is going to be very different
from that of the $30,000 Camry-selling Toyota.
Toyota has very little ability to raise prices—that is, to sell its stuff for
more money—so it must sell more stuff. Bentley, on the other hand, has
enormous pricing power—its customers are more sensitive to the image
98 •   TheIntelligentOptionInvestor
that the possession of a Bentley conveys to them than they are to the mon-
etary cost of possession—and one of the ways Bentley maintains that pric-
ing power is by restricting its production—selling less stuff, in other words.
Understanding the interplay between selling more stuff and selling stuff for
more is essential to understanding the first driver of value to a firm.
Some people—experienced analysts included—tend to look at rev-
enues as year-over-year percent changes and simply extrapolate the recent
percentage growth into the future. This is a big mistake and can be a very
expensive one. Companies that are at the transition between the supply-
constrained early growth period and the demand-constrained investment-
based growth period can sometimes see some very rapid slowdowns in
revenue growth from one year to the next. If you are trying to value a com-
pany as though its revenue stream will continue forever (or for a long time)
or as though it were a supply-constrained startup—which is basically what
people do when they extrapolate recent growth rate numbers too far into
the future—you will estimate the value of the company as being too great.
Likewise, when a company whose business tends to move with the business
cycle—like a steel producer—is in a cyclic trough, and you assume that its
business is going to keep growing at low rates or even shrinking far into
the future, you will generate too low an estimate for the value of the firm.
Rather than extrapolating, really understanding the dynamics of the
business is crucial. Most Wall Street analysts spend proportionally less of their
time trying to figure out revenues than they do profit. In contrast, I usually
suggest that people try to spend more time getting a very firm grasp of how
a firm generates revenues. Who is buying the companys products or services
and why are they buying those products or services rather than anothers?
Are customers using credit to buy the companys products or services? And if
so, how tenuous is that line of credit? How many of the companys products
might people need or want and how often would they be willing to buy them?
These are all essential questions to answer, and once you have a good idea
about them, you will have gone a long way to understanding the value of the
company in which you are considering taking an ownership stake.
Profit generation, while undeniably an important factor, is for most
companies, an almost mechanical process that is largely dependent upon
the amount of revenues flowing into the firm. I will discuss why most of
the market focuses so much on profitability in the next section, but readers
The Four Drivers of Value  •  99
who are interested in seeing what parts of a financial statement I believe are
the most important to dig into when analyzing revenues, please consult the
valuation example on the IOI website.
Profitability
Think back to our taxi-cab example in Chapter 4. After the first year of op-
eration, our transportation entrepreneur had $5,000 in her bank account.
She was planning to set $1,000 aside for a down payment on a new taxi in
a few years time, after her present car had used up its economic life; this
would give her a total of $4,000 that she could decide how to spend—either
on a Caribbean cruise or on a new computerized ordering system.
In this example, profitability means this $4,000 amount that we are
calling owners cash profit.
As I mentioned earlier, most sell-side analysts and market specula-
tors spend their time trying to forecast profitability. Usually, the profitabil-
ity they are trying to predict is an accounting line item such as earnings per
share (EPS), earnings before interest and taxes (EBIT), or earnings before
interest, taxes, depreciation, and amortization (EBITDA). The reason for
this is simple: most sell-side analysts target prices (and more than a few
buy-side investment strategies) are generated by multiplying one of these
quantities by some market multiple. For example, an analyst might say that
the target price of ABC = 7.8 × EBITDA = $27.50 per share.
There are three main reasons why using multiples analysis to value a
company should be used with circumspection.
First and foremost, there is no law of nature saying that a stock price has
to be a certain multiple of some financial statement line item. Just because
other companies in a given industry are trading between 7.5 and 8.5 times
EBITDA doesnt mean that they cant trade for higher or lower, nor does it
mean that another company has to trade within that range either.
Second, the financial statement quantities mentioned (EPS, EBIT,
and EBITDA) can all vary fairly substantially because of various account-
ing technicalities and other measures that do not have a material impact on
the firms long-term value.
Last but not least, multiples imply future profitability growth rates,
but simultaneously make these implied growth rates much less meaningful.
100 •   TheIntelligentOptionInvestor
To illustrate this point, consider the following question: Which of the fol-
lowing predictions seems more transparent and testable?
1. I forecast this companys medium-term cash flows will grow at an
average of 10 percent per year for five years followed by GDP-like
growth afterward.
2. I forecast this company is worth 23.5 times next years EPS estimates.
Clearly, the former is preferable, since by specifying the growth rates,
you are forced to think of how that growth might be achieved. The latter
gives no hint of growth rates, so in effect detaches the value of the company
from the operational details of the firm.
There are a few reasons why Wall Street analysts love to publish
multiples-based target prices that I will discuss in Chapter 6 when I introduce
structural impediments. For the time being, just realize that what is good for
an investment banker or equity sales trader is rarely good for an investor.
Discounting the efficacy and transparency of market multiples-based
valuation is not the same as saying that profitability is not important—of
course it is. However, profitability is, to a surprisingly large extent, gov-
erned by structural factors and profit margins tend to be quite similar be-
tween companies in the same industry. For many companies, this makes
estimating best- and worst-case profit margins fairly easy.
For example, the grocery business is one in which a supermarket buys
an item at a low price and sells it at a higher price. Because the items it sells
are basically identical to the items sold at competitors stores, and because
there are numerous competitors serving essentially the same customer base
in the same area, it is impossible for the supermarket to raise its prices very
much or for very long before customers start switching to another store.
Because of these industry dynamics, the range over which grocery chain
profitability varies is quite narrow. We can see an illustration of this in the
following table of three large-capitalization pure-play grocery stores:
Company (Ticker) Market Cap Avg. 3-year OCP Margin
Kroger (KR) $23.9 B 1.5%
Whole Foods Mkt (WFM) $14.1 B 4.9%
Safeway (SWY) $7.9 B 1.4%
Data courtesy of YCharts.com
The Four Drivers of Value  •  101
Here we see that even the fancy Whole Foods Market, which, in terms
of grocery stores operates on a sell-stuff-for-more model, is still generat-
ing OCP margins (i.e., OCP divided by revenues) of less than 5 percent.
Kroger and Safeway—two supermarkets operating on a sell-more-stuff
model—have virtually identical profit margins.
Of course, not all businesses are as stable and predictable as grocery
stores. There are four effects that can alter the profitability of a company:
operational leverage, demand changes, environmental factors, and
efficiency increases.
The single most important factor affecting the ability to predict
profitability at a firm is something called operating leverage. I describe this
factor in Appendix B and go into detail about how to estimate the effects of
operating leverage in the example valuation posted on the Intelligent Option
Investor website. The takeaway from this material is that for companies with a
high degree of operating leverage, the amount of revenues coming in will huge-
ly influence profitability. This dependence of profits on revenues provides a
prospective investor in a company with high operational leverage more reason
to understand the demand environment and how a firm generates revenues.
Of course, if there are changes in the demand environment that cause
consumers preferences to change away from the product a company is
providing and toward another that it is not (e.g., consumers preferring
electronic tablets made by Apple over PCs made by Dell), or changes in
the supply environment that causes a companys capital base to be too large
(e.g., American car companies factories having too much capacity after the
U.S. car market saturated in the early 1980s), profit margins are not likely to
settle into an historical range but may materially increase (e.g., Apple, after
the release of iPads, iPhones, and so on) or decrease (e.g., Dell, after Apples
release of iPads, iPhones, and so on). Being able to correctly forecast this
type of secular shift is difficult, but can be extremely profitable.
In addition to these factors, there can be rapid drops and rises in
profitability caused by changes in the economic environment. These might
be company-specific events, such as a natural disaster destroying a supply
of inventory, or economy-wide conditions, such as loose monetary policy
encouraging consumers to use debt to make more purchases. While these
kind of factors can have a large short-term effect on profitability, averaged
over a longer time frame of a few years, most businesses profit margins end
up returning to a fairly dependable range.
102 •   TheIntelligentOptionInvestor
Another case in which the normal profit range of a company may
change is through improvements in productivity. And although improve-
ments to productivity can take a long time to play out, they can be ex-
tremely important. The reason for this is that even if a company is in a
stage in which revenues do not grow very quickly, if profit margins are in-
creasing, profit that can flow to the owner(s) will grow at a faster rate than
revenues. Y ou can see this very clearly in the following table:
Year 0 1 2 3 4 5 6 7 8 9 10
Revenues
($)
1,234 1,271 1,309 1,348 1,389 1,431 1,473 1,518 1,563 1,610 1,658
Revenue
growth (%)
— 3 3 3 3 3 3 3 3 3 3
OCP ($)
4 432 445 497 485 514 544 560 637 625 708 746
OCP
margin (%)
35 35 38 36 37 38 38 42 40 44 45
OCP
growth
rate (%)
— 3 12 2 6 6 3 14 2 13 5
Even though revenues grew by a constant 3 percent per year over this
time, OCP margin (owners cash profit/revenues) increased from 35 to
45 percent, and the compound annual growth in OCP was nearly twice
that of revenue growth—at 6 percent.
Thinking back to the earlier discussion of the life cycle of a company,
recall that the rate at which a companys cash flows grew was a very important
determinant of the value of the firm. The dynamic of a company with a rela-
tively slow-growing revenue line and an increasing profit margin is common.
A typical scenario is that a company whose revenues have been increasing
quickly may be more focused on meeting demand by any means possible rath-
er than in the most efficient way. As revenue growth slows, attention starts to
turn to increasing the efficiency of the production processes. As that efficiency
increases, so does the profit margin. As the profit margin increases, as long as
the revenue line has some positive growth, profit growth will be even faster.
This dynamic is worth keeping in mind when analyzing companies
and in the next section, where I discuss the next driver of company value—
investment level and efficacy.
The Four Drivers of Value  •  103
Investing Level and Efficacy
After our taxi company owner generated profits, she had to figure out if she
was going to invest those profits or spend them, and if she invested them,
she had to figure out what investment project was best. Listed companies
also face the same process and choices. Managers are responsible for in-
vesting owners cash profits with the aim of generating greater profits in
the future or for returning owners cash profits to the owners via dividends.
Because modern companies are so large and have so many shareholders,
most owners not only do not take an active role in shaping the investments of
their company, but they also dont even realize that the investment process is
taking place.
5 In this environment, there are unfortunately many instances in
which the owners cash profits are invested badly or otherwise squandered on
wasteful projects. Ford paying top dollar to buy a decrepit Jaguar springs to
mind, as does Time Warners miserable purchase of AOL at the very peak of the
tech bubble. But these egregious examples are certainly just the tip of the ice-
berg. Companies routinely make implicit capital spending decisions by refus-
ing to close down an underperforming or obsolete business, thereby robbing
owners of cash flows that should have been theirs and instead filling the wallets
of consultants and employees.
6 Or the managers, realizing that their mature
core business throws off an enormous amount of cash, decide to spend some
of that cash on acquisitions of dubious economic benefit to the owners.
7 Luck-
ily, managers can always find an investment banker or two who are ready to
talk about the numerous “synergies” that will no doubt someday come to pass,
and too often boards and shareholders blithely accept the decisions and, once
made, do not demand an accounting of owner benefits as a result of the union.
Using an intelligent option investing framework, however, these here-
tofore hidden investment programs and their success or failure can be seen
much more clearly. First, we must see how much of the owners cash profits
for the company were spent on investing projects and forecast the amount that
will likely be invested in the future. The online valuation example provides an
actual look at precisely what financial line items go into this calculation. Right
now, it is enough to frame the term investments as any cash outflows on capital
projects that the company is making over and above the cash outflows neces-
sary to maintain the business as a going concern. Recall that in Chapter 4, I
called this spending expansionary cash flows because they are designed to
generate faster profit growth in the future.
104 •   TheIntelligentOptionInvestor
The phrase faster profit growth should prompt the question, “Faster
than what?” It is at this point that we think back to the discussion of the
life cycle of a company. After a company has cleared its supply-side con-
straints, and after it has done all it can to increase profits in an environment
of demand-side constraints, it bumps up against structural constraints .
Structural constraints represent the long-run “speed limit” for the growth
of a firm. Because there is a speed limit for a firm in the long run, it is
logical that during the investment stage of a companys life we compare the
investment-boosted growth with that structural speed limit.
The ultimate structural speed limit, as discussed earlier, is the nomi-
nal growth in U.S. gross domestic product (GDP). In this case, nominal
means the GDP growth that includes the effect of inflation as well as the
increase in economic activity. A graph of this nominal increase in GDP
from the postwar period follows:
3/1/1947
100
1,000
10,000
Nominal U.S. GDP (Billions of USD)
March 1997September 2013
U.S. GDP (Logarithmic Scale)
3/1/1957 3/1/1967 3/1/1977 3/1/1987 3/1/1997 3/1/2007
Note that I have displayed this on a logarithmic axis to show how
consistent growth has been. The line representing U.S. nominal GDP
swings above or below the straight trend line but seems to swing back
toward the line eventually.
The Four Drivers of Value  •  105
Over this very long period, the nominal GDP growth in the United
States averaged just over 6 percent per year. If the investment projects
of a company are generally successful, the company will be able to
dependably grow its profits at a rate faster than this 6 percent (or so)
benchmark. The length of time it will be able to grow faster than this
benchmark will depend on various factors related to the competitive-
ness of the industry, the demand environment, and the investing skill
of its managers.
Seeing whether or not investments have been successful over time is
a simple matter of comparing OCP growth with nominal GDP . Lets look at
a few actual examples. Here is a graph of my calculation of Walmarts OCP
and OCP margin over the last 13 years:
2000 2005 2010
0.00%
0.50%
1.00%
1.50%
2.00%
2.50%
3.00%
3.50%
4.00%
4.50%
5.00%20,000
18,000
16,000
14,000
12,000
10,000
8,000
6,000
4,000
2,000
-
Estimated Owners Cash Profit and OCP Margin for Walmart
Total Estimated OCP (LH) OCP Margin (RH)
As one might expect with such a large, mature firm, OCP margin
(shown on the right-hand axis) is very steady—barely breaking from the
3.5 to 4.5 percent range over the last 10 years. At the same time, its to-
tal OCP (shown on the left-hand axis) grew nicely as a result of increases
in revenues. Over the last seven years, Walmart has spent an average of
around 2 percent of its revenues on expansionary projects, implying that
106 •   TheIntelligentOptionInvestor
cash flow left for shareholders amounted to about $0.02 (≈ $0.045 $0.02)
on every dollar, on average. How efficacious were these investments?
In the graph below, any point above the “0 ppt” horizontal axis
indicates that Walmarts year-over-year OCP growth has exceeded the
U.S. GDP by that amount, and vice versa. The year-over-year OCP growth
statistics are fairly noisy, bouncing back and forth above and below growth
in GDP; however, looking at a five-year compound annual growth rate
(CAGR) tells the same story as the linear trend line on the chart: Walmarts
growth has slowed significantly and now looks to be close to that of the
economy at large on average. The rise in Walmarts fiscal 2010 result (which
corresponds with calendar year 2009) is more a function of the companys
revenues remaining resilient despite a U.S. recession than its growth out-
pacing a growing U.S. economy.
40 ppt
30 ppt
20 ppt
10 ppt
0 ppt
-10 ppt
-20 ppt
-30 ppt
2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013
Growth in Walmarts OCP Over (Below) Nominal GDP
Real Growth in OCP Linear (Real Growth in OCP)
To the credit of Walmarts management, the company has spent in-
creasingly smaller proportions of revenues on expansionary projects over
the last few years, perhaps in recognition that its expansionary projects
were bringing in less bang for the buck over time.
In contrast, lets take a look at a firm whose investments seem to
be adding considerable value—Oracle. First, lets take a look at its OCP
margin:
The Four Drivers of Value  •  107
35%
40%
30%
25%
20%
15%
10%
5%
0%
Estimated OCP Margin for Oracle
2001 2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013
Other than the disastrous year of the tech bust in 2001, the companys
OCP margin has held fairly steadily in the 30 percent range, but recently
it has started to move toward the 35 percent level. Over the last five years,
the companys expansionary spending has averaged around 15 percent of
revenues per year, mainly through acquisitions. Because the expansionary
spending is governed by its acquisitions, its investments are not uniform,
and looking at the 20052008 period, the company was spending roughly
half its revenues on expansion. Over this time period, how has Oracles
OCP growth been vis-à-vis GDP? Lets take a look:
50 ppt
60 ppt
40 ppt
30 ppt
20 ppt
10 ppt
0 ppt
-10 ppt
-20 ppt
Growth in Oracles OCP Above (Below) Nominal GDP
2002 2003 2004 2005 2006 2007 2008 2009 2010 2011 2012 2013
Real Growth in OCP Linear (Real Growth in OCP)
108 •   TheIntelligentOptionInvestor
In contrast with Walmart, through this lens, we see that Oracles
investments have generally allowed its OCP to grow at a much faster
rate than the economy at large (2010 was the year Oracle acquired Sun
Microsystems, and the OCP that year is an artifact of that acquisition—
I believe that its OCP that year was actually higher than stated here).
The beauty of this way of looking at companies is that the hidden or
implicit investments a company is making will show up in this as well. I
believe that, like many large companies, Walmart is finding that it must
spend money on expansion because it is investing ineffectually through its
internal business processes. One percent of revenues worth of expansionary
cash flows per year—roughly 25 percent of owners cash profits—is be-
ing spent so that the company can basically keep up with growth of the
economy at large.
This discussion deals with investment efficacy. Investments—
especially in the corporate environment, where one company completely
takes control of another and must integrate the acquiree into its own
business systems and culture—take time for results to be visible. As such,
it is easy to see why the table at the start of this section showed investment
efficacy affecting the medium-term results of the company—its growth
rates in particular.
Understanding the interaction among these three drivers—revenue
growth, profitability, and investing efficacy—allows an investor to take the
biggest step toward valuing a stock. Occasionally, though, one must take
what I call balance-sheet effects into consideration.
Balance-Sheet Effects
Lets think back to our taxi-cab service. Lets say that our owner decided
that after the first year, the investment prospects for her firm were so good
that she would buy two new cars. She thought that she could save money
by buying two low-mileage, off-lease cars rather than new ones.
Before putting the cars into service, she cleans each of the cars
thoroughly. While cleaning out the trunk of the first car, she finds a
tightly wrapped brown paper package. Curious, she opens the package
to find a pound of illegal drugs. She calls the police, who come to
The Four Drivers of Value  •  109
investigate. After looking over the situation, the police impound the
car, telling our taxi entrepreneur that they had no estimate for when it
would be returned.
The value of our taxi-cab company suddenly drops. Without the
use of the car, there is no way for it to generate revenues. However, while
revenues are not coming in, the company is still incurring costs (financing
and insurance costs, in particular), so the new car is actually lowering the
cash flow available to the owner. In the parlance of accounting experts, the
company has experienced a nonoperational contingency that has resulted
in a devaluation of one of its assets. This is a value-destroying balance-
sheet effect.
The taxi company owner, upset with the turn of events and her bad luck
in picking automobiles, grumbles as she gets back to work cleaning out the
second car. Cleaning between the back seats, she finds a valid lottery ticket
that was forgotten by the previous owner. Expecting a couple bucks worth
of winnings, she checks the number and is more than overjoyed to find that
she is holding the winning ticket for a $500,000 prize! The disappointment
from the police impounding her other car melts away as she realizes this
little slip of paper represents 125 years worth (+$500,000/$4,000) of her
companys first-year OCP . This is one heck of a positive balance-sheet
effect.
The base assumption we make when we analyze a company is that all
the assets on the balance sheet are operating assets—that they are being
fully exploited to generate cash flows on behalf of owner(s). However, this
is sometimes not a valid assumption to make. Sometimes the true value of
assets can be hidden and remain hidden for some time.
On the hidden-asset side, one of the biggest jobs of the class of
institutional investors known as activist investors is to dig into the operating
details of a company to find assets that the company is not fully using or
is using so badly that the company is not able to create maximum cash
flows. Usually, the activist investor is looking to throw out the current
management team and replace it with people he or she thinks can better
use the assets. This is termed a hostile takeover , but it is important to
remember that the term hostile is only valid from the perspective of the
targets management team. An insightful activist investor with patience,
110 •   TheIntelligentOptionInvestor
foresight, and enough board seats to push through a change can be an
enormous boon to investors in the company.
In the same way that there are hidden assets, there also can be
hidden liabilities. Enrons complex transactions with its “special-
purpose vehicles” are a vivid example of how dangerous hidden liabilities
can be. Enron managers found ways to effectively channel financial
transactions and obligations that they did not want on Enrons own
books (namely, losses and liabilities) onto the books of off-shore entities.
Even though the off-shore entities were established and controlled by
Enrons management, they were not consolidated into Enrons own
financial statements, so the transactions and obligations effectively
disappeared from most investors view. Several investor groups started
putting two and two together and realized that the answer was less than
four. Eventually, when the special-purpose vehicles became known by
the investment community, it was obvious that there was much less
equity for investors to own than they had thought previously, and the
stock price plummeted.
Whereas hidden assets can be thought of as a winning lottery ticket
stuck in between the seats of a used car, an old colleague of mine in the
hedge fund world used to call hidden liabilities “snakes sleeping in a
basket. ” Usually, it takes some time and familiarity with a company or
industry to understand where these lottery tickets or snakes may reside,
but most companies have them to a greater or lesser extent. Mostly, these
hidden items are not material to valuation and thus can be ignored, but
when they are not material, they can be truly powerful influences on
valuation.
It is impossible to explain precisely where to look for these hidden
items, but there are a few places one can typically start looking:
Lottery Tickets
1. Real estate carried at historical cost
2. Intellectual property (e.g., patents, copyrighted material, etc.)
3. Government connections (not as important in developed markets
but could be vitally important in certain emerging markets)
4. Overfunded pensions
The Four Drivers of Value  •  111
Snakes
1. Latent product/accident liability claims (e.g., asbestos, pollution
remediation, etc.)
2. Manager malfeasance (e.g., price fixing, Foreign Corrupt Practices
Act noncompliance, etc.)
3. Underfunded pensions
4. Off-balance-sheet corruption
5. Fraud
Its usually hard to find these, but if you do, you should try to make an
assumption about the best- and worst-case financial impacts of these items
and simply tack that onto whatever cash-flow projections you have made.
Tying It All Together
Throughout our analysis of a companys valuation drivers, our focus as
investors should always be to estimate the free cash flow to owners that a
firm will likely generate.
In the short-term, FCFO is driven by how fast revenues are growing,
how efficiently the company is converting those revenues to profits, and
how much of the profits the firm is spending on expansionary projects.
In the medium-term, FCFO is driven by how effective the investments
the firm made in the preceding period are likely to be.
In the long-term FCFO is driven by structural constraints because a
firm cannot grow faster than the economy at large.
Each driver has both best- and worst-case projections, so pooling all
the best-case projections into a best-case FCFO scenario and all the worst-
case projections into a worst-case FCFO scenario gives us an idea of the
most and least cash flow that the firm will generate for us in the future
(you can see an example of this on the Intelligent Option Investor website).
Discounting those FCFO scenarios generates a present value range for the
company. If we can find any balance-sheet effects, we add or deduct those
effects from the value found from discounting the FCFO scenarios. This is
the final valuation range of the company that we can compare to the market
price of the stock. When the valuation range of a company and the price of
a stock differ by a great amount, we have an opportunity to invest profitably.
112 •   TheIntelligentOptionInvestor
Advanced Building Corp. (ABC)
5/18/2012 5/20/2013 249 499 749 999
Worst Case, 45
Best Case, 70
80
60
40
20
-
Date/Day Count
Stock Price
These are the general principles of intelligent investing, but again, the
reader is invited to work through the detailed valuation example on the IOI
website to help bring these general principles to life.
The preceding chapter on understanding the golden rule of valuation
and this chapter on recognizing the valuation drivers are a great step to-
ward building what Warren Buffett called a “sound framework for making
[investment] decisions. ”
The one thing that I hope you have realized while reading this and the
preceding chapter is what a simple and commonsense process valuation is.
It is worth asking why—if rational valuation is such a simple process—do
people generally have such a very difficult time investing and run into so
many pitfalls.
To understand this, I now turn to an explanation of the behavioral
biases and structural impediments that trip investors up and make sugges-
tions on how to avoid them.
113
Chapter 6
understanding
and overcoming
investing pitfalls
You have seen that valuation is not a difficult thing. It requires
understanding of a few key relationships, but it is basically a straightforward
process most of the time.
Why then, do so many investors have such a hard time doing it well?
The main reason, I am sorry to say, is our nature as human beings and
the weaknesses of our nature. This chapter discusses two facets of that—be-
havioral biases and structural impediments. The first facet—behavioral bi-
ases—involves how we as human beings try to figure out complex things and
get caught in the process of doing so. The second facet—structural impedi-
ments—speaks about how we investors tend to buy—lock, stock, and bar-
rel—into a game designed only for us to lose, whereas the winners kids go to
$50,000-a-year prep schools followed by a four-year tour of the Ivy Leagues.
There is hope. Dont despair. The first step to not falling for these
pitfalls is simply to understand that they exist.
Obviously, being an intelligent option investor means investing
intelligently, minimizing—as much as possible—the effects of irrational and
emotional decision making. This chapter is designed to help you do just that.
Jargon introduced in this chapter is as follows:
X-system Risk neutral
Risk seeking Risk averse
C-seeking Prospect theory
114 •   TheIntelligentOptionInvestor
Behavioral Biases
Human intelligence evolved in an environment that is very different from
the one in which we live today. Gone is the necessity to hunt and gather,
protect ourselves from predators, and fashion our own shelter. In con-
trast, in our modern lives, we are safe from most environmental factors
but are instead confronted with massive amounts of data. Groundbreak-
ing photographer Rick Smolan, in his book, The Human Face of Big Data
(Sausalito, CA: Against All Odds Productions, 2012), contends that a mod-
ern person processes more information in a single day than the typical
sixteenth-century person processed in an entire lifetime. I am not sure if
there is a scientific way of proving such a contention, but it does seem at
least plausible.
In terms of investing, the mismatch between how our mental processes
have evolved and the tasks that we expect them to carry out becomes an
issue because, by and large, we are still using mental strategies that served
our Stone Age ancestors well but that serve us investing denizens of the
“Information Age” much less well.
The study of human bias in economic decision making is a big topic—
called behavioral economics or behavioral finance—and it is not possible to
cover it fully here. I will give a few examples here and suggest how you might
work to counteract theses biases in your intelligent investing, but you are
encouraged to study up on these issues themselves. It is a fascinating topic,
and the more you learn, the more you will realize how much behavioral
biases affect everyones decision-making processes.
Here I will discuss three issues:
1. Love of symmetry
2. Confidence and overconfidence
3. Humans kinky perception of risk
Love of Symmetry
Here is the chart of an asset that has had a smart 8.3 percent return in just
50 trading days. Is this thing likely to keep going up from here or fall back
down after its relatively rapid rise?
Understanding and Overcoming Investing Pitfalls •  115
38.50
38.00
37.50
37.00
36.50
36.00
35.50
35.00
34.50
34.00
33.50
16 11 16 21 26 31 36 41 46 51
Trading Days
Price per Share
Y ou would be correct if you answered, “Neither of the above. ” This is a
chart I created using the random-number-generator function in Excel. Be-
cause Excel recalculates the values on the sheet any time a change is made,
I could not get the next value in this series—the series changed as soon as
I asked Excel to calculate the next days return.
I have presented similar series to various groups, including groups
of traders. It is fascinating to hear the predictions regarding this series and
the reasoning behind the predictions. Usually, the crowd settles on an an-
swer that is acceptable to most people (e.g., “It will probably go higher, but
I d set a stop loss at $37.25 and aggressively buy if it goes down to $35.50”).
1
Why do so many people see patterns where no patterns exist? Why
do so many people put their faith in so-called technical analysis (which
is neither technical nor analysis) even though they are just as likely to be
successful consulting a Magic 8 Ball for investment advice?
To understand this, we need to realize that there are two separate
human mental processes for analyzing and solving problems: X-system and
C-system.
The X-system is in control of refleXive thought processes, and these
processes take place in some very primitive areas of the brain. This system
116 •   TheIntelligentOptionInvestor
is extremely good at perceiving patterns and symmetry and can operate
very quickly to solve common problems. It is also capable of multitask-
ing. The C-system is in control of refleCtive thought processes, and these
processes take place in parts of the brain associated with higher reasoning.
This system works slowly to solve complex problems about which we have
limited experience. Its ability to multitask is limited.
For an illustration of these two systems, consider this problem: you
are walking in a house and are confronted with the following object:
Y our X-system recognizes this object as a door, quickly retrieves information
about how to use objects of this type from your memory, and directs you
Understanding and Overcoming Investing Pitfalls •  117
to rotate the metal handle downward to open the door and move into the
next room. Y ou can solve this problem extremely quickly, with no conscious
thought, even while you are doing something else, like speaking with a friend.
Now lets say that when you grab the handle and rotate it, rather than
the door opening, the handle comes off in your hand. What do you do? Y our
mind automatically switches from X-system mode to C-system mode, and
you begin to solve the problem of the closed door in a logical, systematic way.
Y ou would stop talking to your friend, push the door to see if it will open with-
out the latch, bend down to take a look at the handle mechanism, and so on.
Throughout the process of attempting to solve this problem, you
may switch back and forth between X-system and C-system processing,
using your C-system as the controller and the X-system to check on prior
solutions to similar problems you may have faced.
With this example, you likely have a good intuitive feel for the char-
acteristics of the X- and C-systems, but for completenesss sake, here is a
grid describing them:
X-System C-System
Reflexive Reflective
Good for recognizing symmetry and
patterns and for solving commonly
experienced problems
Good for analyzing complex, multistep
problems outside previous experience
Operates quickly Operates slowly
Separate processes do not interfere with
one another, allowing for multitasking
Separate processes do interfere with one
another, making multitasking difficult
or impossible
Uses amygdala, basal ganglia, and
temporal cortex—the areas of the brain
associated with “fight or flight,” reward
training, identification of objects, and
behavior
Uses anterior cingulate cortex, prefrontal
cortex, medial temporal lobe, including
the hippocampus—the areas of the
brain associated with higher-order
functions such as planning and control
Didactic style: analogy Didactic style: mathematical proof
Psychologically comfortable and easy Psychologically uncomfortable and difficult
The X-system is more psychologically comfortable to us (or to most of us)
because it is the part of the brain we as a species have been using during most of
our evolutionary history. The pattern-recognition portion of our brain is highly
118 •   TheIntelligentOptionInvestor
developed—so much so that even though computers such as Deep Blue can go
toe to toe with chess grand masters, no computer has yet been designed that
would be able to recognize a fork that is rotated 30 percent off center or a series
of random items placed in front of it. Even the greatest computer “mind” can-
not carry out a pattern-recognition task that is simple even for human infants.
In investing, humans tend to lean on this X-system pattern recognition
and try to use shortcuts to analysis based on it. We have mental models for cer-
tain kinds of companies, certain kinds of information, and certain situations,
and we attempt to escape uncomfortable, analytical C-system processing by
allowing our X-system to match current conditions with those mental models.
When presented with a stimulus (e.g., bad quarterly earnings numbers),
our tendency is to reflexively react rather than to analyze the information.
This tendency is made more visceral because the X-system that is processing
this stimulus is tied into the “fight or flight” response. We would rather act
first, even if acting proves to be a detriment rather than a benefit.
This is a phenomenally difficult—I think impossible—bias to complete-
ly overcome. Although this bias can be extremely detrimental to us and our
investing process, our highly developed X-system is also incredibly useful to
us in our daily lives—allowing us to navigate the difficult problems present-
ed by doors, car operation, and so on. I discuss how to recognize and work
around X-system biases, how to use the X-system when it is useful to do so,
and how to frame investment decisions using C-system processes in the valu-
ation example of Oracle that can be found on the Intelligent Option Investor
website. For now, lets look at another behavioral bias—overconfidence.
Confidence and Overconfidence
Scientific research has shown that humans do not feel comfortable with
C-system-style analysis and tend to doubt the results of these processes. As men-
tioned earlier, C-system processes do not seem intuitive and certainly do not jibe
with the satisfying off-the-hip decision making that seems to be prized culturally.
In what may seem like a counterintuitive reaction to this feeling of
discomfort with C-system processes, you often find analysts and investors
attempting to collect every scrap and shred of detail regarding a companys
operations before making an investment decision. This phenomenon may
have something to do not only with a certain discomfort with C-system
Understanding and Overcoming Investing Pitfalls •  119
processes but also with a natural human discomfort with the unknown. All
investments are made in an environment of uncertainty, and uncertainty
is an unsettling psychological state for humans to find themselves in.
To ameliorate the discomfort from uncertainty, people have a tendency
to attempt to gain control of the uncontrollable by not leaving any stone
unturned in their analyses.
This may seem sensible, but in fact, studies have shown that more
information does not help you to make better decisions—just the opposite,
in fact. The first study showing this bias was done by a psychologist at the
University of Oregon named Paul Slovic, who studied the accuracy and con-
fidence of professional horserace handicappers.
2 Similar studies have been
performed on other groups—medical doctors and stock brokers among
them—and the results from subsequent studies have been very similar.
Professor Slovic gave professional handicappers varying amounts of in-
formation about horses running in a series of races and then asked them to
make a prediction about the first-place finisher in each race. The handicappers
were then asked to assess the confidence they had in their predictions. Slovic
had the actual race results and compared the professionals confidence with
their actual accuracy. The results can be represented graphically as follows:
30%
20%
10%
0%
51 02 04 0
Number of Items of Information
Accuracy vs. Confidence of Professional Handicappers
Confidence and Accuracy
(Accuracy measured by correct first-place selections)
AccuracyC onfidence
120 •   TheIntelligentOptionInvestor
This is an incredible graph. The horizontal line represents the accuracy
of the expert predictions. The dotted line represents the confidence of the
experts depending on the amount of information they had.
The fact that the predictive efficacy line remains horizontal and the
confidence line increases so sharply indicates an interesting and, think-
ing about it, frightening facet of human behavior. Namely, even though
the predictions made by the experts who had the most data were no
more accurate in reality than those of their colleagues who had limit-
ed data, the ones with access to more and more data became more and
more confident, to the extent that they were massively overconfident.
Accuracy remains just under 20 percent, but confidence goes up to
30 percent—a 10 percentage point difference in perception (confidence)
versus reality (accuracy)!
This behavioral bias has two large negative effects on investors. First
is a tendency to spend too much time looking at too many nonmaterial
minutiae until finally one cannot come to a decision regarding whether or
not to invest—or, as it is colloquially known, analysis paralysis.
I think of the attempt to gather a huge amount of increasingly detailed
information about an investment prospect as a sort of cosmic bargaining.
The analyst or investor who spends hundreds of hours looking at very de-
tailed information not material to the valuation is doing something akin to
making a burnt offering of old. The analyst or investor is, in some sense,
making a prayer to the market gods: “I will sacrifice a lot of time and
mental effort learning about this company. Please reward me with positive
returns this year. ”
In the attempt to bargain with the great unseen hand of the mar -
ket, an analyst spends more and more time collecting increasingly less and
less important information about the potential investment until the cost
of collecting the extra information greatly outweighs the benefit of having
gathered it. The big problem with very detailed analyses is that the closer
one looks at a given problem, the more involved that problem becomes.
Every fact has some supporting details, and each supporting detail has a
few scenarios that may be associated with it. To do a really thorough job,
you must look at each scenario in turn. Ah! But these scenarios turn out to
be interrelated, so you must think about not only first-order changes in the
scenarios but also secondary and tertiary ones as well. Soon the analyst or
Understanding and Overcoming Investing Pitfalls •  121
investors spreadsheet model winds up being 45 tabs deep, and it still seems
like there is more work that needs to be done before a decision can be
made (“Where were those numbers regarding the depreciation of fixed as-
sets at the Malaysian subbranch?! How can I invest if I dont know that?!”).
At this point, the analysis has become thoroughly paralyzed, and frequently
the investor will decide (after putting in all that hard work) just to drop
the whole thing because he or she “cant get his or her head around” the
valuation.
Another cost to gathering a great amount of detailed information is
more subtle but no less dangerous. Lets say that the analyst has worked
through all those secondary and tertiary scenarios and decides that the
firm in question is undervalued. The company is trading for $X and is
worth “$Y at a minimum. ” What is the analysts confidence level in that
$Y valuation? If the scientific studies I mentioned earlier hold true, the
analyst is 50 percent more confident than the position warrants. This is an
unhealthy dose of overconfidence.
The investor hits the “Buy” button and hopes for the best. However,
after a few quarters, some of the operational metrics at the firm begin to
falter. The Capex project that was forecast to take 5 percent of sales in year
one ends up taking closer to 9 percent. Sales are a bit lower than expected,
and costs are a bit higher. But the investor has thought about all these pos-
sibilities and is still very confident in the valuation; these discrepancies
are thus looked at like anomalies that will soon be corrected with another
quarter or two of results. The situation can drag on for an extended time
until suddenly the investor is confronted with the possibility that the firm
is running out of cash, its new product line has failed, or whatever. The in-
vestor, once so confident, now has to face the unpleasant task of realizing a
loss (why he or she may not want to realize a loss is discussed in the section
“Humans Kinky Perception of Risk” later).
“Love is blind. ” Unfortunately, overconfidence in an investment opin-
ion can make one just as blind as love.
I believe that two facets of intelligent option investing can help to
ameliorate these biases. First, recall that there are at most four—and most
often only three—drivers determining company valuation. While you are
reading about a company and analyzing its value, it is wise to constantly
ask yourself two questions:
122 •   TheIntelligentOptionInvestor
1. Is what Im analyzing related to one of the drivers of company value?
2. Is what Im analyzing material to the valuation?
Sure, there is some sort of satisfaction in knowing everything there
is to know about coal-processing technology or oil reservoir structure and
engineering, but recognize that this satisfaction is purely personal and is
not going to make a bit of difference to the valuation. Understanding these
kinds of technical details might help a tiny bit in understanding competi-
tive dynamics in an industry, but the cost of learning them almost always
exceeds the benefit from the knowledge. For any technical points you are
trying to learn about as a layperson, there are likely two armies of engi-
neers, specifically trained in that field, arguing with one another about
whatever point you are learning about. No matter how large your band-
width is, it is not likely that you will be able to make a more informed deci-
sion than those people. And if the final result is, “Company A will likely
be able to produce coal at a slightly cheaper cost than Company B because
of the geology where Company A has its mines, ” this is a fact that can be
reasonably ensured by a few minutes on Wikipedia rather than by checking
out books from the local universitys engineering library.
Second, the online valuation example shows how you can create
rational valuation ranges for a company, and I believe that those ranges
can be very helpful. Estimating valuation ranges rather than tying them-
selves to point estimates of a specific stock value can help investors to re-
main more objective about information coming in and more observant of
changing conditions. For example, if an investor sees one group of valua-
tion ranges clustered near $30 and one group clustered near $50, the inves-
tor can objectively assess operational data coming in over time and decide
which set of projected economic results the actual results will match. The
investor may have thought the economic results underlying the $50 cluster
were more likely, but as time goes on, he or she may see that the results
leading to the $30 cluster are closer to the truth. In this case, the investor
can be confident and happy about making accurate projections (because
the investor projected both the $30 level and the $50 level), even if he or
she is not particularly pleased with the investment outcome. This may be
the psychological slack required to combat the last behavioral bias we will
discuss—humans kinky perception of risk.
Understanding and Overcoming Investing Pitfalls •  123
Humans Kinky Perception of Risk
Take a look at the following questions: First question: you have a choice
between playing two games with the following monetary payoffs. Which
game would you play?
Game 1: 75 percent chance of winning $6,000 and a 25 percent
chance of winning $0
Game 2: 100 percent certainty of winning $4,000
Make a note of your choice. Second question: you have a choice between
playing two games with the following monetary payoffs. Which game
would you play?
Game 3: 75 percent chance of losing $6,000 and a 25 percent chance
of losing $0.
Game 4: 100 percent certainty of losing $4,000
What was your answer to this question?
Mathematically, you should choose to play games 1 and 4—these
are the rational choices. Most people irrationally would choose to play
games 2 and 3. The expected payout of game 1 = 75 percent × $6,000 +
0 = $4,500. As such, game 1s outcome generates a higher expected payoff
than game 2. If you chose game 2 in this instance, it would indicate that
you are risk averse.
Reversing the conditions of the games to generate losses instead of
profits, you can see that game 3 yields an expected loss ($4,500) that is
greater than the expected loss of game 4 ($4,000). If you chose to play
game 3 over game 4, this would indicate that you are risk seeking rather
than risk averse.
Psychologists Amos Tversky and Daniel Kahnemann—two research-
ers who began the systematic study of behavioral biases—found that peo-
ple tend to be risk averse with respect to gains and risk seeking with respect
to losses and have coined the term prospect theory to describe this ten-
dency.
3 To understand risk aversion and risk seeking, lets look at a simple
betting example.
Y ou offer a test subject a choice of either receiving a certain payment
of a certain amount or receiving an amount based on the result of a fair
124 •   TheIntelligentOptionInvestor
bet such as a coin toss. If the coin comes up heads, the subject wins $100;
if it comes up tails, the subject walks away with no payment. The expected
payoff from the fair bet from a mathematical perspective is
$100 × 50% + $0 × 50% = $50
Economists describe risk preferences for individuals on the basis of
the fixed payment the individual would accept in order not to subject the
payout to a risky outcome. The three risk preferences are
Risk neutral
Risk averse
Risk seeking
The risk-neutral investor is completely rational. The mathematical expected
payoff is $50, so the risk-neutral approach is not to accept any guaranteed
payment other than $50 in lieu of making the bet. If you were to diagram
the value the rational risk-neutral investor would assign to the expected
value of a risky outcome (using what economists call a utility curve ), you
would get the following:
0
0
Expected Value of a Risky Outcome
Risk-Neutral Utility Function
Value Placed on a Safe Outcome
Because $50 is not a great deal of money to some people, they can and
do remain risk neutral at this monetary level. Increase the potential payout
Understanding and Overcoming Investing Pitfalls •  125
to $1 million, and I guarantee that people will most happily demonstrate
risk aversion.
Risk aversion is demonstrated by someone who would be willing to
accept a guaranteed amount of less than the mathematically calculated ex-
pected payout in order to avoid putting the total payout at risk. For exam-
ple, if you would prefer to accept a sure $45 instead of a 50 percent chance
of winning $100, you are risk averse. The utility curve for a risk-averse
investor would be represented like this:
0
0
Expected Value of a Risky Outcome
Risk-Averse Utility Function
Value Placed on a Safe Outcome
Most mentally healthy people with relatively low blood-alcohol levels
are risk averse to a greater or lesser extent. As the amount in question
becomes material (however the person in question defines materiality), the
tendency toward risk aversion becomes much stronger.
Risk-seeking behavior is seen in gambling addicts and people with
high enough blood-alcohol levels that they should not be operating
heavy machinery. It is, of course, the converse of risk aversion: a risk
seeker requires a higher guaranteed payment than the mathematically
expected payout in order to forgo the bet. For instance, a risk seeker
would not want to stop betting unless he or she was offered $60 or more
for an expected-value bet of $50. The utility curve for a risk-seeking
investor looks like this:
126 •   TheIntelligentOptionInvestor
0
0
Expected Value of a Risky Outcome
Risk-Seeking Utility Function
Value Placed on a Safe Outcome
Risk seeking may seem implausible for anyone whose problems are not the
feature of a daytime psychology talk show, but as you will see, each and
every person reading this now likely displays risk seeking many times in
an investing career.
If you read an Economics 101 textbook, you will learn that peo-
ple are either risk neutral (professional economists always try hard to
show that they are risk neutral because they generally pride themselves
on being rational), risk averse, or risk seeking. In fact, we all display
each of these profiles at different times depending on the situation.
The unfortunate fact, discovered by Tversky and Kahnemann, is that
humans tend to display the least helpful of each profile in different
situations.
When we are winning, we tend to be risk averse. We have made
20 percent on an investment in a short time, and our tendency is to “take
our money off the table” and realize our gains. The thing we fail to realize
when we feel the pride and satisfaction of hitting the “Sell” button is that at
the moment we close the position, our money is again sitting idle, and we
are faced with the prospect of having to find another risky investment to
replace the one we just closed.
Conversely, when we are losing, we tend to be risk seeking. For
example, lets say that we have lost 60 percent on an investment. Is our
natural tendency to sell that position? No. Because the value of our stake
Understanding and Overcoming Investing Pitfalls •  127
has fallen so much, we sense that any small movement up will be a big
improvement to the present situation. We “let it ride” and hope for a lucky
break. This is the action of someone who realizes that he or she has little
to lose (because so much is lost already) and everything to gain—which,
of course, is the very definition of desperation (and the day-to-day modus
operandi of many hedge fund employees).
This variable risk profile is depicted by the following graph. The top-
right quadrant shows a risk-averse profile—one would rather cap ones
gains than let them ride. The bottom-left quadrant shows a risk-seeking
profile—one would rather bet than realize ones losses.
Prospect theory utility curve
x
U(x)
Note how the curve in the upper right-hand quadrant looks like
the risk-averse utility curve and that everything in the lower left-hand
quadrant looks like the risk-seeking utility curve. This is an astounding
graph, but perhaps an actual, visceral example would carry an even larger
impact.
Think of the fellow who got in on the Google initial public offering,
buying at $85 per share. A few months later, after more than doubling his
money, he happily sells at just above $200 and again puts his capital at risk
in another investment—starting over from square one in terms of making
an investment decision.
128 •   TheIntelligentOptionInvestor
250
Google (GOOG) Closing Price
A
200
150
100
50
0
8/19/2004 9/19/2004 11/19/2004 12/19/2004 1/19/200510/19/2004
This investors thought at point A: “I am an investing genius! I just
made a 100 percent return in a couple months—time to take my money off
the table. ” However, after selling the shares and feeling the sense of relief
that he had reduced his risk exposure to Google, he eventually grows dis-
mayed about being hasty in realizing his gain:
800
Google (GOOG) Closing Price
B
C
D
E
F
A
700
600
500
400
300
200
100
0
8/19/2004 2/19/2005 2/19/20068 /19/20068 /19/20078/19/2005 2/19/2007
Understanding and Overcoming Investing Pitfalls •  129
The investors reasoning may have gone like this:
A Original sale realizing profits
B “I did the right thing.”
C “I left a little on the table, but itll come back soon, and Ill buy some more then.”
D “Should I short Google?!”
E “Aaaaaaaaaaaargh!”
F Second purchase
Finally, after his mail carrier comments that she is retiring early after
selling her Google position for $675 per share and a person at the country
club buys a new Lexus using his Google sale proceeds, our kinked utility
curve investor does the thing that social creatures tend to do when faced
with uncertainty and remorse—follow the herd. He is happy that his limit
order to buy at $695 is filled at midday and happier still that he made a gain
of 3 percent after buying the shares.
Our hapless investors bad sense of timing is good for us because his
purchase of Google shares at the local 2007 market peak and ownership
through the fall allow us to simultaneously follow the psychological pain
he suffered on the stock chart and the utility function curve:
800
Google (GOOG) Closing Price
B
C
A
700
600
500
400
300
200
100
0
11/1/2007 2/1/2008 5/1/2008 8/1/2008 11/1/2008
130 •   TheIntelligentOptionInvestor
Thus an investor in Google at $695 feels pain extremely quickly when
the value of the position drops slightly to the $620 per share level, lets say;
this is indicated at position A in the diagram. However, as the price continues
to decline (lets say to the $450 per share level indicated by position B ),
human decision makers have a tendency to say something like, “If only I
could get $475 for my shares, I d sell right now. ” If and when the shares do in-
deed reach $475, the curvature of the line in this quadrant implies that now
the investor will require yet a higher guaranteed price (e.g., $525 per share)
before he closes the bet. At some point, which may be one representing a
significant loss of principal, the investor is largely inured to the prospect
of further losses, and if the stock price goes far enough down, the investor
is no longer tempted to bet on a small rise in price. This is the point that
people usually sell—just as the $50 stock they bought is trading for $1.50
on the Pink Sheets!
This psychological effect is dreadfully difficult to overcome—
perhaps impossible. However, again, I believe that the most important
first step is having a rational, educated estimate of the fair value range of
a company and understanding the drivers that go into the values making
up that range.
Lets say that you bought a stock for $30 after having determined a
low-end valuation of $39 and the high-end valuation around $50. Now a
quarterly earnings announcement reports good numbers—data suggesting
that the valuation cluster around $50 is closer to correct—and the stock
advances by 10 percent—to $33.
Under these conditions, you are less likely to excitedly take your
profits after the 10 percent up day because you know that the stock still
has about 50 percent to go before it gets to your best-case valuation range.
Again, understanding the drivers of valuation and having an appreciation
for (and humility in the face of) the uncertainty involved in any projection
of future conditions (as reflected by a valuation range) constitute the best
way I have found to combat the deep-seated bias related to the kinks in our
perception of risk.
Now well look briefly at structural impediments to rational investing
before pulling together all the lessons learned so far to see how to invest
intelligently using options.
Understanding and Overcoming Investing Pitfalls •  131
Structural Impediments
We know that we have an enemy living inside of us in the form of the behav-
ioral biases discussed earlier. If this werent bad enough, we are attempting to
invest intelligently in an environment not conducive to intelligence. In other
words, not only must we battle an enemy within, but enemies without as well.
The enemies without are comprised of the forces arrayed against us—
the owners of capital attempting to invest intelligently. These forces are part
of the very structure that has developed to trade, manage, custody, ana-
lyze, and report on securities that is such an integral part of the investing
process. They consist of the many explicit messages we as investors receive
every week telling us that we should “trade like a pro” and the implicit mes-
sages that we dont know what we are doing so we should put our faith in
this expert or the next if we hope to be successful.
At the heart of these structural issues is the distinction between prin-
cipals and agents.
Principals versus Agents
Y ou cannot talk about structural impediments without making the distinc-
tion between principals and agents. Principals are the owners of capital
who invest in risky projects or assets with the expectation of generating a
positive return. Principals can be like you and me—individuals with finite
lives—or can be legal entities such as endowments or companies—which
are theoretically perpetual actors. Agents, on the other hand, are the inter-
mediaries who act on behalf of principals in return for salaries and who are
paid for out of the capital of principals.
Any time a person is compensated for doing something, his or her
own interests are on the line. When our own interests are on the line, we
look for opportunities to protect and advance them. Unless a great deal of
thought is put into how investment performance is measured and assessed
and how compensation is awarded to agents as a result of that performance,
in the process of advancing their own agendas, agents actually may end
up working at cross-purposes to their principals. This tension between
agents—who must work within the constraints of their industry to keep
132 •   TheIntelligentOptionInvestor
their jobs and advance their careers—and principals—who by and large
are simply looking to save enough money to live comfortably in retirement
and pass something on to their descendants—lies at the root of what I term
structural impediments.
To investigate these structural impediments, we first need to figure
out who is playing this investment game and what the rules are. To do this,
Ill introduce the teams: the buy side and the sell side—both of which are
agents—and the principals. With this knowledge, we can better avoid the
structural pitfalls established by the agents largely for their own benefit.
The Buy Side
The buy side consists of agents hired by principals to invest and manage
the principals capital on their behalf. The most well-known buy-side play-
ers are mutual funds and hedge funds, but insurance companies, pension
funds, and endowments also fit into this category. I tend to think of hedge
funds and mutual funds as being different in approach from the others, so
well look at these two groups separately.
Perhaps the attitude of mutual and large hedge fund players can best
be summed up by the words of a professional money manager, who once
told me, “Erik, no one ever got fired for not making money; they got fired
for losing money. ” Most people unfamiliar with the money-management
industry think that performance is paramount for the managers. In fact,
investment performance is only a slightly inconvenient means to an end
for money managers. For the owner of a hedge or mutual fund, the real
name of the game is assets under management (AUM). AUM is the total
amount of money a fund manages on behalf of its clients, and it is the main
source of wealth for the owners of a fund. Mutual funds charge a load that
represents a percentage of money clients leave with them to manage but are
not usually directly rewarded for the performance of the fund. In the case of
mutual funds, AUM is all important, and investment performance is merely
a marketing tool. If fund A can generate good enough performance to stand
prominently in the pack of other funds (i.e., “x percent of our funds beat
their Lipper averages”), and rating companies such as Morningstar give the
fund a positive rating, present customers of fund A are less likely to take
their money to another fund, and customers of lower-performing funds
Understanding and Overcoming Investing Pitfalls •  133
will move their money to be managed by fund A. Of course, at the annual
bonus time, fund employees are compensated in rough proportion to the
performance of their investment recommendations, so there is an incentive
for analysts and portfolio managers to perform well. However, if an analyst
is interested in keeping his or her revenue stream coming in in the form of
salary, the analyst quickly learns that the best route is usually the safest one.
This leads to a phenomenon known as closet indexing , where an in-
vestment funds portfolio is so diversified that it effectively takes on a risk-
return profile equivalent to the index (or whatever benchmark the fund is
using to measure relative performance). A 2011 study by Martijn Cremers
and colleagues concluded the following (italics added by author):
In this paper we examine the prevalence of explicit and implicit
(closet) indexing in equity mutual fund management across 30
countries. We find that although little explicit indexing exists
as a proportion of assets under management [N.B.: There are
few low-load index funds in proportion to “actively managed”
funds] in almost all countries, a large amount of closet indexing
exists. That is, equity fund managers in many countries choose
portfolios that track their stated benchmark closely.
Or, to put it simply, whether an investor puts money into an active
fund or an index fund, the investor mainly just gets the performance of
the index. In addition, bonuses and salary increases are apportioned out
on an annual basis, meaning that the natural investing time horizon for
an analyst or money manager is only one year. Almost everyone in the
industry feels a sense of excitement and relief at the beginning of a new
year because they know they are starting out with a fresh slate. Clearly, the
agents—the employees and owners of the funds—are not acting in the best
interests of the principals (because they are charging fees but not provid-
ing much or any benefit), and the agents investing time horizons are not,
by and large, aligned with the investing time horizons of the principals
(agents start again with a fresh slate every year whereas principals worry
only about the value of their investment assets at some point in time, like
college admission or retirement).
The same sort of dynamic occurs in the hedge fund industry, al-
though with a bit of a twist. Large hedge funds usually are set up in a
134 •   TheIntelligentOptionInvestor
“2-and-20” arrangement, where 2 percent of a clients money every year
goes immediately to the manager (this is the load in a mutual fund), and
20 percent of profits (or profits over some benchmark) are apportioned out
on a periodic basis. The owners of these prominent funds usually set up
their businesses in such a way as to receive all the moneys based on AUM
and leave the lions share of the risky, performance-based payout to the
portfolio managers and analysts hired to manage the money. The owners
of large hedge funds, in other words, have compensation structures that are
very similar to those of the owners of large mutual funds and so are con-
cerned mainly with clients not moving their money to other hedge funds.
For the owners of these funds, performance is, in a sense, just a necessary
evil to their goal of generating wealth by safekeeping the wealth of others.
The owners of small hedge funds and the managers/analysts of all
hedge funds lead a much more tenuous existence. This business is extremely
competitive, and the continuation of these agents salary- and bonus-gen-
erated revenue streams is extremely sensitive to recent performance. Small
hedge fund owners are beholden to hedge funds of funds (HFoF)—another
intermediary that funnels principals capital to different hedge funds in re-
turn for a fee—and their money is extremely “fast. ” If a small fund manager
does not outperform the appropriate benchmark in a given quarter or can-
not convince the HFoF that performance lagged in the last quarter for some
reason that will reverse itself in spades in the next quarter, it is very likely
that the HFoF will pull its money from the fund. Similarly, a portfolio man-
ager working for a large fund must, at least on an annual basis, prove to the
hedge fund owner that his or her performance has been good enough or will
soon be good enough to deserve a continued allotment of the clients capital.
Strangely enough, as more and more hedge funds flood the market,
soaking up opportunities to generate alpha (excess returns), hedge funds
have come to display returns that are highly correlated with the underly-
ing index. A recent research report published by Morgan Stanley told this
tale in figures—the correlation between the Standard and Poors 500 Index
(S&P 500) and an index of hedge funds reached around 90 percent in mid-
2013.
4 This does not mean that an individual hedge fund will engage in
closet indexing as a mutual fund might, but it does mean that if you invest
your money in multiple hedge funds to try to generate better performance,
your returns will start looking a lot like the returns of the index at large.
Understanding and Overcoming Investing Pitfalls •  135
Turning now to the next buy-side group—insurance companies,
pension funds, and endowments—we see a different business model and
different motivations for employees. In general, these buy-side businesses
have much less pressure to generate superlative returns and exist as a sort
of appendage of another primary business. Life insurance companies
invest their clients money but generally promise very limited returns—
structuring agreements with clients in such a way as to ensure that if their
investment decisions are at least minimally competent, they will be able to
fulfill their promises to clients. As such, investments tend to be a default se-
lection of blue chip equities and high-quality bonds. In this environment,
the portfolio manager is not measured so much on his or her investment
prowess but rather on his or her ability to allocate to bonds and stocks in
a sensible enough proportion to be able to satisfy the insurance companys
obligations to its clients when they come due. The real risk to the insurance
company is not collecting enough fees or promising its clients too much.
The investment horizon for these funds is something like 10 to 20 years.
Pension funds are much the same in terms of investment philosophy—
if a portfolio manager allocates assets sensibly between high-grade corporate
bonds and blue chip stocks, his or her career is basically safe. It is rare to find
private sector entities now that even offer pensions to their employees and
tougher still to think of examples of pensions that are adequately or overfunded
(meaning that they have enough funds to meet their future obligations). Again,
the investment horizon for these entities is a long 10 to 20 years.
Until rather recently, university endowments were very similar to in-
surance or pension funds, but they naturally have much longer investment
time horizons because the money is usually not promised to any specific
purpose in some limited time frame. Endowments usually allocate to a
wider range of asset classes—including hedge funds, private equity funds,
real estate, and so on—and several gifted portfolio managers at Harvard
and Y ale have done this to enormous effect on behalf of their schools in
recent years. However, in general, asset selection or allocation risks are low
for managers in this environment. Rather, the risks are much more related
to the ability of managers to satisfy their schools boards of governors that
they are managing the school assets with propriety and foresight.
One undeniable fact to all buy-side firms is that as the entity grows
larger, it becomes harder and harder to invest in anything but very large
136 •   TheIntelligentOptionInvestor
and liquid stocks. Even if you have a small cap position that increases by
100 percent in a single year, if your investment base is so large that the win-
ning positions size is only 0.005 percent of the total AUM at the beginning
of the year, it only represents 0.01 percent of the portfolio at the end of the
year—hardly moving the needle in terms of excess performance.
To summarize the players in tabular format:
Player Clients Are . . . Time Horizon Risk
Investment
Paradigm
Hedge funds Demanding,
fast money
3 months to
1 year
Owner: Losing
clients
Managers: Not
making risky
enough bets
Anything that pro-
vides alpha
Mutual funds Docile and
uninformed
1 year Breaking from the
herd and see-
ing AUM drop
Closet indexing
Insurance
companies
and pension
funds
Largely
unaware
of their
investments
10 to 20 years Not charging
clients enough
(insurance); not
retiring before
the pension is
discontinued/
defaulted on
(pensions)
AAA bonds and blue
chip stocks—risk
aversion
Endowments Not born yet 10 years to
100 years
Losing
confidence
of board of
governors
Wide asset-class
level allocation
with long-term
perspective
Look back at this table. As a principal owner of capital, is there any-
thing listed in the risk column that speaks to the risk of investing that you
yourself have experienced or feel is most pressing to you?
The Sell Side
The sell side consists of companies whose job it is to connect principals
(through their agents) who have capital with the financial markets.
Understanding and Overcoming Investing Pitfalls •  137
Broker-dealers are the sell-side counterparties for institutional investors,
whereas stock brokers and online brokers are the counterparties for indi-
vidual ones.
The operative principle for this business is best summed up in the old
adage, “Bears make money, and Bulls make money. Pigs get slaughtered. ”
In other words, sell-siders do not care if the market goes up or down be-
cause their revenues depend only on investors accessing the market. The
only way to lose this game is to get too greedy and take a risk position in a
security that subsequently loses value.
5
Sell-side players basically make money in proportion to how often
their clients come to the market. As such, the sell side has a vested interest
in getting its clients to trade as often as possible. Sell-side research groups
hire very smart graduates from top universities and industry insiders
who basically act as marketing arms for the firms sales and trading desks.
The more short-term “catalysts” the research group can find that might
prompt a client to make a stock purchase or sale, the better for them.
Research groups bonuses are determined in large part by feedback from
the sales and trading desk. Because the sales and trading team only makes
money if a client trades, research that advocates long holding periods and
infrequent trading is certainly not welcome, no matter how efficacious it
might be.
The main duty of the people on the sales desks is to prompt clients
to make a trading decision and to trade with them (rather than another
bank), so salespeople spend a good bit of time making cold calls to hedge
fund traders to give them some market “color” and point out opportunities
to make short-term trades.
The End Result
The buy and sell sides interact with one another in such a way as to create
an investing environment that values short-termism and dependence on
large-capitalization stocks. The problem is that individual investors get
wrapped up in these machinations and end up trying to act like agents
when they are in fact principals. Agents, as we have seen, get paid a salary
and bonus on the basis of various short-term factors that are, at best, neutral
and, at worst, damaging to the interests of principals. Buy-side agents, as
138 •   TheIntelligentOptionInvestor
we have seen, are either relatively disinterested in investment performance
(e.g., insurance companies and pension funds) or are interested only in
relative outperformance over a very short time frame (e.g., hedge funds
and mutual funds). Sell-side agents make money in proportion to trading
volume and frequency, so they are happy to facilitate the enormous trade
in a blue chip securities on behalf of a pension fund or the hundreds or
thousands of individual trades in a day on behalf of an aggressive active
hedge fund.
None of these agents are considering the economic value that may be
created by the company in which they are investing, and in the attempt to
maximize their own compensation, they are happy to ignore the long-term
view in favor of a trade that will work within 90 days. Individual investors
read sell-side research, and because the research analysts are so intelligent
and well informed about various minutiae of a given company or industry,
they think that the analysts recommendations will help them in the long
term. Business news channels offer a constant stream of pundits from both
buy and sell sides pontificating about things that matter to them—short-
term opportunities to generate a small advantage for the quarter—and that
individual investors wrongly assume should be important to them as well.
An experienced technical analyst can find an investment opportu-
nity in any chart pattern. A sell-side investment banker can always talk
about why one company looks cheap in comparison with another in the
same industry based on some ratio analysis that has a shelf life of about
two weeks. Discount brokerages are happy to supply individual investors
with sophisticated software and data packages that are “free” as long as the
investors make a certain number of trades per month, and they encourage
their clients to “trade like a pro. ”
The end result of these structural factors is that individual investors
get caught in a mental trap that if they are doing anything different from
what they see their highly paid agents doing, they must be doing some-
thing wrong. This is reinforced by one behavioral bias I mentioned in pass-
ing earlier—herding—the human tendency to try to find safety in following
the lead of others rather than risk independent action.
In general, any information or strategy that does not hone in on the
long-term economic value of a company should be considered by intel-
ligent investors to be a red herring and ignored. No individual investor is
Understanding and Overcoming Investing Pitfalls •  139
being compensated with respect to short-term or relative performance, so
information that is purported to give them advantages in this realm should
be taken with a grain of salt.
Now that you have a good idea of the theory behind options from
Part I and the theory of how to assess rational valuation ranges for a stock
without falling into behavioral or structural traps from Part II, lets apply
this knowledge to the practical task of investing. Part III discusses how to
apply the principles of intelligent stock valuation to option investing and
shows how to tilt the balance of risk and reward in our favor.
This page intentionally left blank
141
Part III
IntellIgent OptIOn
InvestIng
Now that you understand how options work and how to value companies,
it is time to move from the theoretical to the practical to see how to apply
this knowledge to investing in the market. With Part III of this book, we
make the transition from theoretical to practical, and by the time you finish
this part, you will be an intelligent option investor.
To invest in options, you must know how to transact them; this is the
subject of Chapter 7. In it, you will see how to interpret an option pricing
screen and to break down the information there so that you can under -
stand what the option market is predicting for the future price of a stock. I
also talk about the only one of the Greeks that an intelligent option investor
needs to understand well—delta.
Chapter 8 deals with a subject that is essential for option investors—
leverage. Not all option strategies are levered ones, but many are. As such,
without understanding what leverage is, how it can be measured and used,
and how it can be safely and sanely incorporated into a portfolio, you can-
not be said to truly understand options.
Chapters 911 deal with specific strategies to gain, accept, and mix
exposure. In these chapters I offer specific advice about what strike prices
are most effective to select and what tenors, what to do when the expected
outcomes of an investment materially change, and how to incorporate
each strategy into your portfolio. Chapter 11 also gives guidance on so-
called option overlay strategies, where a position in a stock is overlain by
an option to modify the stocks risk-reward profile (e.g., protective puts for
hedging and covered calls for generating income).
142 •   TheIntelligentOptionInvestor
Unlike some books, this book includes only a handful of strategies,
and most of those are very simple ones. I shun complex positions for two
reasons. First, as you will see, transacting in options can be very expensive.
The more complex an option strategy is, the less attractive the potential
returns become. Second, the more complex a strategy is, the less the inher-
ent directionality of options can be used to an investors advantage.
Simple strategies are best. If you understand these simple strategies
well, you can start modifying them yourself to meet specific investing sce-
narios when and if the need arises. Perhaps by using these simple strategies
you will not be able to chat with the local investment club option guru
about the “gamma on an iron condor, ” but that will be his or her loss and
not yours.
Chapter 12 looks at what it means to invest intelligently while under-
standing the two forms of risk you assume by selecting stocks in which to
invest: market risk and valuation risk.
143
Chapter 7
FIndIng MIsprIced
OptIOns
All our option-related discussions so far have been theoretical. Now it
is time to delve into the practical to see how options work in the market.
After finishing this chapter, you should understand
1. How to read an option chain pricing screen
2. Option-specific pricing features such as a wide bid-ask spread,
volatility smile, bid and ask volatility, and limited liquidity/
availability
3. What delta is and why it is important to intelligent option investors
4. How to compare what the option market implies about future
stock prices to an intelligently determined range
In terms of where this chapter fits into our goal of becoming intelligent
option investors, obviously, even if you have a perfect understanding of
option and valuation theory, if you do not understand the practical steps
you must take to find actual investment opportunities in the real world, all
the theory will do you no good.
New jargon introduced in this chapter includes the following:
Closing price Bid implied volatility
Settlement price Ask implied volatility
Contract size Volatility smile
Round-tripping Greeks
Bid-ask spread Delta
144 •   TheIntelligentOptionInvestor
Making Sense of Option Quotes
Lets start our practical discussion by taking a look at an actual option
pricing screen. These screens can seem intimidating at first, but by the end
of this chapter, they will be quite sensible.
Last
0.86 -0.23
-0.14
-0.04
-0.17
-0.14
-0.06
-0.13
-0.12
-0.07
-0.09
-0.14
-0.06
-0.20
-0.26
-0.10
+0.01
0.91 0.94 21.672% 24.733% 0.8387
0.4313
0.0631
0.0000
0.0000
0.0000
0.9580
0.9598
0.9620
0.7053
0.4743
0.2461
0.0357
0.0392
0.0482
21.722%
22.988%
62.849%
72.188%
81.286%
201.771%
192.670%
175.779%
20.098%
18.997%
18.491%
25.587%
29.201%
35.855%
55.427%
123.903%
64.054%
23.311%
22.407%
21.813%
21.147%
22.144%
23.409%
54.689%
66.920%
35.642%
23.656%
23.072%
22.553%
21.460%
21.374%
21.581%
32.597%
24.854%
23.426%
20.380%
19.627%
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
N/A
0.26
0.04
0.02
0.02
0.02
13.30
12.40
11.35
1.19
0.58
0.22
0.01
0.01
0.02
11.90
12.35
10.10
1.68
1.10
0.67
0.05
0.03
0.02
0.24
0.02
10.35
9.30
8.40
1.17 19.408%
18.405%
17.721%
0.56
0.20
11.75
10.70
9.50
1.65
1.08
0.65
0.04
0.01
0.01
11.55 12.30
12.00
10.00
2.48
1.93
1.48
0.41
0.29
0.21
12.20
3.60
1.75
10.05
9.85
2.44
1.91
1.45
0.39
0.27
0.18
12.10
3.50
1.70
0.00
0.23
0.02
C0.00
C0.00
C0.00
0.09
0.45
1.15
C4.99
C5.99
C6.99
C4.99
C5.99
C6.99
C12.01
C11.01
C10.01
1.16
0.54
0.22
C0.00
C0.00
C0.00
C0.00
C0.00
C0.00
0.33
0.76
1.40
C5.03
C6.00
C6.99
C0.00
C0.01
C0.03
0.84
1.23
1.88
C12.02
C11.03
C10.04
1.65
1.06
0.66
C0.06
0.03
0.02
C12.05
C11.07
C10.10
C2.58
1.93
12.10
3.40
1.69
0.68
4.25
C7.27
1.42
0.38
C0.30
C0.22
C0.11
C0.15
C0.19
1.80
2.27
2.73
C5.57
C6.43
C7.35
Chng Bid AskA skImpl.I mpl.Bid Vol. Vol. Delta JUL 26 ´13
31
32
33
37
38
39
20
21
22
31
32
33
37
38
39
Description
Call
Last Chng Bid AskA skImpl.I mpl.Bid Vol. Vol. Delta
Put
0.9897
0.9869
0.9834
0.6325
0.4997
0.3606
0.0463
0.0266
0.0155
0.9712
0.9628
0.9535
0.5890
0.5118
0.4324
0.1664
0.1258
0.0923
0.9064
0.5354
0.3336
+0.01
+0.10
+0.11
0.07 0.09 22.812%2 4.853% -0.1613
-0.5689
-0.9373
-1.0000
-1.0000
-1.0000
22.469%
24.612%
85.803%
203.970%
267.488%
20.456%
19.851%
N/A
N/A
N/A
0.42
1.20
5.25
7.25
8.90
0.39
1.17
4.90
4.85
5.40
+0.02
+0.09
+0.14
-0.0420
-0.0402
-0.0380
-0.2948
-0.5261
-0.7545
-0.9652
-0.9616
-0.9524
77.739%
70.681%
63.514%
20.303%
19.170%
19.011%
41.423%
61.602%
52.378%
N/A
N/A
N/A
N/A
N/A
N/A
0.02
0.02
0.02
0.34
0.73
1.38
5.30
6.55
7.30
0.33
0.71
1.35
4.95
19.958%
18.577%
17.954%
4.65
6.70
22.720%
22.019%
21.378%
20.455%
19.050%
21.354%
0.000%
23.193%
22.845%
22.218%
21.148%
20.913%
20.899%
+0.07
+0.05
+0.16
+0.09
+0.12
+0.04
50.831%
48.233%
46.993%
23.384%
22.672%
22.106%
36.111%
30.947%
44.342%
N/A
N/A
N/A
N/A
0.02
0.03
0.05
0.82
1.25
1.82
5.55
6.30
7.55
0.01
0.80
1.23
1.79
4.95
6.15
6.85
-0.0103
-0.0131
-0.0166
-0.3679
-0.5008
-0.6402
-0.9558
-0.9757
-0.9871
22.989%
22.284%
21.453%
17.134%
37.572%
38.919%
37.587%
35.246%
23.914%
23.485%
22.925%
22.967%
26.265%
28.715%
0.11 0.13
0.17
0.19
1.78
2.25
2.80
5.80
6.85
7.85
0.13
0.17
1.75
2.22
2.76
5.70
6.50
7.40
-0.0318
-0.0406
-0.0503
-0.4120
-0.4879
-0.5665
-0.8294
-0.8690
-0.9025
34.172%
23.567%
23.145%
22.479%
21.404%
19.420%
18.411%
37.790%
35.385%
30.523%
24.198%
23.081%
0.00
+0.09
33.497%
26.033%
24.745%
0.68
4.25
7.40
0.66
4.15
7.30
-0.0906
-0.4520
-0.6521
33.203%
25.378%
24.054%
AUG 16 ´13
20
21
22
31
32
33
37
38
39
SEP 20 ´13
20
21
22
31
32
33
37
38
39
20
32
37
JAN 17 ´14
JAN 16 ´15
I pulled this screen—showing the prices for options on Oracle (ORCL)—
on the weekend of July 2021, 2013, when the market was closed. The last
trade of Oracles stock on Friday, July 19, was at $31.86, down $0.15 from the
Thursdays close. Y our brokerage screen may look different from this one, but
you should be able to pull back all the data columns shown here. I have limited
the data Im pulling back on this screen in order to increase its readability.
More strikes were available, as well as more expiration dates. The expirations
shown here are 1 week and 26, 60, 180, and 544 days in the future—the
544-day expiry being the longest tenor available on the listed market.
Lets first take a look at how the screen itself is set up without paying
attention to the numbers listed.
Finding Mispriced Options 145
Calls are on the left, puts on the right.
Strike prices
and expirations
are listed here.
You can tell the stock was down on this day because most of the call
options are showing losses and all the put options are showing gains.
All the strikes for
each selected expiry
are listed grouped
together.
This query was set up
to pull back three
strikes at the three
moneyness regions
(2022, 2931, 3739).
The 1-week options
and the LEAPS did
not have strikes at
each of the prices I
requested.
Now that you can see what the general setup is, lets drill down and
look at only the calls for one expiration to see what each column means.
Last
C12.02 11.75
10.70
9.50
1.65
1.08
0.65
0.04
0.01
0.01 0.02
0.03
0.05
0.67
1.10
1.68
10.10
12.35
11.90 N/A
N/A
N/A
22.720%
55.427% 20
SEP 20 ´13
21
22
31
32
33
37
38
39
0.9869
0.9834
0.6325
0.4997
0.3606
0.0463
0.0266
0.0155
123.903%
64.054%
23.311%
22.407%
21.813%
21.147%
22.144%
23.409%
22.019%
21.378%
20.455%
19.050%
21.354%
C11.03
C10.04
1.65
1.06
-0.13
-0.12
-0.07
0.00
+0.01
0.66
C0.06
0.03
0.02
Chnq Bid AskA skImpl.I mpl.Bid Vol. Vol. Delta Description
Call
0.9897
Red
(loss) Green
(gain)
146 •   TheIntelligentOptionInvestor
Last
This is the last price at which the associated contract traded. Notice that
the last price associated with the far in-the-money (ITM) strikes ($20, $21,
$22) and one of the far out-of-the-money (OTM) strikes ($37) have the
letter “C” in front of them. This is just my brokers way of showing that the
contract did not trade during that days trading session and that the last
price listed was the closing price of the previous day. Closing prices are not
necessarily market prices. At the end of the day, if a contract has not traded,
the exchange will give an indicative closing price (or settlement price ) for
that day. The Oracle options expiring on August 16, 2013, and struck at
$20 may not have traded for six months or more, with the exchange simply
“marking” a closing price every day.
One important fact to understand about option prices is that they
are quoted in per-share terms but must be transacted in contracts that rep-
resent control of multiple shares. The number of shares controlled by one
contract is called the contract size . In the U.S. market, one standard con-
tract represents control over 100 shares. Sometimes the number of shares
controlled by a single contract differs (in the case of a company that was
acquired through the exchange of shares), but these are not usually avail-
able to be traded. In general, one is safe remembering that the contract size
is 100 shares.
Y ou cannot break a contract into smaller pieces or buy just part of a
contract—transacting in options means you must do so with indivisible
contracts, with each contract controlling 100 shares. Period. As such, every
price you see on the preceding screenshot, if you were to transact in one of
those options, would cost you 100 times the amount shown. For example,
the last price for the $31-strike option was $1.65. The investor who bought
that contract paid $165 for it (plus fees, taxes, and commissions, which are
not included in the posted price). In the rest of this book, when I make
calculations regarding money spent on a certain transaction, you will al-
ways see me multiply by 100.
Change
This is the change from the previous days closing price. My broker shows
change only for contracts that were actively traded that day. It looks like
Finding Mispriced Options 147
the near at-the-money (ATM) strikes were the most active because of the
two far OTM options that traded; ones price didnt change at all, and the
other went up by 1 cent. On a day in which the underlying stock fell, these
calls theoretically should have fallen in price as well (because the K/S ratio,
the ratio of strike price to stock price, was getting slightly larger). This just
shows that sometimes there is a disconnect between theory and practice
when it comes to options.
To understand what is probably happening, we should understand
something about market makers. Market makers are employees at bro-
ker-dealers who are responsible for ensuring a liquid, orderly securi-
ties market. In return for agreeing to provide a minimum liquidity of
10 contracts per strike price, market makers get the opportunity to earn
the bid-ask spread every time a trade is made (I will talk about bid-ask
spreads later). However, once a market maker posts a given price, he or
she is guaranteeing a trade at that price. If, in this case (because were
dealing with OTM call options), some unexpected positive news comes
out that will create a huge rise in the stock price once it filters into the
market and an observant, quick investor sees it before the market maker
realizes it, the investor can get a really good price on those far OTM call
options (i.e., the investor could buy a far OTM call option for 1 cent and
sell it for 50 cents when the market maker realizes what has happened.
To provide a little slack that prevents the market maker from losing too
much money if this happens, market makers usually post prices for far
OTM options or options on relatively illiquid stocks that are a bit unrea-
sonable—at a level where a smart investor would not trade with him or
her at that price. If someone trades at that price, fine—the market maker
has committed to provide liquidity, but the agreement does not stipulate
that the liquidity must be provided at a reasonable price. For this reason,
frequently you will see prices on far OTM options that do not follow the
theoretical “rules” of options.
Bid-Ask
For a stock investor, the difference between a bid price and an ask price
is inconsequential. For option investors, though, it is a factor that must
be taken into consideration for reasons that I will detail in subsequent
148 •   TheIntelligentOptionInvestor
paragraphs. The easiest way to think of the bid-ask spread is to think in
terms of buying a new car. If you buy a new car, you pay, lets say, $20,000.
This is the ask price. Y ou grab the keys, drive around the block, and
return to the showroom offering to sell the car back to the dealership. The
dealership buys it for $18,000. This is the bid price. The bid-ask spread is
$2,000 in this example.
Bid-ask spreads are proportionally much larger for options than
they are for stocks. For example, the options Ive highlighted here are on
a very large, important, and very liquid stock. The bid-ask spread on the
$32-strike call option (which you will learn in the next section is exactly
ATM) is $0.02 on a midprice of $1.09. This works out to a percentage bid-
ask spread of 1.8 percent. Compare this with the bid-ask spread on Ora-
cles stock itself, which was $0.01 on a midprice of $31.855—a percentage
spread of 0.03 percent.
For smaller, less-liquid stocks, the percentage bid-ask spread is even
larger. For instance, here is the option chain for Mueller Water (MW A):
2.5
5
7.5
10
Last
C5.30
C2.80
0.55
C0.00
Change Bid AskI mpl. Bid Vol. Impl. Ask Vol. Impl. Bid Vol. Impl. Ask Vol.Delta
2.5
5
7.5
10
2.5
5
7.5
10
12.5
DescriptionCall
Last Change BidA sk Delta
Put
C0.00
C0.00
C0.25
C2.25
C0.00
C0.00
C0.55
C2.35
C0.00
C0.10
C0.85
C2.55
C4.80
5.20 5.50 N/A 340.099% 0.9978
0.9978
0.7330
0.1316
0.9347
0.8524
0.6103
0.1516
0.9933
0.9190
0.6070
0.2566
0.1024
142.171%
46.039%
76.652%
N/A
N/A
2.95
0.55
0.10
0.20
0.10 N/A
N/A
N/A
0.10
0.30
2.35
40.733%
N/A
N/A
N/A
N/A
36.550%
38.181%
35.520%
35.509%
35.664%
2.10
0.50
0.05
0.10
0.60
2.402.30
0.05
0.15
0.15
0.85
2.60
4.90
0.70
2.45
4.60
2.70
0.500.00
5.20 5.50
3.00
0.90
0.20
2.80
0.80
0.10
5.505.10
3.102.85
1.151.05
0.400.30
0.200.05
39.708%
N/A
N/A
36.722%
N/A
38.754%
38.318%
39.127%
36.347%
36.336%
292.169% 0.0000
-0.0000
-0.2778
-0.8663
-0.0616
-0.1447
-0.3886
-0.8447
-0.0018
-0.0787
-0.3890
-0.7375
-0.8913
128.711%
53.108%
88.008%
117.369%
60.675%
42.433%
44.802%
110.810%
50.757%
42.074%
43.947%
49.401%
163.282%
75.219%
42.610%
45.215%
122.894%
64.543%
42.697%
44.728%
50.218%
C5.30
C2.80
C0.85
C0.10
C5.30
C1.10
C0.35
C0.10
3.00 +0.15
AUG 16 ´13
NOV 15 ´13
FEB 21 ´14
Looking at the closest to ATM call options for the November expiration—
the ones struck at $7.50 and circled in the screenshot—you can see that
the bid-ask spread is $0.10 on a midprice of $0.85. This works out to 11.8
percent.
Because the bid-ask spread is so very large on option contracts,
round-tripping
1 an option contract creates a large hurdle that the returns
of the security must get over before the investor makes any money. In the
case of Mueller Water, the options one buys would have to change in price
by 11.8 percent before the investor starts making any money at all. It is for
this reason that I consider day trading in options and/or using complex
Finding Mispriced Options 149
strategies involving the simultaneous purchase and sale of multiple con-
tracts to be a poor investment strategy.
Implied Bid Volatility/Implied Ask Volatility
Because the price is so different between the bid and the ask, the range of fu-
ture stock prices implied by the option prices can be thought of as different
depending on whether you are buying or selling contracts. Employing the
graphic conventions we used earlier in this book, this effect is represented
as follows:
Implied price range implied
by ask price volatility of 23.4%
Implied price range implied
by bid price volatility of 21.4%
6/21/201612/24/20156/27/201512/29/20147/2/20141/3/20147/7/20131/8/20131/12/2012
Oracle (ORCL)
Price per Share
60
50
40
30
20
10
-
Because Oracle is such a big, liquid company, the difference between
the stock prices implied by the different bid-ask implied volatilities is not
large, but it can be substantial for smaller, less liquid companies. Looking
at the ask implied volatility column, you will notice the huge difference
between the far ITM options implied volatilities and those for ATM and
OTM options. The data in the preceding diagram are incomplete, but
if you were to graph all the implied volatility data, you would get the
following:
150 •   TheIntelligentOptionInvestor
18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37 38 39
Strike Price
Oracle (ORCL) Implied Volatility
Implied Volatility (Percent)
160
180
140
100
120
80
40
60
20
0
Thinking about what volatility means with regard to future stock
prices—namely, that it is a prediction of a range of likely values—it does not
make sense that options struck at different prices would predict such radi-
cally different stock price ranges. What the market is saying, in effect, is that it
expects different things about the likely future range of stock prices depending
on what option is selected. Clearly, this does not make much sense.
This “nonsensical” effect is actually proof that practitioners
understand that the Black-Scholes-Merton models (BSMs) assumptions
are not correct and specifically that sudden downward jumps in a stock
price can and do occur more often than would be predicted if returns fol-
lowed a normal distribution. This effect does occur and even has a name—
the volatility smile . Although this effect is extremely noticeable when
graphed in this way, it is not particularly important for the intelligent op-
tion investing strategies about which I will speak. Probably the most im-
portant thing to realize is that the pricing on far OTM and far ITM options
is a little more informal and approximate than for ATM options, so if you
are thinking about transacting in OTM or ITM options, it is worth looking
for the best deal available. For example, notice that in the preceding dia-
gram, the $21-strike implied volatility is actually notably higher than the
Finding Mispriced Options 151
$20-strike volatility. If you were interested in buying an ITM call option,
you would pay less time value for the $20-strike than for the $21-strike op-
tions—essentially the same investment. I will talk more about the volatility
smile in the next section when discussing delta.
In a similar way, sometimes the implied volatility for puts is different
from the implied volatility for calls struck at the same price. Again, this is
one of the market frictions that arises in option markets. This effect also
has investing implications that I will discuss in the chapters detailing dif-
ferent option investing strategies.
The last column in this price display is delta , a measure that is so
important that it deserves its own section—to which we turn now.
Delta: The Most Useful of the Greeks
Someone attempting to find out something about options will almost
certainly hear about how the Greeks are so important. In fact, I think that
they are so unimportant that I will barely discuss them in this book. If you
understand how options are priced—and after reading Part I, you do—the
Greeks are mostly common sense.
Delta, though, is important enough for intelligent option investors
to understand with a bit more detail. Delta is the one number that gives
the probability of a stock being above (for calls) or below (for puts) a given
strike price at a specific point in time.
Deltas for calls always carry a positive sign, whereas deltas for puts are
always negative, so, for instance, a call option on a given stock whose delta is
exactly 0.50 will have a put delta of 0.50. The call delta of 0.50 means that there
is a 50 percent chance that the stock will expire above that strike, and the put
delta of 0.50 means that there is a 50 percent chance that the stock will expire
below that strike. In fact, this strike demonstrates the technical definition of
ATM—it is the most likely future price of the stock according to the BSM.
The reason that delta is so important is that it allows you one way
of creating the BSM probability cones that you will need to find option
investment opportunities. Recall that the straight dotted line in our BSM
cone diagrams meant the statistically most likely future price for the stock.
The statistically most likely future price for a stock—assuming that stocks
152 •   TheIntelligentOptionInvestor
move randomly, which the BSM does—is the price level at which there is
an equal chance of the actual future stock price to be above or below. In
other words, the 50-delta mark represents the forward price of a stock in
our BSM cones.
Recall now also that each line demarcating the cone represents roughly a
16 percent probability of the stock reaching that price at a particular time in the
future. This means that if we find the call strike prices that have deltas closest to
0.16 and 0.84 (= 1.00 0.16) or the put strike prices that have deltas closest to
0.84 and 0.16 for each expiration, we can sketch out the BSM cone at points
in the future (the data I used to derive this graph are listed in tabular format at
the end of this section).
6/21/201612/24/20156/27/201512/29/20147/2/20141/3/20147/7/20131/8/20137/12/2012
Date
Oracle (ORCL)
Price per Share
45
40
35
30
25
20
5
10
15
-
Obviously, the bottom range looks completely distended compared
with the nice, smooth BSM cone shown in earlier chapters. This dis-
tension is simply another way of viewing the volatility smile. Like the
volatility smile, the distended BSM cone represents an attempt by partici-
pants in the options market to make the BSM more usable in real situa-
tions, where stocks really can and do fall heavily even though the efficient
market hypothesis (EMH) says that they should not. The shape is saying,
Finding Mispriced Options 153
“We think that these prices far below the current price are much more
likely than they would be assuming normal percentage returns. ” (Or, in a
phrase, “Were scared!”)
If we compare the delta-derived “cone” with a theoretically derived
BSM cone, here is what we would see:
Oracle (ORCL)
Date
Price per Share
60
50
40
30
20
10
-
6/21/201612/24/20156/27/201512/29/20147/2/20141/3/20147/7/20131/8/20137/12/2012
Of course, we did not need the BSM cone to tell us that the points
associated with the downside strikes look too low. But it is interesting to see
that the upside and most likely values are fairly close to what the BSM projects.
Note also that the downside point on the farthest expiration is nearly
fairly priced according to the BSM, contrary to the shorter-tenor options.
This effect could be because no one is trading the far ITM call long-term
equity anticipation securities (LEAPS), so the market maker has simply
posted his or her bid and ask prices using the BSM as a base. In the market,
this is what usually happens—participants start out with a mechanically
generated price (i.e., using the BSM or some other computational option
pricing model) and make adjustments based on what feels right, what
arbitrage opportunities are available, and so on.
154 •   TheIntelligentOptionInvestor
One important thing to note is that although we are using the delta
figure to get an idea of the probability that the market is assigning to a certain
stock price outcome, we are also using deltas for options that nearly no one
ever trades. Most option volume is centered around the 50-delta mark and a
10 to 20 percentage point band around it (i.e., from 30- to 40-delta to 60- to
70-delta). It is doubtful to me that these thinly traded options contain much
real information about market projections of future stock prices.
Another problem with using the deltas to get an idea about market
projections is that we are limited in the length of time we can project out
to only the number of strikes available. For this example, I chose an impor-
tant tech company with a very liquid stock, so it has plenty of expirations
and many strikes available so that we can get a granular look at deltas.
However, what if we were looking at Mueller Waters option chain and try-
ing to figure out what the market is saying?
2.5
5
7.5
10
Last
C5.30
C2.80
0.55
C0.00
Change Bid Ask Impl. Bid Vol. Impl. Ask Vol. Delta AUG 16 ´13
2.5
5
7.5
10
NOV 15 ´13
2.5
5
7.5
10
12.5
FEB 21 ´14
DescriptionCall
5.20 5.50 N/A 340.099% 0.9978
0.9978
0.7330
0.1316
0.9347
0.8524
0.6103
0.1516
0.9933
0.9190
0.6070
0.2566
0.1024
142.171%
46.039%
76.652%
N/A
N/A
2.95
0.55
0.10
2.70
0.500.00
5.20 5.50
3.00
0.90
0.20
2.80
0.80
0.10
5.505.10
3.102.85
1.151.05
0.400.30
0.200.05
39.708%
N/A
N/A
36.722%
N/A
38.754%
38.318%
39.127%
36.347%
36.336%
163.282%
75.219%
42.610%
45.215%
122.894%
64.543%
42.697%
44.728%
50.218%
C5.30
C2.80
C0.85
C0.10
C5.30
C1.10
C0.35
C0.10
3.00 +0.15
Here you can see that we only have three expirations: 26, 117, and
215 days from when these data were taken. In addition, there are hardly
any strikes that are reasonably close to our crucial 84-delta, 50-delta, and
16-delta strikes, which means that we have to do a lot of extrapolation to
try to figure out where the markets idea of the BSM cone lies.
To get a better picture of what the market is saying, I recommend
looking at options that are the most heavily traded and assuming that the
implied volatility on these strikes gives true information about the mar -
kets assumptions about the future price range of a stock. Using the im-
plied volatility on heavily traded contracts as the true forward volatility
expected by the market allows us to create a theoretical BSM cone that we
Finding Mispriced Options 155
can extend indefinitely into the future and that is probably a lot closer to
representing actual market expectations for the forward volatility (and, by
extension, the range of future prices for a stock). Once we have this BSM
cone—with its high-low ranges spelled out for us—we can compare it with
the best- and worst-case valuations we derived as part of the company
analysis process.
Lets look at this process in the next section, where I spell out, step by
step, how to compare an intelligent valuation range with that implied by
the option market.
Note: Data used for Oracle graphing example:
Expiration Date Lower Middle Upper
7/25/2013 29.10 31.86 32.75
8/16/2013 22.00 32.00 33.50
9/20/2013 19.00 32.00 35.00
12/20/2013 20.00 32.50 37.00
1/17/2014 19.00 32.50 37.20
1/16/2015 23.00 32.30 42.00
Here I have eyeballed (and sometimes done a quick extrapolation) to try
to get the price that is closest to the 84-delta, 50-delta, and 16-delta marks,
respectively. Of course, you could calculate these more carefully and get
exact numbers, but the point of this is to get a general idea of how likely the
market thinks a particular future stock price is going to be.
Comparing an Intelligent Valuation
Range with a BSM Range
The point of this book is to teach you how to be an intelligent option investor
and not how to do stochastic calculus or how to program a computer to
calculate the BSM. As such, Im not going to explain how to mathematically
derive the BSM cone. Instead, on my website I have an application that will
allow you to plug in a few numbers and create a graphic representation of a
BSM cone and carry out the comparison process described in this section.
The only thing you need to know is what numbers to plug into this web
application!
156 •   TheIntelligentOptionInvestor
Ill break the process into three steps:
1. Create a BSM cone.
2. Overlay your rational valuation range on the BSM cone.
3. Look for discrepancies.
Create a BSM Cone
The heart of a BSM cone is the forward volatility number. As we have seen,
as forward volatility increases, the range of future stock prices projected by
the BSM (and expected by the market) also increases. However, after hav-
ing looked at the market pricing of options, we also know that a multitude
of volatility numbers is available. Which one should we look at? Each strike
price has its own implied volatility number. What strike prices volatility
should we use? There are also multiple tenors. What tenor options should
we look at? Should we look at implied volatility at the bid price? At the ask
price? Perhaps we should take the “kitchen sink” approach and just average
all the implied volatilities listed!
The answer is, in fact, easy if you use some simplifying assumptions
to pick a single volatility number. I am not an academic, so I dont neces-
sarily care if these simplifying assumptions are congruent with theory.
Also, I am not an arbitrageur, so I dont much care about very precise
numbers, and this attitude also lends itself well to the use of simplifying
assumptions. All we have to make sure of is that the simplifying as-
sumptions dont distort our perception to the degree that we make bad
economic choices.
Here are the assumptions that we will make:
1. The implied volatility on a contract one or two months from expi-
ration that is ATM or at least within the 40- to 60-delta band and
that is the most heavily traded will contain the markets best idea
of the true forward volatility of the stock.
2. If a big announcement is scheduled for the near future, implied
volatility numbers may be skewed, so their information might
not be reliable. In this case, try to find a heavily traded near ATM
strike at an expiry after the announcement will be made. If the
announcement will be made in about four months or more, just try
Finding Mispriced Options 157
to eyeball the ATM volatility for the one- and two-month contracts.
3. If there is a large bid-ask spread, the relevant forward volatility
to use is equal to the implied volatility we want to transact. In
other words, use the ask implied volatility if you are thinking
about gaining exposure and the bid implied volatility if you are
thinking about accepting exposure (the online application shows
cones for both the bid implied volatility and the ask implied
volatility).
Basically, these rules are just saying, “If you want to know what the
option market is expecting the future price range of a stock to be, find a
nice, liquid near ATM strikes implied volatility and use that. ” Most op-
tion trading is done in a tight band around the present ATM mark and for
expirations from zero to three months out. By looking at the most heavily
traded implied volatility numbers, we are using the markets price-discov-
ery function to the fullest. Big announcements sometimes can throw off
the true volatility picture, which is why we try to avoid gathering infor -
mation from options in these cases (e.g., legal decisions, Food and Drug
Administration trial decisions, particularly impactful quarterly earnings
announcements, and so on).
If I was looking at Oracle, I would probably choose the $32-strike
options expiring in September. These are the 50-delta options with
61 days to expiration, and there is not much of a difference between
calls and puts or between the bid and ask. The August expiration op-
tions look a bit suspicious to me considering that their implied volatility
is a couple of percentage points below that of the others. It probably
doesnt make a big difference which you use, though. We are trying to
find opportunities that are severely mispriced, not trying to split hairs
of a couple of percentage points. All things considered, I would prob-
ably use a number somewhere around 22 percent for Oracles forward
volatility.
C12.02 11.75 N/A 55.427% 0.9897 C0.00 0.02 N/A 50.831%- 0.01032011.90
C11.03 10.70 N/A 123.903% 0.9869 C0.01 0.03 N/A 48.233%- 0.01312112.35
C10.04 9.50 N/A 64.054% 0.9834 C0.03 0.05 37.572% 46.993%- 0.01660.012210.10
C0.06 0.04 20.455% 21.147% 0.0463 C5.03 5.55 N/A 36.111%- 0.95584.95370.05
1.65 1.65 22.720% 23.311% 0.6325 0.84 +0.07 0.82 22.989% 23.384%- 0.36790.80311.68-0.13
1.06 1.08 22.019% 22.407% 0.4997 1.23 +0.05 1.25 22.284% 22.672%- 0.50081.23321.10-0.12
0.66 0.65 21.378% 21.813% 0.3606 1.88 +0.16 1.82 21.453% 22.106%- 0.64021.79330.67-0.07
0.02 0.01 21.354% 23.409% 0.0155 C6.99 7.55 N/A 44.342%- 0.98716.85390.02+0.01
0.03 0.01 19.050% 22.144% 0.0266 C6.00 6.30 17.134% 30.947%- 0.97576.15380.030.00
SEP 20 ´13
158 •   TheIntelligentOptionInvestor
For Mueller Water, its a little trickier:
2.5
5
7.5
10
Last
C5.30
C2.80
0.55
C0.00
Change BidA sk Delta AUG 16 ´13
2.5
5
7.5
10
NOV 15 ´13
2.5
5
7.5
10
12.5
FEB 21 ´14
DescriptionCall
Last Change BidA sk Impl. Bid Vol. Impl. Ask Vol.Impl. Bid Vol. Impl. Ask Vol. Delta
Put
C0.00
C0.00
C0.25
C2.25
C0.00
C0.00
C0.55
C2.35
C0.00
C0.10
C0.85
C2.55
C4.80
5.20 5.50N /A 340.099% 0.9978
0.9978
0.7330
0.1316
0.9347
0.8524
0.6103
0.1516
0.9933
0.9190
0.6070
0.2566
0.1024
142.171%
46.039%
76.652%
N/A
N/A
2.95
0.55
0.10
0.20
0.10 N/A
N/A
N/A
0.10
0.30
2.35
40.733%
N/A
N/A
N/A
N/A
36.550%
38.181%
35.520%
35.509%
35.664%
2.10
0.50
0.05
0.10
0.60
2.402.30
0.05
0.15
0.15
0.85
2.60
4.90
2.70
0.500.00
5.20 5.50
3.00
0.90
0.20
2.80
0.80
0.10
5.505.10
3.102.85
1.151.05
0.400.30
0.200.05
39.708%
N/A
N/A
36.722%
N/A
38.754%
38.318%
39.127%
36.347%
36.336%
292.169% 0.0000
-0.0000
-0.2778
-0.8663
-0.0616
-0.1447
-0.3886
-0.8447
-0.0018
-0.0787
-0.3890
-0.7375
-0.8913
128.711%
53.108%
88.008%
117.369%
60.675%
42.433%
44.802%
110.810%
50.757%
42.074%
43.947%
49.401%
163.282%
75.219%
42.610%
45.215%
122.894%
64.543%
42.697%
44.728%
50.218%
C5.30
C2.80
C0.85
C0.10
C5.30
C1.10
C0.35
C0.10
3.00 +0.15
0.70
2.45
4.60
In the end, I would probably end up picking the implied volatility
associated with the options struck at $7.50 and expiring in August 2013
(26 days until expiration). I was torn between these and the same strike
expiring in November, but the August options are at least being actively
traded, and the percentage bid-ask spread on the call side is lower for them
than for the November options. Note, though, that the August 2013 put
options are so far OTM that the bid-ask spread is very wide. In this case,
I would probably look closer at the call options implied volatilities. In the
end, I would have a bid volatility of around 39 percent and an ask volatility
of around 46 percent. Because the bid-ask spread is large, I would probably
want to see a cone for both the bid and ask.
Plugging in the 22.0/22.5 for Oracle,
2 I would come up with this cone:
Date
Oracle (ORCL)
Price per Share
60
40
50
30
10
20
-
6/21/201612/24/20156/27/201512/29/20147/2/20141/3/20147/7/20131/8/20137/12/2012
Finding Mispriced Options 159
Plugging in the 39/46 for Mueller Water, I would get the following:
6/21/201612/24/20156/27/201512/29/20147/2/20141/3/20147/7/20131/8/20137/12/2012
Date
Mueller Water (MWA)
Price per Share
25
20
15
5
10
-
Y ou can see with Mueller Water just how big a 7 percentage point dif-
ference can be for the bid and ask implied volatilities in terms of projected
outcomes. The 39 percent bid implied volatility generates an upper range
at just around $15; the 46 percent ask implied volatility generates an upper
range that is 20 percent or so higher than that!
Overlay an Intelligent Valuation Range on the BSM Cone
This is simple and exactly the same for a big company or a small one,
so Ill just keep going with the Oracle example. After having done a full
valuation as shown in the exam valuation of Oracle on the IOI website,
youve got a best-case valuation, a worst-case valuation, and probably
an idea about what a likely valuation is. Y ou simply draw those numbers
onto a chart like this:
160 •   TheIntelligentOptionInvestor
6/21/201612/24/20156/27/201512/29/20147/2/20141/3/20147/7/20131/8/20137/12/2012
Date
Oracle (ORCL)
Price per Share
60
Best Case
Likely Case
Worst Case
40
50
30
10
20
-
$52
$43
$30
Once this step is done, we are ready to go onto the next and final step.
Look for Discrepancies
The last step is also easy. Because options split a stocks returns into upside
and downside exposure, we need to take a look at both the upside and
downside to see where our projections differ from those of the market.
6/21/201612/24/20156/27/201512/29/20147/2/20141/3/20147/7/20131/8/20137/12/2012
Date
Oracle (ORCL)
Price per Share
60
Best Case
Likely Case
Worst Case
40
50
30
10
20
Downside
Upside
-
$52
$43
$30
A
B
Finding Mispriced Options 161
On the upside, we can see that our likely case valuation is $43 per share,
whereas the BSMs most likely value is a bit less than $35—a difference of
more than 20 percent. This is the area on the graph labeled “ A. ” The BSM
prices options based on the likelihood of the stock hitting a certain price
level. The BSM considers the $43 price level to be relatively unlikely, whereas
I consider it relatively likely. As such, I believe that options that allow me to
gain exposure to the upside potential of Oracle—call options—are underval-
ued. In keeping with the age-old rule of investing to buy low, I will want to
gain exposure to Oracles upside by buying low-priced call options.
On the downside, I notice that there is a fairly large discrepancy
between my worst-case valuation ($30) and the lower leg of the BSM cone
(approximately $24)—this is the region of the graph labeled “B, ” and the
separation between the two values is again (just by chance) about 20 percent.
The BSM is pricing options granting exposure to the downside—put
options—struck at $24 as if they were fairly likely to occur; something that
is fairly likely to occur will be priced expensively by the BSM. My analysis,
on the other hand, makes me think that the BSMs valuation outcome is
very unlikely. The discrepancy implies that I believe the put options to be
overvalued—the BSM sees a $24 valuation as likely, with expensive options,
whereas I see it as unlikely, with nearly valueless options. In this case, we
should consider the other half of the age-old investing maxim and sell high.
In a graphic representation, this strategy might look like this:
6/21/201612/24/20156/27/201512/29/20147/2/20141/3/20147/7/20131/8/20137/12/2012
Date
Oracle (ORCL)
Price per Share
60
Best Case
Likely Case
Worst Case
40
50
30
10
20
Downside
Upside
-
$52
$43
$30
GREEN
RED
162 •   TheIntelligentOptionInvestor
Why would I select such a short-term put option to sell? Why would
I pick an OTM call option to buy? These are the kinds of questions I will
cover in Chapters 911, which look at the specifics of different option
strategies.
Before we look at strategies, though, an option investor cannot be
said to be intelligent without understanding what leverage is and how to
use it safely and effectively in a portfolio. We turn to this in Chapter 8.
163
Chapter 8
Understanding and
managing Leverage
In the media, the word leverage seems like it usually occurs alongside such
words as dangerous, speculative, or even irresponsible, so most people have
internalized the message that leverage is morally wrong; options—levered
instruments that they are—are, by extension, viewed as morally wrong as
well. In fact, nearly everyone uses leverage every day of their lives without
incident and presumably without incurring a moral stain. In my opinion,
it is not leverage that is the problem but rather an ignorance of how lever-
age works, coupled with overleverage and the inherent human belief that
disasters only happen to someone else, that is the problem.
Leverage is a powerful tool, but like all powerful tools, if used recklessly
and without understanding, it can bring its user to unpleasant outcomes.
Certainly a discussion of gaining and accepting exposure using option con-
tracts would be incomplete without a good explanation of leverage.
I like to think of leverage coming in three flavors: operational, financial,
and investment—the first two of which I mentioned in an earlier chapter and
go into more detail in Appendix B. This chapter delves specifically into in-
vestment leverage, but to the extent that investment leverage is similar to the
other forms of leverage, referring to Appendix B to learn about those forms
will help deepen your understanding of investment leverage. In this chapter,
I first define investment leverage, discuss how it can be gained by using either
debt or options, look at common ways to measure it, and introduce a unique
method of measuring and managing leverage in an investment portfolio.
Leverage is not something to be taken lightly. Many very highly
trained, well-educated, and well-capitalized investors have gone bankrupt
164 •   TheIntelligentOptionInvestor
because of their lack of appreciation for the fact that the sword of lever -
age cuts both ways. Certainly an option investor cannot be considered an
intelligent investor without having an understanding and a deep sense
of respect for the simultaneous power and danger that leverage conveys.
New jargon introduced in this chapter includes the following:
Lambda
Notional exposure
Investment Leverage
Commit the following definition to memory:
Investment leverage is the boosting of investment returns calcu-
lated as a percentage by altering the amount of ones own capital
at risk in a single investment.
Investment leverage is inextricably linked to borrowing money—this
is what I mean by the phrase “altering the amount of ones own capital at
risk. ” In this way, it is very similar to financial leverage. In fact, in my mind,
the difference between financial and investment leverage is that a company
uses financial leverage to fund projects that will produce goods or provide
services, whereas in the case of investing leverage, it is used not to produce
goods or services but to amplify the effects of a speculative position.
Frequently people think of investing leverage as simply borrowing
money to invest. However, as I mentioned earlier, you can invest in options
for a lifetime and never explicitly borrow money in the process. I believe
that the preceding definition is broad enough to handle both the case of
investment leverage generated through explicit borrowing and the case of
leverage generated by options.
Lets take a look at a few example investments—unlevered, levered
using debt, and levered using options.
Unlevered Investment
Lets say that you buy a stock for exactly $50 per share, expecting that its intrinsic
value is closer to $85 per share. Over the next year, the stock increases by $5,
or 10 percent in value. Y our unrealized percentage gain on this investment is
Understanding and Managing Leverage 165
obviously 10 percent. If instead the stock declines to $45 per share over that
year, you would be sitting on an unrealized percentage loss of 10 percent.
Of course, this is very straightforward. Lets now look at the purchase
of a share of common stock using borrowed capital.
Levered Investment Using Debt
Lets say that to buy a $50 share, you borrow $45 from a bank at an inter -
est rate of 5 percent per year, put in $5 of your own cash, and buy that
same share of stock. Again, lets assume that the stock increases in value by
$5 over one year, closing at $55 per share. At the end of the year, you sell the
stock and pay back the bank loan with interest (a total of $47.25). Doing so,
you realize gross proceeds of $7.75 on an original investment of $5 of your
own capital, which equates to $2.75 in gross profits and implies a percent-
age investment return of 55 percent.
There are three important things to note by comparing the levered
and unlevered examples:
1. The percentage return is much higher for the levered investment
(55 versus 10 percent) because you have reduced the amount of
your own capital at risk much more than you have reduced the
dollar return in the numerator.
2. The actual dollar amount gained is lower in the levered example
($2.75 versus $10). If your investment mandate would have been
“Generate at least $10 worth of investment returns, ” a single unit
of the levered investment would have failed to meet this mandate.
3. Obviously, the underlying asset and its returns are the same in both
levered and unlevered scenarios—we are changing our profit expo-
sure to the underlying, not altering its volatility or other behavior.
To fully understand leverages effects, however, we should also con-
sider the loss scenario. Again, lets assume that we borrow $45 and spend
$5 of our own money to buy the $50 per share stock. We wake the next
morning to news that the company has discovered accounting irregulari-
ties in an important foreign subsidiary that has caused it to misstate reve-
nues and profits for the last three years. The shares suddenly fall 10 percent
on the news. The unrealized loss is $5—the 10 percent fall in stock value
has wiped out 100 percent of our investment capital.
166 •   TheIntelligentOptionInvestor
And herein lies the painful lesson learned by many a soul in the
financial markets: leverage cuts both ways. The profits happily roll in dur-
ing the good times, but the losses inexorably crash down during bad times.
Levered Investment Using Options
Discussing option-based investing leverage is much easier if we focus on
the perspective of gaining exposure. Because most people are more com-
fortable thinking about the long side of investing, lets look at an example
of gaining upside exposure on a company.
Lets assume we see a $50 per share stock that we believe is worth $85 (in
this example, I am assuming that we only have a point estimate of the intrinsic
value of the company so as to simplify the following diagram—normally, it is
much more helpful to think about fair value ranges, as explained in Part II of
this book and demonstrate in the online example). We are willing to buy the
share all the way up to a price of $68 (implying a 25 percent return if bought
at $68 and sold at $85) and can get call options struck at $65 per share for only
$1.50. Graphically, this prospective investment looks like this:
Fair Value Estimate
5/18/2012 5/20/2013 249 499 749 999
-
10
20
30
40
50
60
70
80
90
EBP = $66.50
Date/Day Count
Advanced Building Corp. (ABC)
Stock Price
GREEN
Understanding and Managing Leverage 167
In two years, you are obligated to pay your counterparty $65 if you
want to hold the stock, but the decision as to whether to take possession
of the stock in return for payment is solely at your discretion. In essence,
then, you can look at buying a call option as a conditional borrowing of
funds sometime in the future. Buying the call option, you are saying, “I
may want to borrow $65 two years from now. I will pay you some interest
up front now, and if I decide to borrow the $65 in two years, Ill pay you
that principal then. ”
In graphic terms, we can think about this transaction like this:
5/18/2012 5/20/2013 249 499 749 999
-
10
20
30
40
50
60
70
80
90
$1.50 “prepaid interest”
Contingent loan, the future repayment
of principal is made solely at the
investors own discretion.
Fair Value Estimate
Advanced Building Corp. (ABC)
Date/Day Count
Stock Price
GREEN
If the stock does indeed hit the $85 mark just at the time our option
expires, we will have realized a gross profit of $20 (= $85 $65) on an
investment of $1.50, for a percentage return of 1,233 percent! Obviously,
the call option works very much like a loan in terms of altering the
investors capital at risk and boosting subsequent investment returns.
However, although the leverage looks very similar, there are two impor -
tant differences:
168 •   TheIntelligentOptionInvestor
1. As shown and mentioned earlier, when using an option, payment
on the principal amount of $65 in this case is conditional and com-
pletely discretionary. For an option, the interest payment is made
up front and is a sunk cost.
2. Because repayment is discretionary in the case of an option, you
do not have any financial risk over and above the prepayment of
interest in the form of an option premium. Repayment of a con-
ventional loan is mandatory, so you have a large financial risk if
you cannot repay the principal at maturity in this case.
Regarding the first difference, not only is the loan conditional
and discretionary, the loan also has value and can be transferred to
another for a profit. What I mean is this: if the stock rises quickly, the
value of that option in the open market will increase, and rather than
holding the “loan” to maturity, you can simply sell it with your profits
offsetting the original cost of the prepaid interest plus giving you a
nice profit.
Regarding the second difference, consider this: if you are using bor -
rowed money to invest and your stock drops heavily, the broker will make
a margin call (i.e., ask you to deposit more capital into the account), and
if you cannot make the margin call, the broker will liquidate the position
(most brokers shoot first and ask questions later, simply closing out the
position and selling other assets to cover the loss at the first sign margin
requirements will not be met). If this happens, you can be 100 percent
correct on your valuation long term but still fail to benefit economically
because the position has been forcibly closed. In the case of options, the
underlying stock can lose 20 percent in a single day, and the owner of a
call option will never receive a margin call. The flip side of this benefit
is that although you are not at risk of losing a position to a margin call,
option ownership does not guarantee that you will receive an economic
reward either.
For example, if the option mentioned in the preceding example ex-
pires in two years when the stock is trading at $64.99 and the stock has paid
$2.10 in dividends over the previous two years, the option holder ends up
with neither the stock nor the dividend check.
Understanding and Managing Leverage 169
Simple Ways of Measuring Option
Investment Leverage
There are several single-point, easily calculable numbers to measure
option-based investment leverage. There are uses for these simple measures
of leverage, but unfortunately, for reasons I will discuss, the simple num-
bers are not enough to help an investor intelligently manage a portfolio
containing option positions.
The two simple measures are lambda and notional exposure. Both are
explained in the following sections.
Lambda
The standard measure investors use to determine the leverage in an option
position is one called lambda . Lambda—sometimes known as percent
delta—is a derivative of the delta
1 factor we discussed in Chapter 7 and is
found using the following equation:
= ×Lambda deltas tock price
optionprice
Lets look at an actual example. The other day, I bought a deep in-
the-money (ITM) long-tenor call option struck at $20 when the stock
was trading at $30.50. The delta of the option at that time was 0.8707,
and the price was $11. The leverage in my option position was calculated
as follows:
= × = × =Lambda deltas tock price
optionprice
0.87 30.50
11 2.40
What this figure of 2.4 is telling us is that when I bought that option, if the
price of the underlying moved by 1 percent, the value of my position would
move by about 2.4 percent. This is not a hard and fast number—a change in
price of either the stock or the option (as a result of a change in volatility or
time value or whatever) will change the delta, and the lambda will change
based on those things.
170 •   TheIntelligentOptionInvestor
Because investment leverage comes about by changing the amount
of your own capital that is at risk vis-à-vis the total size of the investment,
you can imagine that moneyness has a large influence on lambda. Lets
take a look at how investment leverage changes for in-the-money (ITM),
at-the-money (ATM), and out-of-the-money (OTM) options. The stock
underlying the following options was trading at $31.25 when these data
were taken, so Im showing the $29 and $32 strikes as ATM:
Strike Price K /S Ratio Call Price Delta Lambda
15.00 0.48 17.30 0.91 1.64
20.00 0.64 11.50 0.92 2.50 ITM
21.00 0.67 11.30 0.86 2.38
22.00 0.70 9.60 0.89 2.90
29.00 0.93 3.40 0.68 6.25
30.00 0.96 2.74 0.61 6.96 ATM
31.00 0.99 2.16 0.54 7.81
39.00 1.25 0.18 0.09 15.63
40.00 1.28 0.13 0.06 14.42 OTM
41.00 1.31 0.09 0.05 17.36
When an option is deep ITM, as in the case of the $20-strike call, we
are making a significant expenditure of our own capital compared with
the size of the investment. Buying a call option struck at $20, we are—
as explained in the preceding section—effectively borrowing an amount
equal to the $20 strike price. In addition to this, we are spending $11.50 in
premium. Of this amount, $11.25 is intrinsic value, and $0.25 is time value.
We can look at the time value portion as the prepaid interest we discussed
in the preceding section, and we can even calculate the interest rate im-
plied by this price (this option had 189 days left before expiration, implying
an annual interest charge of 2.4 percent, for example). This prepaid interest
can be offset partially or fully by profit realized on the position, but it can
never be recaptured so must be considered a sunk cost. Time value always
decays independent of the price changes of the underlying, so although an
Understanding and Managing Leverage 171
upward movement in the stock will offset the money spent on time value,
the amount spent on time value is never recoverable.
The remaining $11.25 of the premium paid for a $20-strike call op-
tion is intrinsic value . Buying intrinsic value means that we are exposing
our own capital to the risk of an unrealized loss if the stock falls below
$31.25. Lambda is directly related to the amount of capital we are exposing
to an unrealized loss versus the size of the “loan” from the option, so be-
cause we are risking $11.25 of our own capital and borrowing $20 with the
option (a high capital-to-loan proportion), our investment leverage meas-
ured by lambda is a relatively low 2.50.
Now direct your attention to a far OTM call option—the one struck
at $39. If we invest in the $39-strike option, we are again effectively
taking out a $39 contingent loan to buy the shares. Again, we take the
time-value portion of the options price—in this case the entire premi-
um of $1.28—to be the prepaid interest (an implied annualized rate of
6.3 percent) and note that we are exposing none of our own capital to
the risk of an unrealized loss. Because we are subjecting none of our
own capital in this investment and taking out a large loan, our invest-
ment leverage soars to a very high value of 15.63. This implies that a
1 percentage point move in the underlying stock will boost our invest-
ment return by over 15 percent!
Obviously, these calculations tell us that our investment returns are
going to be much more volatile for small changes in the underlyings price
when buying far OTM options than when buying far ITM options. This is
fine information for someone interested in more speculative strategies—if
a speculator has the sense that a stock will rise quickly, he or she could,
rather than buying the stock, buy OTM options, and if the stock went up
fast enough and soon enough offset any drop of implied volatility and time
decay, he or she would pocket a nice, highly levered profit.
However, there are several factors that limit the usefulness of lambda.
First, because delta is not a constant, the leverage factor does not stay put
as the stock moves around. For someone who intends to hold a position for
a longer time, then, lambda provides little information regarding how the
position will perform over their investment horizon.
In addition, reading the preceding descriptions of lambda, it is ob-
vious that this measure deals exclusively with the percentage change in
172 •   TheIntelligentOptionInvestor
the options value. Although everyone (especially fly-by-night investment
newsletter editors) likes to tout their percentage returns, we know from
our earlier investigations of leverage that percentage returns are only part
of the story of successful investing. Lets see why using the three invest-
ments I mentioned earlier—an ITM call struck at $20, an OTM call struck
at $39, and a long stock position at $31.
I believe that there is a good chance that this stock is worth north of
$40—in the $43 range, to be precise (my worst-case valuation was $30, and
my best-case valuation was in the mid-$50 range). If I am right, and if this
stock hits the $43 mark just as my options expire,
2 what do I stand to gain
from each of these investments?
Lets take a look.
Spent Gross Profit Net Profit Percent Profit
$39-strike call 0.18 4.00 3.82 2,122
$20-strike call 11.50 23.00 11.50 100
Shares 31.25 43.00 11.75 38
This table means that in the case of the $20-strike call, we spent
$11.50 to win gross proceeds of $23.00 (= $43 $20) and a profit net of
investment of $11.50. Netting $11.50 on an $11.50 investment generates a
percentage profit of 100 percent.
Looking at this chart, the first thing you are liable to notice is the
“Percent Profit” column. That 2,122 percent return looks like something
you might see advertised on an option tout service, doesnt it? Y es, that
percentage return is wonderful, until you realize that the absolute value
of your dollar winnings will not allow you to buy a latte at Starbucks.
Likewise, the 100 percent return on the $20-strike options looks heads and
shoulders better than the measly 38 percent on the shares, until you again
realize that the latter is still giving you more money by a quarter.
Recall the definition of leverage as a way of “boosting investment re-
turns calculated as a percentage, ” and recall that in my previous discussion
of financial leverage, I mentioned that the absolute dollar value is always
highest in the unlevered case. The fact is that many people get excited about
stratospheric percentage returns, but stratospheric percentage returns only
Understanding and Managing Leverage 173
matter if a significant chunk of your portfolio is exposed to those returns!
Lambda is a good measure to show how sensitive percentage returns are to
a move in the stock price, but it is useless when trying to understand what
the portfolio effects of those returns will be on an absolute basis.
Notional Exposure
Look back at the preceding table. Lets say that we wanted to make
lambda more useful in understanding portfolio effects by seeing how
many contracts we would need to buy to match the absolute return of
the underlying stock. Because our expected dollar return of one of the
$39-strike calls only makes up about a third of the absolute return of the
straight stock investment ($3.82 / $11.75 = 32.5% ≈ 1/3), it follows that if
we wanted to make the same dollar return by investing in these call options
that we expect to make by buying the shares, we would have to buy three
of the call options for every share we wanted to buy. Recalling that op-
tions are transacted in contract sizes of 100 shares, we know that if we were
willing to buy 100 shares of Oracles stock, we would have to buy options
implying control over 300 shares to generate the same absolute profit for
our portfolio.
I call this implied control figure notional exposure. Continuing with
the $39-strike example, we can see that the measure of our leverage on the
basis of notional exposure is 3:1. The value of the notional exposure is cal-
culated by multiplying it by the strike; in this case, the notional exposure
of 300 shares multiplied by the strike price of $39 gives a notional value
for the contracts of $11,700. This value is called the notional amount of the
option position.
Some people calculate a leverage figure by dividing the notional amount
by the total cost of the options. In our example, we would pay $18 per con-
tract for three contracts, so leverage measured in this way would work out to
be 217 (= $11,700 ÷ $54). I actually do not believe this last measure of lever-
age to be very helpful, but notional control will become important when we
talk about the leverage of short-call spreads later in this chapter.
These simple methods of measuring leverage have their place in ana-
lyzing option investment strategies, but in order to really master leverage,
you must understand leverage in the context of portfolio management.
174 •   TheIntelligentOptionInvestor
Understanding Leverages Effects on a Portfolio
Looking at leverage from a lambda or notional control perspective gives
some limited information about leverage, but I believe that the best way
to think about option-based investment leverage is to think about the ef-
fect of leverage on an actual portfolio allocation basis. This gives a richer,
more nuanced view of how leverage stands to help or hurt our portfolio
and allows us more insight into how we can intelligently structure a mixed
option-stock portfolio.
Lets start our discussion of leverage in a portfolio context by thinking
about how to select investments into a portfolio. We will assume that we
have $100 in cash and want to use some or all of that cash to invest in risky
securities. Cash is riskless (other than inflation risk, but lets ignore that
for a moment), so the risk we take on in the portfolio will be dampened
by keeping cash, and the returns we will win from the portfolio will be
similarly dampened.
We have a limited amount of capital and want to allocate that capital
to risky investments in proportion to two factors:
1. The amount we think we can gain from the investment
2. Our conviction in the investment, which is a measure of our per -
ception of the riskiness of the investment
We might see a potential investment that would allow us to reap a profit
of $9 for every $1 invested (i.e., we would gain a great deal), but if our
conviction in that investment is low (i.e., we think the chance of winning
$9 for every $1 invested is very low), we would likely not allocate much of
our portfolio to it.
In constructing a portfolio, most people set a limit on the proportion
of their portfolio they want to allocate to any one investment. I personally
favor more concentrated positions, but lets say that you paid better atten-
tion to your finance professor in school than I did and figure that you want
to limit your risk exposure to any one security to a maximum of $5 of your
$100 portfolio.
An unlevered portfolio means that each $5 allocation would be made
by spending $5 of your own capital. Y ou would know that if the value of
the underlying security decreases by $2.50, the value of the allocation will
Understanding and Managing Leverage 175
also fall to $2.50. If, instead, the value of the underlying security increases
by $2.50, the value of that allocation will rise to $7.50.
In a levered portfolio, each $5 allocation uses some proportion of
capital that is not yours—borrowed in the case of a margin loan and con-
tingently borrowed in the case of an option. This means that for every
$1 increase or decrease in the value of the underlying security, the lev-
ered allocation increases or decreases by more than $1. Leverage, in this
context, represents the rate at which the value of the allocation increases
or decreases for every one-unit change in the value of the underlying
security.
When thinking about the risk of leverage, we must treat different types
of losses differently. A realized loss represents a permanent loss of capital—a
sunk cost for which future returns can offset but never undo. An unrealized
loss may affect your psychology but not your wealth (unless you need to
realize the loss to generate cash flow for something else—I talk about this
in Chapter 11 when I address hedging). For this reason, when we measure
how much leverage we have when the underlying security declines, we will
measure it on the basis of how close we are to suffering a realized loss rather
than on the basis of the unrealized value of the loss. Leverage on the profit
side will be handled the same way: we will treat our fair value estimate as the
price at which we will realize a gain. Because the current market price of a
security may not sit exactly between our fair value estimate and the point at
which we suffer a realized loss, our upside and downside leverage may be
different.
Lets see how this comes together with an actual example. For this ex-
ample, I looked at the price of Intels (INTC) shares and options when the
former were trading at $22.99. Lets say that we want to commit 5 percent
of our portfolio value to an investment in Intel, which we believe is worth
$30 per share. For every $100,000 in our portfolio, this would mean buying
217 shares. This purchase would cost us $4,988.83 (neglecting taxes and
fees, of course) and would leave us with $11.17 of cash in reserve. After we
made the buy, the stock price would fluctuate, and depending on what its
price was at the end of 540 days [Im using as an investment horizon the
days to expiration of the longest-tenor long-term equity anticipation secu-
rities (LEAPS)], the allocations profit and loss profile would be represented
graphically like this:
176 •   TheIntelligentOptionInvestor
02468 10 12 14 16 18 20 22 24
Stock Price
Unlevered Investment (Full Allocation)
Gain (Loss) on Allocation
26 28 30 32 34 36 38 40 42 44 46 48 50(6,000)
(4,000)
(2,000)
-
2,000
4,000
6,000
8,000
Unrealized Gain
Unrealized Loss
Cash Value
Net Gain (Loss) - Unlevered
Realized Loss
Here the future stock price is listed from 0 to 50 on the horizontal axis,
and the net profit or loss to this position is listed on the vertical axis. Obvious-
ly, any gain or loss would be unrealized unless Intels stock price went to zero,
at which point the total position would only be worth whatever spare cash we
had. The black profit and loss line is straight—the position will lose or gain on
a one-for-one basis with the price of the stock, so our leverage is 1.0.
Now that we have a sense of what the graph for a straight stock
position looks like, lets take a look at a few different option positions.
When I drew the data for this example, the following 540-day expiration
call options were available:
Strike Price Ask Price Delta
15 8.00 0.79
22 2.63 0.52
25 1.43 0.35
Lets start with the ITM option and construct a simple-minded posi-
tion that attempts to buy as many of these option contracts as possible with
the $5,000 we have reserved for this investment. We will pay $8 per share
Understanding and Managing Leverage 177
or $800 per contract, which would allow us to buy six contracts in all for
$4,800. There is only $0.01 worth of time value (= $15.00 + $8.00 $22.99)
on these options because they are so far ITM. This means that we are pay-
ing $1 per contract worth of time value that is never recoverable, so we
shall treat it as a realized loss. If we were to graph our potential profit and
loss profile using this option, assuming that we are analyzing the position
just as the 540-day options expire, we would get the following
3:
Net Gain (Loss) - Levered
0246810 12 14 16 18 20 22 24
Stock Price
Levered Strategy Overview
Gain (Loss) on Allocation
26 28 30 32 34 36 38 40 42 44 46 48 50(10,000)
(5,000)
-
5,000
10,000
Unrealized Gain
Unrealized Loss
Cash Value
Realized Loss
15,000
20,000
The most obvious differences from the diagram of the unlevered po-
sition are (1) that the net gain/loss line is kinked at the strike price and
(2) that we will realize a total loss of invested capital—$4,800 in all—if
Intels stock price closes at $15 or below. The kinked line demonstrates the
meaning of the first point made earlier regarding option-based investment
leverage—an asymmetrical return profile for profits and losses. Note that
this kinked line is just the hockey-stick representation of option profit and
loss at expiration that one sees in every book about options except this
one. Although I dont believe that hockey-stick diagrams are terribly useful
for understanding individual option transactions, at a portfolio level, they
do represent the effect of leverage very well. This black line represents a
178 •   TheIntelligentOptionInvestor
levered position, and its slope is much steeper than that of an equivalent
line showing net profit and loss on an unlevered position. A comparison of
the two net profit lines on the same graph shows this clearly:
02468 10 12 14 16 18 20 22 24
Stock Price
Profit and Loss Profile for Levered and Unlevered Investments
Gain (Loss) on Allocation
26 28 30 32 34 36 38 40 42 44 46 48 50
(10,000)
(5,000)
-
5,000
10,000
15,000
20,000
Net Gain (Loss) - Unlevered
Net Gain (Loss) - Levered
Looking at this diagram, you will notice the following things about
the risk and return characteristics of the two positions:
Investment Maximum Loss Price
Net Profit at Fair
Value Estimate
Stock $0 $1,472
Option $15 (2.8 × stock loss) $4,200 (3.0 × stock profit)
The leverage on the stock loss and the leverage on the stock profit are
nearly equal in this instance because the point at which we realize a loss
($15) is just about the same distance below the market price as our pre-
sumed fair value ($30) is above. The leverage to loss is calculated as
=Loss leverage realized loss as ap ercent of allocation
percents tock declinet or ealizedl oss
Understanding and Managing Leverage 179
In this example, we suffer a realized loss of 96 percent (= $4,800 ÷
$5,000) if the stock falls 35 percent, so the equation becomes
= = ×Lossleverage 96%
35% 2.8
(By convention, Ill always write the loss leverage as a negative.) This
equation just means that it takes a drop of 35 percent to realize a loss on
96 percent of the allocation.
The profit leverage is simply a ratio of the levered portfolios net profit
to the unlevered portfolios net profit at the fair value estimate. For this
example, we have
== ×Profitleverage $4,200
$1,472 3.0
Lets do the same exercise for the ATM and OTM options and see
what fully levered portfolios with each of these options would look like
from a risk-return perspective. If we bought as many $22-strike options as
a $5,000 position size would allow (19 contracts in all), our profit and loss
graph and table would look like this:
02468 10 12 14 16 18 20 22 24
Stock Price
Levered Strategy Overview
Gain (Loss) on Allocation
26 28 30 32 34 36 38 40 42 44 46 48 50(20,000)
-
40,000
60,000
80,000
100,000
20,000
Unrealized Gain
Unrealized Loss
Cash Value
Net Gain (Loss) - Levered
Realized Loss
180 •   TheIntelligentOptionInvestor
Instrument Maximum-Loss Price Net Profit at Fair Value Estimate
Stock $0 $1,472
Option $22 (23.2 × stock loss) $10,203 (6.9 × stock profit)
This is quite a handsome potential profit—6.9 times higher than we
could earn using a straight stock position—but at an enormous risk. Each
$1 drop in the stock price equates to a $23.20 drop in the value of the posi-
tion. Note that the realized loss shows a step up from $22 to $23. This just
shows that above the strike price, our only realized loss is the money we
spent on time value.
The last example is that of the fully levered OTM call options. Here is
the table illustrating this case:
Instrument Maximum-Loss Price Net Profit at Fair Value Estimate
Stock $0 $1,472
Option $25 (IRL 5 percent) $12,495 (8.5 × stock profit)
There is no intrinsic value to this option, so the entire cost of
the option is treated as an immediate realized loss (IRL) from inception.
The “IRL 5 percent” notation means that there is an immediate realized
loss of 5 percent of the total portfolio. The maximum net loss is again at
the strike price of $25. The leverage factor at our fair value estimate price
is 8.5, but again this leverage comes at the price of having to realize a
5 percent loss on your portfolio—500 basis points of performance—and
there is no certainty that you will have enough or any profits to offset this
realized loss.
Of course, investing choices are not as black and white as what I have
presented here. If you want to commit 5 percent of your portfolio to a
straight stock idea, you have to spend 5 percent of your portfolio value on
stock, but this is not true for options. For example, I might choose to spend
2.5 percent of my portfolios worth on ATM calls (nine contracts in this ex-
ample), considering the position in terms of a 5 percent stock investment,
and then leave the rest as cash reserve. Here is what this investment would
look like from a leverage perspective:
Understanding and Managing Leverage 181
02468 10 12 14 16 18 20 22 24
Stock Price
Levered Strategy Overview
Gain (Loss) on Allocation
26 28 30 32 34 36 38 40 42 44 46 48 50(5,000)
-
15,000
10,000
20,000
25,000
30,000
5,000
Unrealized Gain
Unrealized Loss
Cash Value
Net Gain (Loss) - Levered
Realized Loss
Instrument Maximum-Loss Price Net Profit at Fair Value Estimate
Stock $0 $1,472
Option $22 (11 × stock loss) $4,833 (5.1 × stock profit)
The 11 times loss figure was calculated in the following way: there is a
total of 47.3 percent of my allocation to this investment that is lost if the price
of the stock goes down by 4.3 percent, so 47.3 percent/4.3 percent = 11.0.
Obviously, this policy of keeping some cash in reserve represents a sensible ap-
proach to portfolio management when leverage is used. An investor in straight
stock who makes 20 investments that do not hit his or her expected fair value
within the investment horizon might have a few bad years of performance, but
an investor who uses maximum option leverage and allocates 5 percent to 20
ideas will end up bankrupt if these dont work out by expiration time!
Similar to setting a cash reserve, you also might decide to make an
investment that combines cash, stock, and options. For example, I might
buy 100 shares of Intel, three ITM option contracts, and leave the rest of
my 5 percent allocation in cash. Here is what that profit and loss profile
would look like:
182 •   TheIntelligentOptionInvestor
0 24681 01 21 41 61 82 02 22 4
Stock Price
Levered Strategy Overview
Gain (Loss) on Allocation
26 28 30 32 34 36 38 40 42 44 46 48 50(6,000)
(4,000)
(2,000)
-
4,000
2,000
6,000
10,000
12,000
8,000 Unrealized Gain
Unrealized Loss
Cash Value
Net Gain (Loss) - Levered
Realized Loss
Instrument Maximum-Loss Price Net Profit at Fair Value Estimate
Stock $0 $1,472
Option $15 (1.8 × stock loss) $3,803 (2.6 × stock profit)
Three $800 option contracts represent $2,400 of capital or 48 percent of
this allocations capital. Thus 48 percent of the capital was lost with a 34.8 per-
cent move downward in the stock, generating a 1.4 times value for the options
plus we add another 0.4 times value to represent the loss on the small stock
allocation; together these generate the 1.8 times figure you see on the loss side.
Of course, if the option loss is realized, we still own 100 shares, so the maximum
loss will not be felt until the shares hit $0, as shown in the preceding diagram.
For the remainder of this book I will describe leverage positions us-
ing the two following terms: loss leverage and profit leverage . I will write
these in the following way:
X.x
Y.y
where the first number will be the loss leverage ratio, and the second
number will be the profit leverage ratio based on the preceding rules that
Understanding and Managing Leverage 183
Ive used for calculation. All OTM options will be marked with an IRL fol-
lowed by the percentage of the total portfolio used in the option purchase
(not the percentage of the individual allocation but the total percentage
amount of your investment capital). On my website, youll find an online
leverage tool that allows you to calculate these numbers yourself.
Managing Leverage
A realized loss is, to me, serious business. There are times when an inves-
tor must take a realized loss—specifically when his or her view of the fair
value or fair value range of a company changes materially enough that an
investment position becomes unattractive. However, if you find yourself
taking realized losses because of material changes in valuation too often,
you should either figure out where you are going wrong in the valuation
process or just put your money into a low-load mutual fund and spend
your time doing something more productive.
The point is that taking a realized loss is not something you have to do
too often if you are a good investor, and hopefully, when those losses are taken,
they are small. As such, I believe that there are two ways to successfully manage
leverage. First is to use leverage sparingly by investing in combinations of ITM
options and stocks. ITM option prices mainly represent intrinsic value, and be-
cause the time-value component is that which represents a realized loss right out
of the gate, buying ITM options means that you are minimizing realized losses.
The second method for managing leverage when you cannot resist
taking a higher leverage position is spending as little as possible of your
investment capital on it. This means that when you see that there is a com-
pany that has a material chance of being worth a lot more or a lot less than
it is traded for at present but that material chance is still much less likely
than other valuation scenarios, you should invest your capital in the idea
sparingly. By making smaller investments with higher leverage, you will
not realize a loss on too much of your capital at one time, and if you are
right at least some of the time on these low-probability, high-potential-
reward bets, you will come out ahead in the end.
Of course, you also can use a combination of these two methods. For
example, I have found it helpful to take the main part of a position using a
184 •   TheIntelligentOptionInvestor
combination of stock and ITM call options but also perhaps buying a few
OTM call options as well. As the investment ages and more data about the
companys operations come in, if this information leads me to be more
bullish about the prospects of the stock, I may again increase my leverage
using OTM call options—especially when I see implied volatility trading at
a particularly low level or if the stock price itself is depressed because of a
generally weak market.
I used to be of the opinion that if you are confident in your valuation
and your valuation implies a big enough unlevered return, it is irrational
not to get exposure to that investment with as much leverage as possible.
A few large and painful losses of capital have convinced me that where-
as levering up on high-conviction investments is theoretically a rational
investment regime, practically, it is a suckers game that is more likely to
deplete your investment capital than it is to allow you to hit home runs.
Y ounger investors, who still have a long investing career ahead of
them and plenty of time to make up for mistakes early on, probably can
feel more comfortable using more leverage, but as you grow closer to the
time when you need to use your investments (e.g., paying for retirement,
kids college expenses, or whatever), using lower leverage is better.
Looking back at the preceding tables, one row in one table in particular
should stand out to you. This is the last row of the last table, where the leverage is
1.8/2.6. To me, this is a very attractive leverage ratio because of the asymmetry
in the risk-reward balance. This position is levered, but the leverage is lopsided
in the investors favor, so the investor stands to win more than he or she loses.
This asymmetry is the key to successful investing—not only from a
leverage standpoint but also from an economic standpoint as well. I believe
an intelligent, valuation-centric method for investing in companies such as
the ones outlined in this book that allow investors an edge up by allowing
them to identify cases in which the valuation simply does not line up with
the market price. This in itself presents an asymmetrical profit opportunity,
and the real job of an intelligent investor is to find as large an asymmetry
as possible and courageously invest in that company. If you can also tailor
your leverage such that your payout is asymmetrical in your favor as well,
this only adds potential for outsized returns, in my opinion.
The other reason that the 1.8/2.6 leverage ratio investment interests
me is because of the similarity it has to the portfolio of Warren Buffetts
Understanding and Managing Leverage 185
Berkshire Hathaway (BRK.A). In a recent academic paper written by re-
searchers at AQR Capital titled, “Buffetts Alpha, ”4 the researchers found
that a significant proportion of Buffetts legendary returns can be attributed
to finding firms that have low valuation risk and investing in them using a
leverage ratio of roughly 1.8. The leverage comes from the float from his in-
surance companies (the monies paid in premium by clients over and above
that required to pay out claims). As individual investors, we do not have a
captive insurance company from which we can receive continual float, but
by buying options and using leverage prudently, it is possible to invest in a
manner similar to a master investor.
In this section, we have only discussed leverage considerations when
we gain exposure by buying options. There is a good reason to ignore the
case where we are accepting exposure by selling options that we will dis-
cuss when we talk about margining in Chapter 10. We now continue with
chapters on gaining, accepting, and mixing exposure. In these chapters, we
will use all of what we have learned about option pricing, valuation, and
leverage to discuss practical option investment strategies.
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187
Chapter 9
GaininG ExposurE
This chapter is designed as an encyclopedic listing of the main strategies
for gaining exposure (i.e., buying options) that an intelligent option inves-
tor should understand. Gaining exposure seems easy in the beginning be-
cause it is straightforward—simply pay your premium up front, then if the
stock moves into your options range of exposure by expiration time, you
win. However, the more you use these strategies in investing exposure, the
more nuances arise.
What tenor should I choose? What strike price should I choose?
Should I exercise early if my option is in the money (ITM)? How much
capital should I commit to a given trade? If the stock price goes in the
opposite direction from my options range of exposure, should I close
my option position? All these questions are examples of why gaining
exposure by buying options is not as straightforward a process as it
may seem at first and are all the types of questions I will cover in the
following pages.
Gaining exposure means buying options, and the one thing that an
option buyer must never lose sight of is that time is always working against
him or her. Options expire. If your options expire out of the money (OTM),
the capital you spent on premiums on those options is a realized loss. No
matter how confident you are about your valuation call, you should al-
ways keep this immutable truth of option buying in mind. Indeed, there
are ways to reduce the risk of this happening or to manage a portfolio in
188 •   TheIntelligentOptionInvestor
such a way that such a loss of capital becomes just a cost of doing business
that will be made up for in another investment down the line.
For each of the strategies mentioned in this chapter, I present
a stylized graphic representing the Black-Scholes-Merton model
(BSM) cone and the options range of exposure plus best- and worst-
case valuation scenarios. These are two of the required inputs for an
intelligent option investing strategy—an intelligently determined valu-
ation range and the mechanically determined BSM forecast range. I will
also provide a summary of the relative pricing of upside and downside
exposure vis-à-vis an intelligent valuation range (e.g., “Upside expo-
sure is undervalued”), the steps taken to execute the strategy, and its
potential risks and return.
After this summary section, I provide textual discussions of tenor se-
lection, strike price selection, portfolio management (i.e., rolling, exercise,
etc.), and any miscellaneous items of interest to note. Understanding the
strategies well and knowing how to use the tools at your disposal to tilt
the balance of risk and reward in your favor are the hallmark and pinnacle
of intelligent option investing. Intelligent option investors gain exposure
when the market underestimates the likelihood of a valuation that the in-
vestor believes is a rational outcome. In graphic terms, this means that ei-
ther one or both of the investors best- and worst-case valuation scenarios
lie outside the BSM cone.
Simple (one-option) strategies to gain exposure include
• Long calls
• Long puts
Complex (multioption) strategies to gain exposure include
• Long strangles
• Long straddles
Jargon introduced in this chapter includes the following:
Roll
Ratio(ing)
Gaining Exposure • 189
Long Call
GREEN
Downside: Fairly priced
Upside: Undervalued
Execute: Buy a call option
Risk: Amount equal to premium paid
Reward: Unlimited less amount of premium paid
The Gist
An investor uses this strategy when he or she believes that there is a material
chance that the value of a company is much higher than the present market price.
The investor must pay a premium to initiate the position, and the proportion of
the premium that represents time value should be recognized as a realized loss
because it cannot be recovered. If the stock fails to move into the area of exposure
before option expiration, there will be no profit to offset this realized loss.
In economic terms, this transaction allows an investor to go long an
undervalued company without accepting an uncertain risk of loss if the
stock falls. Instead of the uncertain risk of loss, one must pay the fixed pre-
mium. This strategy obeys the same rules of leverage as discussed earlier
in this book, with in-the-money (ITM) call options offering less leverage
but being much more forgiving regarding timing than are at-the-money
(ATM) or especially out-of-the-money (OTM) options.
190 •   TheIntelligentOptionInvestor
T enor Selection
In general, the rule for gaining exposure is to buy as long a tenor as is
available. If a stock moves up faster than you expected, the option will still
have time value left on it, and you can sell it to recoup the extra money you
spent to buy the longer-tenor option. In addition, long-tenor options are
usually proportionally less expensive than shorter-tenor ones. Y ou can see
this through the following table. These ask prices are for call options on
Google (GOOG) struck at whatever price was closest to the 50-delta mark
for every tenor available.
Days to Expiration Ask Price Marginal Price/Day Delta
3 6.00 2.00 52
10 10.30 0.61 52
17 12.90 0.37 52
24 15.50 0.37 52
31 17.70 0.31 52
59 22.40 0.17 49
87 34.40 0.43 50
150 42.60 0.13 50
178 47.30 0.17 50
241 56.00 0.14 50
542 86.40 0.10 50
The “Marginal Price/Day” column is simply the extra that you pay to get
the extra days on the contract. For example, the contract with three days left is
$6.00. For seven more days of exposure, you pay a total of $4.30 extra, which
works out to a per-day rate of $0.61. We see blips in the marginal price per
day field as we go from 59 to 87 to 150 days, but these are just artifacts of data
availability; the closest strikes did not have the same delta for each expiration.
The preceding chart, it turns out, is just the inverse of the rule we
already learned in Chapter 3: “time value slips away fastest as we get closer
to expiration. ” If time value slips away more quickly nearer expiration, it
must mean that the time value nearer expiration is proportionally worth
more than the time value further away from expiration. The preceding
table simply illustrates this fact.
Gaining Exposure • 191
Value investors generally like bargains and to buy in bulk, so we
should also buy our option time value “in bulk” by buying the longest
tenor available and getting the lowest per-day price for it. It follows that if
long-term equity anticipation securities (LEAPS) are available on a stock,
it is usually best to buy one of those. LEAPS are wonderful tools because,
aside from the pricing of time value illustrated in the preceding table, if
you find a stock that has undervalued upside potential, you can win from
two separate effects:
1. The option market prices options as if underlying stocks were ef-
ficiently priced when they may not be (e.g., the market thinks that
the stock is worth $50 when its worth $70). This discrepancy gives
rise to the classic value-investor opportunity.
2. As long as interest rates are low, the drift term understates the ac-
tual, probable drift of the stock market of around 10 percent per
year. This effect tends to work for the benefit of a long-tenor call
option whether or not the pricing discrepancy is as profound as
originally thought.
There are a couple of special cases in which this “buy the longest
tenor possible” rule of thumb should not be used. First, if you believe
that a company may be acquired, it is best to spend as little on time value
as possible. I will discuss this case again when I discuss selecting strike
prices, but when a company agrees to be acquired by another (and the
market does not think there will be another offer and regulatory approv-
als will go through), the time value of an option drops suddenly because
the expected life of the stock as an independent entity has been short-
ened by the acquiring company. This situation can get complicated for
stock-based acquisitions (i.e., those that use stocks as the currency of
acquisition either partly or completely) because owners of the acquirees
options receive a stake in the acquirers options with strike price adjusted
in proportion to the acquisition terms. In this case, the time value on
your acquiree options would not disappear after the acquisition but be
transferred to the acquirers companys options. The real point is that it
is impossible, as far as I know, to guess whether an acquisition will be
made in cash or in shares, so the rule of thumb to buy as little time value
as possible still holds.
192 •   TheIntelligentOptionInvestor
In general, attempting to profit from potential mergers is dif-
ficult using options because you have to get both the timing of the
suspected transaction and the acquisition price correct. I will discuss
a possible solution to this situation in the next section about picking
strike prices.
The second case in which it is not necessary to buy as long a tenor as
possible is when you are trading in expectation of a particular company
announcement. In general, this game of anticipating stock price move-
ments is a hard one to win and one that value investors usually steer clear
of, but if you are sure that some announcement scheduled for a particular
day or week is likely to occur but do not want to make a long-term invest-
ment on the company, you can buy a shorter-tenor option that obviously
must include the anticipated announcement date. It is probably not a bad
idea to build in a little cushion between your expiration and the anticipated
date of the announcement because sometimes announcements are pushed
back and rescheduled.
Strike Price Selection
From the discussion regarding leverage in the preceding section, it is
clear that selecting strike prices has a lot to do with selecting what level
of leverage you have on any given bet. Ultimately, then, strike selec-
tion—the management of leverage, in other words—is intimately tied
to your own risk profile and the degree to which you are risk averse or
risk seeking.
My approach, which I will talk more about in the following section
on portfolio management, may be too conservative for others, but I put it
forward as one alternative among many that I have found over time to be
sensible. Any investment has risk to the extent that there is never perfect
certainty regarding a companys valuation. Some companies have a fairly
tight valuation range—meaning that the confluence of their revenue stream,
profit stream, and investment efficacy does not vary a great deal from best to
worst case. Other companies valuation ranges are wide, with a few clumps
of valuation scenarios far apart or with just one or two outlying valuation
scenarios that, although not the most likely, are still materially probable.
Gaining Exposure • 193
On the rare occasion in which we find a company that has a valuation
range that is far different from the present market price (either tight
or wide), I would rather commit more capital to the idea, and for me,
committing more capital to a single idea means using less leverage. In other
words, I would prefer to buy an ITM call and lever at a reasonable rate (e.g.,
the 1.8 × /2.6 × level we saw in the Intel example earlier). Graphically, my
approach would look like this:
Advanced Building Corp. (ABC)
110
100
90
80
70
60
50
40
30
20
5/18/2012 5/20/2013 249 499 749 999
Date/Day Count
Stock Price
GREEN
ORANGE
Here I have bought a deep ITM call option LEAPS that gives me lev-
erage of about 1.5/2.0. I have maximized my tenor and minimized my
leverage ratio with the ITM call. This structure will allow me to profit as
long as the stock goes up by the time my option expires, even if the stock
price does not hit a certain OTM strike price.
In the more common situation, in which we find a company that is
probably about fairly valued in most scenarios but that has an outlying
valuation scenario or two that doesnt seem to be priced in properly by
the market, I will commit less capital to the idea but use more leverage.
Graphically, my approach would look more like this:
194 •   TheIntelligentOptionInvestor
Advanced Building Corp. (ABC)
100
90
80
70
60
50
40
30
20
5/18/2012 5/20/2013 249 499 749 999
Date/Day Count
Stock Price
GREEN
Here I have again maximized my tenor by buying LEAPS, but this
time I increase my leverage to something like an “IRL/10.0” level in case
the stars align and the stock price sales to my outlier valuation.
Some people would say that the IIM approach is absolutely the op-
posite of a rational one. If you are—the counterargument goes—confident
in your valuation range, you should try to get as much leverage on that idea
as possible; buying an ITM option is stupid because you are not using the
leverage of options to their fullest potential. This counterargument has its
point, but I find that there is just too much uncertainty in the markets to be
too bold with the use of leverage.
Options are time-dependent instruments, and if your option expires
worthless, you have realized a loss on whatever time value you original-
ly spent on it. Economies, now deeply intertwined all over the globe, are
phenomenally complex things, so it is the height of hubris to claim that
I can perfectly know what the future value of a firm is and how long it will
take for the market price to reflect that value. In addition, I as a human
decision maker am analyzing the world and investments through a con-
genital filter based on behavioral biases.
Retaining my humility in light of the enormous complexity of the
marketplace and my ingrained human failings and expressing this humility
Gaining Exposure • 195
by using relatively less leverage when I want to commit a significant amount
of capital to an idea constitute, I have found, given my risk tolerance and
experience, the best path for me for a general investment.
In contrast, we all have special investment loves or wild hares or
whatever, and sometimes we must express ourselves with a commitment
of capital. For example, “If XYZ really can pull it off and come up with a
cure for AIDS, its stock will soar. ” In instances such as these, I would rather
commit less capital and express my doubt in the outcome with a smaller
but more highly levered bet. If, on average, my investment wild hares come
true every once in a while and, when they do, the options Ive bought on
them pay off big enough to more than cover my realized losses on all those
that did not, I am net further ahead in the end.
These rules of thumb are my own for general investments. In the spe-
cial situation of investing in a possible takeover target, there are a few extra
considerations. A company is likely to be acquired in one of two situations:
(1) it is a sound business with customers, product lines, or geographic
exposure that another company wants, or (2) it is a bad business, either
because of management incompetence, a secular decline in the business, or
something else, but it has some valuable asset(s) such as intellectual prop-
erty that a company might want to have.
If you think that a company of the first sort may be acquired, I be-
lieve that it is best to buy ITM call options to attempt to minimize the time
value spent on the investment (you could also sell puts, and I will discuss
this approach in Chapter 10). In this case, you want to minimize the time
value spent because you know that the time value you buy will drain away
when a takeover is announced and accepted. By buying an ITM contract,
you are mainly buying intrinsic value, so you lose little time value if and
when the takeover goes through. If you think that a company of the second
sort (a bad company in decline) may be acquired, I believe that it is best to
minimize the time value spent on the investment by not buying a lot of call
contracts and by buying them OTM. In this case, you want to minimize the
time value spent using OTM options by limiting the number of contracts
bought because you do not want to get stuck losing too much capital if
and when the bad companys stock loses value while you are holding the
options. Typical buyout premiums are in the 30 percent range, so buy-
ing call options 20 percent OTM or so should generate a decent profit if
196 •   TheIntelligentOptionInvestor
the company is taken out. Just keep in mind that the buyout premium is
30 percent over the last price, not 30 percent over the price at which you
decided to make your investment. If you buy 20 percent OTM call options
and the stock decreases by 10 percent before a 30 percent premium buyout
is announced, you will end up with nothing, as shown in the following
timeline:
$12-Strike Options Bought When the Stock Is Trading for $10
• Stock falls to $9.
• Buyout is announced at 30 percent above last price—$11.70.
• 12-strike call owners profit = $0.
However, there is absolutely no assurance that an acguirer will pay some-
thing for a prospective acguiree. Depending on how keen the acquirer is to get
its hands on the assets of the target, it may actually allow the target company
to go bankrupt and then buy its assets at $0.30 on the dollar or whatever. It is
precisely this uncertainty that makes it unwise to commit too much capital to
an idea involving a bad company—even if you think it may be taken out.
Portfolio Management
I like to think of intelligent option investing as a meal. In our investment
meal, the underlying instrument—the stock—should, in most cases, form
the main course.
People have different ideas about diversification in a securities portfolio
and about the maximum percentage of a portfolio that should be allocated to
a specific idea. Clearly, most people are more comfortable allocating a greater
percentage of their portfolio to higher-confidence ideas, but this is normal-
ly framed in terms of relative levels (i.e., for some people, a high-conviction
idea will make up 5 percent of their portfolio and a lower-conviction one
2.5 percent; for others, a high-conviction idea will make up 20 percent of their
portfolio and a lower-conviction one 5 percent). Rather than addressing what
size of investment meal is best to eat, lets think about the meals composition.
Considering the underlying stock as the main course, I consider the
leverage as sauces and side dishes. ITM options positions are the main
Gaining Exposure • 197
sauce to make the main course more interesting and flavorful. Y ou can
layer ITM options onto the stock to increase leverage to a level with which
you feel comfortable. This does not have to be Buffetts 1.8:1 leverage of
course. Levering more lightly will provide less of a kick when a company
performs according to your best-case scenario, but also carries less risk
of a severe loss if the companys performance is mediocre or worse. OTM
option positions (and “long diagonals” to be discussed in Chapter 11) can
be thought of as a spicy side dish to the main meal. They can be added
opportunistically (when and if the firm in which you are investing has a
bad quarter and its stock price drops for temporary reasons involving sen-
timent rather than substance) for extra flavor. OTM options can also be
used as a snack to be nibbled on between proper meals. Snack, in this case,
means a smaller sized position in firms that have a small but real upside
potential but a greater chance that it is fairly valued as is, or in a company
in which you dont have the conviction in its ability to create much value
for you, the owner.
Another consideration regarding the appropriate level of investment
leverage one should apply to a given position is how much operational
and financial leverage (both are discussed in detail in Appendix B) a firm
has. A firm that is highly levered will have a much wider valuation range
and will be much more likely to be affected by macroeconomic considera-
tions that are out of the control of the management team and inscrutable
to the investor. In these cases, I think the best response is to adjust ones
investment leverage according to the principles of “margin of safety” and
contrarianism.
By creating a valuation range, rather than thinking only of a single point-
estimate for the value of the firm, we have unwittingly allowed ourselves to
become very skillful at picking appropriate margins of safety. For example, I
recently looked at the value of a company whose stock was trading for around
$16 per share. The company had very high operational and financial lever-
age, so my valuation range was also very large—from around $6 per share
worst case to around $37 per share best case with a most likely value of around
$25 per share. The margin of safety is 36 percent (= ($25 $16)/ $25).
While some might think this is a reasonable margin of safety to take a bold,
concentrated position, I elected instead to take a small, unlevered one because
to me, the $9 margin of safety for this stock is still not wide enough. The best
198 •   TheIntelligentOptionInvestor
time to take a larger position and to use more leverage is when the market is
pricing a stock as if it were almost certain that a company will face a worst-case
future when you consider this worst-case scenario to be relatively unlikely. In
this illustration, if the stock price were to fall by 50 percent—to the $8 per share
level—while my assessment of the value of the company remained unchanged
(worst, likely, and best case of $6, $25, and $37, respectively), I would think I
had the margin of safety necessary to commit a larger proportion of my portfo-
lio to the investment and add more investment leverage. With the stock sitting
at $8 per share, my risk ($8 $6 = $2) is low and unlikely to be realized while
my potential return is large and much closer to being assured. With the stocks
present price of $16 per share, my risk ($16 $6 = $10) is large and when bad-
case scenarios are factored in along with the worst-case scenario, more likely
to occur.
Thinking of margins of safety from this perspective, it is obvious that
one should not frame them in terms of arbitrary levels (e.g., “I have a rule
to only buy stocks that are 30% or lower than my fair value estimate. ”), but
rather in terms informed by an intelligent valuation range. In this example,
a 36 percent margin of safety is sufficient for me to commit a small
proportion of my portfolio to an unlevered investment, but not to go “all
in. ” For a concentrated, levered position in this investment, I would need a
margin of safety approaching 76 percent (= ($25 $6)/$25) and at least over
60 percent (= ($25 - $10)/$25).
When might such a large margin of safety present itself? Just when
the market has lost all hope and is pricing in disaster for the company.
This is where the contrarianism comes into play. The best time to make
a levered investment in a company with high levels of operational lever -
age is when the rest of the market is mainly concerned about the possible
negative effects of that operational leverage. For example, during a reces-
sion, consumer demand drops and idle time at factories increases. This
has a quick and often very negative effect on profitability for companies
that own the idle factories, and if conditions are bad enough or look to
have no near-term (i.e., within about six months) resolution, the price of
those companies stocks can plummet. Market prices often fall so low as to
imply, from a valuation perspective, that the factories are likely to remain
idled forever. In these cases, I believe that not using investment leverage in
this case may carry with it more real risk than using investment leverage
Gaining Exposure • 199
(see my discussion of risk in Chapter 12 after reading the paragraphs below
about financial leverage).
In boom times, just the opposite is true. Factories are nearing full
capacity and demand is strong. Most of the market is thinking only of the
extra percentage points of profit that can be squeezed out of the opera-
tions when continuing strong demand pushes factory capacity even higher.
As every contrarian knows, this is precisely the wrong time to fall in love
with the stock of an operationally levered company; it is also precisely the
wrong time to use investment leverage to gain exposure to the stock of an
operationally levered company.
Financial leverage is more dangerous and requires a much more care-
ful consideration of valuation scenarios, especially if the economy is in or is
going into recession. In recessions, consumer demand for products slows,
but banks and bondholders demand for interest and principal payments
continues unabated. If demand is so low that a company is not generating
enough cash flow to pay interest on its debt, or if it can pay interest on its
debt but does not have enough cash on hand to pay an entire principal pay-
ment (and banks refuse to finance that payment), the equity of the com-
pany will be worth nothing. As Buffett has so eloquently wrote in the 2010
annual letter to Berkshire Hathaway shareholders, “[A]ny series of positive
numbers, however impressive the numbers may be, evaporates when mul-
tiplied by a single zero. ” It doesnt matter how great a given business may
be during boom times; if its equity value falls to zero during bad times, the
owner of the companys stock will lose his or her entire investment.
One sad fact of life is that in many cases, companies with great op-
erational leverage (e.g., those that own factories) have funded this leverage
through the issuance of debt—hereby layering financial leverage onto oper-
ational leverage. Because financial leverage represents such a severe risk to
equity investors during bust times, and because it is devilishly hard to know
when the next bust time might come, I personally think that using less in-
vestment leverage on companies fitting this profile is generally prudent.
Let us assume that you have decided on the composition of an investment
meal and dug in using your chosen allocation size and leverage level. How do
you know when to stop “eating” and close all or part of your position? Or con-
versely, what should you do when you realize that the meal is more delicious
than you had originally imagined? These are natural questions to ask.
200 •   TheIntelligentOptionInvestor
After you enter a position and some time passes, it becomes clearer
what valuation scenario the company is tending toward. In some cases,
a bit of information will come out that is critical to your valuation of the
company on which other market participants may not be focused. Obvi-
ously, if a bit of information comes out that has a big, positive or negative
impact on your assessment of the companys value, you should adjust your
position size accordingly. If you believe the impact is positive, it makes
sense to build to a position by increasing your shares owned and/or by
adding “spice” to that meal by adjusting your target leverage level. If the
impact is negative, it makes sense to start by reducing leverage (or you
can think of it as increasing the proportion of cash supporting a particular
position), even if this reduction means realizing a loss. If the impact of the
news is so negative that the investment is no longer attractive from a risk-
reward perspective, I believe that it should be closed and the lumps taken
sooner rather than later. Considering what we know about prospect theory,
this is psychologically a difficult thing to do, but in my experience, waiting
to close a position in which you no longer have confidence seldom does
you any good.
Obviously, the risk/reward equation of an investment is also influ-
enced by a stocks market price. If the market price starts scraping against
the upper edge of your valuation range, again, it is time to reduce leverage
and/or close the position.
If your options are in danger of expiring before a stock has reached
your fair value estimate, you may roll your position by selling your option
position and using the proceeds to buy another option position at a more
distant tenor. At this time, you must again think about your target leverage
and adjust the strikes of your options accordingly. If the price of the stock
has decreased over the life of the option contract, this will mean that you
realize a loss, which is not an easy thing to do psychologically, but consid-
ering the limitations imposed by time for all option investments, this is an
unavoidable situation in this case.
One of the reasons I dislike investing in non-LEAPS call options is
that rolling means that not only do we have to pay another set of bro-
ker and exchange fees, but we also must pay both sides of the bid-ask
spread. Keeping in mind how wide the bid-ask spread can be with options
and what an enormous drag this can be on returns, you should carefully
Gaining Exposure • 201
consider whether the prospective returns justify entering a long call posi-
tion that will likely have to be rolled multiple times before the stock hits
your fair value estimate.
By the way, it goes without saying that to the extent that an option
you want to roll has a significant amount of time value on it, it is better
to roll before time decay starts to become extreme. This usually occurs at
around three months before expiration. It turns out that option liquidity
increases in the last three months before expiration, and rolling is made
easier with the greater liquidity.
Having discussed gaining bullish exposure with this section about
long calls, lets now turn to gaining bearish exposure in the following sec-
tion on long puts.
Long Put
GREEN
Downside: Undervalued
Upside: Fairly priced
Execute: Buy a put option
Risk: Amount of premium paid
Reward: Amount equal to strike price—premium
The Gist
An investor uses this strategy when he or she believes that it is very likely
that the value of a company is much lower than the present market price.
The investor must pay a premium to initiate the position, and the propor-
tion of the premium that represents time value should be recognized as a
202 •   TheIntelligentOptionInvestor
realized loss because it cannot be recovered. If the stock fails to move into
the area of exposure before option expiration, there will be no profit to
offset this realized loss.
In economic terms, this transaction allows an investor to sell short
an overvalued company without accepting an uncertain risk of loss if the
stock rises. Instead of the uncertain risk of loss, the investor must pay the
fixed premium. This strategy obeys the same rules of leverage as discussed
earlier in this book, with ITM put options offering less leverage but a great-
er cushion before realizing a loss than do ATM or OTM put options.
T enor Selection
Shorting stocks, which is what you are doing when you buy put op-
tions, is hard work, not for the faint of heart. There are a couple of
reasons for this:
1. Markets generally go up, and for better or worse, a rising tide usu-
ally does lift all boats.
2. Even when a company is overvalued, it is hard to know what cata-
lyst will make that fact obvious to the rest of the market and when.
In the words of Jim Chanos, head of the largest short-selling hedge fund
in the world, the market is a “giant positive reinforcement machine. ”
1
It is psychologically difficult to hold a bearish position when it seems
like the whole world disagrees with you. All these difficulties in taking
bearish positions are amplified by options because options are levered
instruments, and losses feel all the more acute when they occur on a
levered position.
My rule for gaining bullish exposure is to pick the longest-tenor op-
tion possible. I made the point that by buying LEAPS, you can enjoy a
likely upward drift that exceeds the drift assumed by option pricing. When
buying puts, you are on the opposite side of this drift factor (i.e., the “ris-
ing tide lifts all boats” factor), and every day that the stock does not fall is
another day of time value that has decayed without you enjoying a profit.
On the other hand, if you decide not to spend as much on time value and
buy a shorter-tenor put option, unless the market realizes that the stock is
Gaining Exposure • 203
overvalued and it drops before the shorter option expires, you must pay the
entire bid-ask spread and the broker and exchange fees again when you roll
your put option.
The moral of the story is that when selecting tenors for puts, you need
to balance the existence of upward market drift (which lends weight to the
argument for choosing shorter tenors) with bid-ask spreads and other fees
(which lends weight to the argument for longer tenors). If you can iden-
tify a catalyst, you can plan the tenor of the option investment based on
the expected catalyst. However, its unfortunate but mysteriously true that
bearish catalysts have a tendency to be ignored by the markets “happy ma-
chine” until the instant when suddenly they are not and the shares collapse.
The key for a short seller is to be in the game when the market realizes the
stocks overvaluation.
Strike Price Selection
When it comes to strike prices, short sellers find themselves fighting drift
in much the same way as they did when selecting tenors. A short seller with
a position in stocks can be successful if the shares he or she is short go up
less than other stocks in the market. The short exposure acts as a hedge to
the portfolio as a whole, and if it loses less money than the rest of the port-
folio gains, it can be thought of as a successful investment.
However, the definition for success is different for buyers of a put
option, who must not only see their bearish bets not go up by much but
rather must see their bearish bets fall if they are to enjoy a profit. If the
investor wanting bearish exposure decides to gain it by buying OTM puts,
he or she must—as we learned in the section about leverage—accept a
realized loss as soon as the put is purchased. If, on the other hand, the
investor wants to minimize the realized loss accepted up front, he or she
must accept that he or she is in a levered bearish position so that every
1 percent move to the upside for the stock generates a loss larger than 1
percent for the position.
There is another bearish strategy that you can use by accepting
exposure that I will discuss in the next section, but for investors who are
gaining bearish exposure, there is no way to work around the dilemma of
the option-based short seller just mentioned.
204 •   TheIntelligentOptionInvestor
Portfolio Management
There is certainly no way around the tradeoff between OTM and ITM
risk—the rules of leverage are immutable whether in a bullish or a bear -
ish investment—but there are some ways of framing the investment that
will allow intelligent investors to feel more comfortable with making
these types of bearish bets. First, I believe that losses associated with a
bearish position are treated differently within our own minds than those
associated with bullish positions. The reason for this might be the fact
that if you decide to proactively invest in the market, you must buy se-
curities, but you need not sell shares short. The fact that you are losing
when you are engaged in an act that you perceive as unnecessary just
adds to a sense of regret and self-doubt that is necessarily part of the
investing process.
In addition, investors seem to be able to accept underperform-
ing bullish investments in a portfolio context (e.g., “XYZ is losing, but
its only 5 percent of my holdings, and the rest of my portfolio is up, so
its okay”) but look at underperforming bearish investments as if they
were the only investments they held (e.g., “Im losing 5 percent on that
damned short. Why did I ever short that stock in the first place?”). In gen-
eral, people have a hard time looking at investments in a portfolio con-
text (I will discuss this more when I talk about hedging in Chapter 11),
but this problem seems to be orders of magnitude worse in the case of a
bearish position.
My solution to this dilemma—perhaps not the best or most rational
from a performance standpoint but most manageable to me from a psy-
chological one—is to buy OTM puts with much smaller position sizes than
I might for bullish bets with the same conviction level. This means that I
have smaller, more highly levered positions. The reason this works for me
is that once I spend the premium on the put option, I consider the money
gone—a sunk cost—and do not even bother to look at the mark-to-market
value of the option after that unless there is a large drop in the stock price.
Somehow this acknowledgment of a realized loss up front is easier to han-
dle psychologically than watching my ITM put position suffer unrealized
losses of 1.5 times the rise of the stock every day.
This strategy may well be proof that I simply am not a natural-born
short seller, and you are encouraged, now that you understand the issues
Gaining Exposure • 205
involved, to devise a method for gaining bearish exposure that fits your own
risk profile.
Strangle
GREEN
GREEN
Downside: Undervalued
Upside: Undervalued
Execute: Buy an OTM call option simultaneously with buying an
OTM put option
Risk: Amount of premium paid
Reward: Unlimited on upside, limited to strike less total (two-leg)
premium on the downside
The Gist
The strangle is used when the market is undervaluing the likelihood that a
stocks value is significantly above or below the present market price. It is a
more speculative position and, because both legs are OTM, a highly lever-
aged one. It can sometimes be useful for companies such as smaller drug
companies whose value hinges on the success or failure of a particular drug
or for companies that have a material chance of bankruptcy but if they can
206 •   TheIntelligentOptionInvestor
avoid this extreme downside are worth much more than they are presently
trading at.
The entire premium paid must be treated as a realized loss because
it can never be recovered. If the stock fails to move into one of the areas
of exposure before option expiration, there will be no profit to offset this
realized loss.
There is no reason why you have to buy puts and calls in equal num-
bers. If you believe that both upside and downside scenarios are materially
possible but believe that the downside scenario is more plausible, you can
buy more puts than calls. This is called ratioing a position.
T enor Selection
Because the strangle is a combination of two strategies we have already
discussed, the considerations regarding tenor are the same as for each of
the components—that is, using the drift advantage in long-term equity an-
ticipating securities (LEAPS) and buying them or the longest-tenor calls
available and balancing the fight against drift and the cost of rolling and
buying perhaps shorter-tenor puts.
Strike Price Selection
A strangle is slightly different in nature from its two components—long
calls and long puts. A strangle is an option investors way of expressing
the belief that the market in general has underestimated the intrinsic
uncertainty in the valuation of a firm. Options are directional instru-
ments, but a strangle is a strategy that acknowledges that the investor
has no clear idea of which direction a stock will move but only that
its future value under different scenarios is different from its present
market price.
Because both purchased options are OTM ones, this implies, in my
mind, a more speculative investment and one that lends itself to taking
profit on it before expiration. Nonetheless, my conservatism forces me to
select strike prices that would allow a profit on the entire position if the
stock price is at one of the two strikes at expiration. Because I am buying
exposure to both the upside and the downside, I always like to make sure
Gaining Exposure • 207
that if the option expires when the stock price is at either edge of my valu-
ation range, it is far enough in-the-money to pay me back for both legs of
the investment (plus an attractive return).
Portfolio Management
As mentioned earlier, this is naturally a more speculative style of option
investment, and it may well be more beneficial to close the successful leg of
the strategy before expiration than to hold the position to expiration. Com-
pared with the next strategy presented here (the straddle), the strangle ac-
tually generates worse returns if held to expiration, so if you are happy with
your returns midway through the investment, you should close the posi-
tion rather than waiting for expiration. The exception to this rule is that if
news comes out that convinces you that the value of the firm is materially
higher or lower than what you had originally forecast and uncertainty in
the other direction has been removed, you should assess the possibility of
making a more substantial investment in the company.
One common problem with investors—even experienced and sophis-
ticated ones—is that they check the past price history of a stock and decide
whether the stock has “more room” to move in a particular direction. The
most important two things to know when considering an investment are its
value and the uncertainty surrounding that value. Whether the stock was
cheaper three years ago or much more expensive does not matter—these are
backward-looking measures, and you cannot invest with a rear-view mirror.
One final note regarding this strategy is what to do with the unused
leg. If the stock moves up strongly and you take profits on the call, what
should you do with the put, in other words. Unfortunately, the unused leg is
almost always worthless, and often it will cost more than its worth to close
it. I usually keep this leg open because you never know what may happen,
and perhaps before it expires, you will be able to close it at a better price.
This is a speculative strategy—a bit of spice or an after-dinner mint
in the meal of investing. Dont expect to get rich using it (if you do get rich
using it, it means that you were lucky because you would have had to have
used a lot of leverage in the process), but you may be pleasantly surprised
with the boost you get from these every once in a while.
Lets now turn briefly to a related strategy—the straddle.
208 •   TheIntelligentOptionInvestor
Straddle
GREEN
Downside: Undervalued
Upside: Undervalued
Execute: Simultaneously buy an ATM put and an ATM call
Risk: Amount of premium paid
Reward: Unlimited?
The Gist
I include the straddle here for completeness sake. I have not included a
lot of the fancier multioption strategies in this book because I have found
them to be more expensive than they are worth, especially for someone
with a definite directional view on a security. However, the straddle is re-
ferred to commonly and is deceptively attractive, so I include it here to
warn investors against its use, if for no other reason.
The straddle shares many similarities with the strangle, of course, but
straddles are enormously expensive because you are paying for every pos-
sible price the stock will move to over the term of the options. For example,
I just looked up option prices for BlackBerry (BBRY), whose stock was
trading at $9.00. For the 86 days to expiry, $9-strike calls (delta = 0.56) and
$9-strike puts (delta = 0.44) were priced at $1.03 and $1.13, respectively.
Gaining Exposure • 209
The total premium of $2.16 represents 24 percent of the stocks price, which
means that if the implied volatility (around 60 percent) remains constant,
the stock would have to move 24 percent before an investor even breaks
even. It is true that during sudden downward stock price moves, implied
volatility usually rises, so it might take a little less of a stock price move-
ment to the downside to break even. However, during sudden upside
moves, implied volatility often drops, which would make it more difficult
to break even to the upside.
Despite this expense, a straddle will still give an investor a lower
breakeven point than a strangle on the same stock if held to expiration.
The key is that a strangle will almost always generate a higher profit than
a straddle if it is closed before expiration simply because the initial cost of
the strangle is lower and the relative leverage of each of its legs is higher.
This is yet another reason to consider closing a strangle early if and when
you are pleased with the profits made.
If you do not know whether a stock will move up or down, the best
you can hope for is to make a speculative bet on the company. When you
make speculative bets, it is best to reduce the amount spent on it or you will
whittle down all your capital on what amounts to a roulette wheel. Reduc-
ing the amount spent on a single bet is the reason an intelligent investor
should stay away from straddles.
With all the main strategies for gaining exposure covered, lets now
turn to accepting exposure by selling options.
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211
Chapter 10
Accepting exposure
Brokerages and exchanges treat the acceptance of exposure by counter -
parties in a very different way from counterparties who want to gain expo-
sure. There is a good reason for this: although an investor gaining exposure
has an option to transact in the future, his or her counterparty—an investor
accepting exposure—has a commitment to transact in the future at the sole
discretion of the option buyer. If the investor accepting exposure does not
have the financial wherewithal to carry out the committed transaction, the
broker or exchange is on the hook for the liability.
1
For example, an investor selling a put option struck at $50 per share
is committing to buy the stock in question for $50 a share at some point
in the future—this is the essence of accepting exposure. If, however,
the investor does not have enough money to buy the stock at $50 at
some point in the future, the investors commitment to buy the shares is
economically worthless.
To guard against this eventuality, brokers require exposure-accepting
investors to post a security deposit called margin that will fully cover the fi-
nancial obligation to which the investor is committing. In the preceding ex-
ample, for instance, the investor would have to keep $5,000 (= $50 per share ×
100 shares/contract) in reserve and would not be able to spend those reserved
funds for stock or option purchases until the contract has expired worthless.
Because of this margin requirement, it turns out that one of our strat-
egies for accepting leverage—short puts—always carries with it a loss lev-
erage of 1.0—exactly the same as the loss leverage of a stock. Think about
it this way: what difference is there between using $50 to buy a stock and
212 •   TheIntelligentOptionInvestor
setting $50 aside in an escrow account you cant touch and promising that
you will buy the stock with the escrow funds in the future if requested to
do so? From a risk perspective, “very little” is the answer.
Short calls are more complicated, but I will discuss the leverage car -
ried by them using elements of the structure I set forth in Chapter 8. In the
following overviews, I add one new line item to the tables that details the
margin requirements of the positions.
Intelligent option investors accept exposure when the market over -
estimates the likelihood of a valuation that the investor believes is not a
rational outcome. In graphic terms, this means that either one or both of
the investors best- and worst-case valuation scenarios lie well within the
Black-Scholes-Merton model (BSM) cone.
Simple (one-option) strategies to accept exposure include
1. Short put
2. Short call (call spread)
Complex (multioption) strategies to accept exposure include the following:
1. Short straddle
2. Short strangle
Jargon introduced in this chapter includes the following:
Margin Put-call parity
Early exercise Cover (a position)
Writing (an option)
Short Put
RED
Accepting Exposure 213
Downside: Overvalued
Upside: Fairly valued
Execute: Sell a put contract
Risk: Strike price minus premium received [same as stock inves-
tor at the effective buy price (EBP)]
Reward: Limited to premium received
Margin: Notional amount of position
The Gist
The market is pricing in a relatively high probability that the stock price
will fall. An investor, from a longer investment time frame perspective,
believes that the value of the stock is likely worth at least the present mar-
ket value and perhaps more. The investor agrees to accept the downside
risk perceived by the market and, in return, receives a premium for doing
so. The premium cannot be fully realized unless the option expires out-
of-the money (OTM). If the option expires in-the-money (ITM), the
investor pays an amount equal to the strike price for the stock but can
partially offset the cost of the stock by the premium received. The inves-
tor thus promises to buy the stock in question at a price of the strike
price of the option less the premium received—what I call the effective
buy price.
I think of the short-put strategy as being very similar to buying cor -
porate bonds and believe that the two investment strategies share many
similarities. A bond investor is essentially looking to receive a specific
monetary return (in the form of interest) in exchange for accepting
the risk of the business failing. The only time a bond investor owns a
companys assets is after the value of the firms equity drops to zero, and
the assets revert to the control of the creditors. Similarly, a short-put in-
vestor is looking to receive a specific monetary return (in the form of an
option premium) in exchange for accepting the risk that the companys
stock will decrease in value. The only time a short-put investor owns a
companys shares is after the market value of the shares expires below the
preagreed strike price.
Because the strategies are conceptually similar, I usually think of short-
put exposure in similar terms and compare the “yield” I am generating
214 •   TheIntelligentOptionInvestor
from a portfolio of short puts with the yield I might generate from a cor -
porate bond portfolio. With this consideration, and keeping in mind that
these investments are unlevered, 2 the name of the game is to generate as
high a percentage return as possible over the investing time horizon while
minimizing the amount of real downside risk you are accepting.
T enor Selection
To maximize percentage return, in general, it is better to sell options with
relatively short-term expirations (usually tenors of from three to nine
months before expiration). This is just the other side of the coin of the
rule to buy long-tenor options: the longer the time to expiration, the less
time value there is on a per-day basis. The rule to sell shorter-tenor options
implies that you will make a higher absolute return by chaining together
two back-to-back 6-month short puts than you would by selling a single
12-month option at the beginning of the period.
During normal market conditions, selling shorter-tenor options is
the best tactical choice, but during large market downdrafts, when there
is terror in the marketplace and implied volatilities increase enormously
for options on all companies, you might be able to make more by sell-
ing a longer-tenor option than by chaining together a series of shorter-
tenor ones (because, presumably, the implied volatilities of options will
drop as the market stabilizes, and this drop means that you will make
less money on subsequent put sales). At these times of extreme market
stress, there are situations where you can find short-put opportunities
on long-tenor options that defy economic logic and should be invested
in opportunistically.
For example, during the terrible market drops in 2009, I found a
company whose slightly ITM put long-term equity anticipation securities
(LEAPS) were trading at such a high price that the effective buy price of
the stock was less than the amount of cash the firm had on its balance
sheet. Obviously, for a firm producing positive cash flows, the stock should
not trade at less than the value of cash presently on the balance sheet! I ef-
fectively got the chance to buy a firm with $6 of cash on the balance sheet
and the near certainty of generating about $2 more over the economic life
of the options for $5.50. The opportunity to buy $6$8 worth of cash for
Accepting Exposure 215
$5.50 does not come along very often, so you should take advantage of it
when you see it.
Of course, the absolute value of premium you will receive by writing
(jargon that means selling an option) a short-term put is less than the ab-
solute value of the premium you will receive by writing a long-term one.
3
As such, an investor must balance the effective buy price of the stock (the
strike price of the option less the amount of premium to be received) in
which he or she is investing in the short-put strategy with the percentage
return he or she will receive if the put expires OTM.
I will talk more about effective buy price in the next section, but keep
in mind that we would like to generate the highest percentage return pos-
sible and that this usually means choosing shorter-tenor options.
Strike Price Selection
In general, the best policy is to sell options at as close to the 50-delta [at-
the-money (ATM)] mark as one can because that is where time value for
any option is at its absolute maximum. Our expectation is that the options
time value will be worthless at expiration, and if that is indeed the case,
we will be selling time value at its maximum and “closing” our time value
position at zero—its minimum. In this way, we are obeying (in reverse
order) the old investing maxim “Buy low, sell high. ” Selling ATM puts
means that our effective buy price will be the strike price at which we sold
less the amount of the premium we received. It goes without saying that
an intelligent investor would not agree to accept the downside exposure
to a stock if he or she were not prepared to buy the stock at the effective
buy price.
Some people want to sell OTM puts, thereby making the effective buy
price much lower than the present market price. This is an understandable
impulse, but simply attempting to minimize the effective buy price means
that you must ignore the other element of a successful short put strategy:
maximizing the return generated. There are times when you might like to
sell puts on a company but only at a lower strike price. Rather than accept-
ing a lower return for accepting that risk, I find that the best strategy is
simply to wait awhile until the markets make a hiccup and knock down the
price of the stock to your desired strike price.
216 •   TheIntelligentOptionInvestor
Portfolio Management
As we have discussed, the best percentage returns on short-put investments
come from the sale of short-tenor ATM options. I find that each quarter there
are excellent opportunities to find a fairly constant stream of this type of short-
term bet that, when strung together in a portfolio, can generate annualized
returns in the high-single-digit to low-teens percentage range. This level of
returns—twice or more the yield recently found on a high-quality corporate
bond portfolio and closer to the bond yield on highly speculative small com-
panies with low credit ratings—is possible by investing in strong, high-quality
blue chip stocks. In my mind, it is difficult to allocate much money to corpo-
rate bonds when this type of alternative is available.
Some investors prefer to sell puts on stocks that are not very vola-
tile or that have had a significant run-up in price,
4 but if you think about
how options are priced, it is clear that finding stocks that the market
perceives as more volatile will allow you to generate higher returns. Y ou
can confirm this by looking at the diagrams of a short-put investment
given two different volatility scenarios. First, a diagram in which implied
volatility is low:
Advanced Building Corp. (ABC)
80
70
60
50
40
30
20
5/18/2012 5/20/2013 249 499 749 999
Date/Day Count
Stock Price
RED
Accepting Exposure 217
Now a diagram when implied volatility is higher:
RED
Advanced Building Corp. (ABC)
80
70
60
50
40
30
20
5/18/2012 5/20/2013 249 499 749 999
Date/Day Count
Stock Price
Obviously, there is much more of the put options range of exposure
bounded by the BSM cone in the second, high-volatility scenario, and this
means that the price received for accepting the same downside risk will be
substantially higher when implied volatility is elevated.
The key to setting up a successful allocation of short puts is to find
companies that have relatively low downside valuation risk but that also
have a significant amount of perceived price risk (as seen by the market)—
even if this risk is only temporary in nature. Quarterly earnings seasons are
nearly custom made for this purpose. Sell-side analysts (and the market
in general) mainly use multiples of reported earnings to generate a target
price for a stock. As such, a small shortfall in reported earnings as a result
of a transitory and/or nonmaterial accounting technicality can cause sell-
side analysts and other market participants to bring down their short-term
target price estimates sharply and can cause stock prices to drop sharply
as well.
5
These times, when a high-quality company drops sharply as a re-
sult of perceived risk by other investors, are a wonderful time to replen-
ish a portfolio of short puts. If you time the tenors well, your short-put
218 •   TheIntelligentOptionInvestor
investment will be expiring just about the time another short-put invest-
ment is becoming attractive, so you can use the margin that has until re-
cently been used to support the first position to support the new one.
Obviously, this strategy only works when markets are generally trend-
ing upward or at least sideways over the investment horizon of your short
puts. If the market is falling, short-put positions expire ITM, so you are left
with a position in the underlying stocks. For an option trader (i.e., a short-
term speculator), being put a stock is a nightmare because he or she has
no concept of the underlying value of the firm. However, for an intelligent
option investor, being put a stock simply means the opportunity to receive
a dividend and enjoy capital appreciation in a strong stock with very little
downside valuation risk.
The biggest problem arises when an investor sells a put and then re-
vises down his or her lowest-case valuation scenario at a later time. For in-
stance, the preceding diagram shows a worst-case scenario of $55 per share.
What if new material information became known to you that changed your
lower valuation range to $45 per share just as the market price for the stock
dropped, as in the following diagram?
Advanced Building Corp. (ABC)
80
70
60
50 EBP = $47.50
Overvaluation of
downside exposure
40
30
20
5/18/2012 5/20/2013 249 499 749 999
Date/Day Count
Stock Price
RED
Accepting Exposure 219
Looking at this diagram closely, you should be able to see several
things:
1. The investor who is short this put certainly has a notable unrealized
loss on his or her position. Y ou can tell this because the put the
investor sold is now much more valuable than at the time of
the original sale (more of the range of exposure is carved out by
the BSM cone now). When you sell something at one price and the
value of that thing goes up in the future, you suffer an opportunity
loss on your original sale.
2. With the drop in price and the cut in fair value, the downside ex-
posure on this stock still looks overvalued.
3. If the company were to perform so that its share price eventually
hit the new, reduced best-case valuation mark, the original short-
put position would generate a profit—albeit a smaller profit than
the one originally envisioned.
At this point, there are a couple of choices open to the investor:
1. Convert the unrealized loss on the short-put position to a realized
one by buying $50-strike puts to close the position (a.k.a. cover the
position).
2. Leave the position open and manage it in the same way that the
investor would manage a struggling stock position.
It is rarely a sound idea to close a short put immediately after the re-
lease of information that drives down the stock price (the first choice above,
in other words). At these times, investors are generally panicked, and this
panic will cause the price of the option you buy to cover to be more expen-
sive than justified. Waiting a few days or weeks for the fear to drain out of
the option prices (i.e., for the BSM cone to narrow) and for the stock price
to stabilize some will usually allow you to close the option position at a more
favorable price. There is one exception to this rule: if your new valuation
suggests a fair value at or below the present market price, it is better to close
the position immediately and realize those losses. If you do not close the
position, you are simply gambling (as opposed to investing) because you no
longer have a better than even chance of making money on the investment.
220 •   TheIntelligentOptionInvestor
The decision to leave the position open must depend on what other
potential investments you are able to make and how the stock position that
will likely be put to you at expiration of the option contract stacks up on a
relative basis. For instance, lets assume that you had received a premium
of $2.50 for writing the puts struck at $50. This gives you an effective buy
price of $47.50. The stock is now trading at $43 per share, so you can think
of your position as an unlevered, unrealized loss of $4.50, or a little under
10 percent of your EBP . Y our new worst-case valuation is $55 per share,
which implies a gain of about 15 percent on your EBP; your new best-case
valuation is $65 per share, which implies a gain of 37 percent.
How do these numbers compare with other investments in your port-
folio? How much spare capacity does your portfolio have for additional
investments? (That is, do you have enough spare cash to increase the size
of this investment by selling more puts at the new market price or buying
shares of stock? And if so, would your portfolio be weighted too heavily on a
single industry or sector?) By answering these questions and understanding
how this presently losing investment compares with other existing or poten-
tial investments should govern your portfolio management of the position.
An investor cannot change the price at which he or she transacted
in a security. The best he or she can do is to develop a rational view of the
value of a security and judge that security by its relative merit versus other
possible investments. Whether you ever make an option transaction, this
is a good rule to keep in mind.
Let us now take a look at short calls and short-call spreads—the
strategy used for accepting upside exposure.
Short Call (Call Spread)
RED
Accepting Exposure 221
Downside: Fairly valued
Upside: Overvalued
Execute: Sell a call contract (short call); sell a call contract while
simultaneously buying a call contract at a higher strike
price (short-call spread)
Risk: Unlimited for short call; difference between strike prices
and premium received (short-call spread)
Reward: Limited to the amount of premium received
Margin: Variable for a short call; dollar amount equal to the differ-
ence between strike prices for a short-call spread
The Gist
The market overestimates the likelihood that the value of a firm is above its pre-
sent market price. An investor accepts the overvalued upside exposure in return
for a fixed payment of premium. The full amount of the premium will only flow
through to the investor if the price of the stock falls and the option expires OTM.
There are two variations of this investment—the short call and the
short-call spread. This book touches on the former but mainly addresses
the latter. A short call opens up the investor to potentially unlimited capital
losses (because stocks theoretically do not have an upper bound for their
price), and a broker will not allow you to invest using this strategy except
for the following conditions:
1. Y ou are a hedge fund manager and have the ability to borrow
stocks through your broker and sell them short.
2. Y ou are short calls not on a stock but on a diversified index (such
as the Dow Jones Industrial Index or the Standard and Poors 500
Index) through an exchange-traded fund (ETF) or a futures con-
tract and hold a diversified stock portfolio.
For investors fitting the first condition, short calls are margined in the
same way as the rest of your short portfolio. That is, you must deposit initial
margin on the initiation of the investment, and if the stock price goes up, you
must pay in variance margin to support the position. Obviously, as the stock
price falls, this margin account is settled in your favor. For investors fitting the
second condition, when you originally sell the call option, your broker should
222 •   TheIntelligentOptionInvestor
indicate on your statements that a certain proportion of your account effec-
tively will be treated as margin. This means that you stand to receive the eco-
nomic benefit from your diversified portfolio of securities but will not be able
to liquidate all of it. If the market climbs higher, a larger proportion of your
portfolio will be considered as margin; if it falls lower, a smaller proportion
of your portfolio will be considered as margin. Basically, a proportion of any
gains from your diversified stock portfolio will be reapportioned to serve as
collateral for your short call when the market is rising, and a proportion of any
losses from your diversified stock portfolio will be offset by a freeing of margin
related to your profits on the short call when the market is falling.
Most brokers restrict the ability of individual investors to write un-
covered calls on individual stocks, so the rest of this discussion will cover
the short-call spread strategy for individual stocks.
T enor Selection
Tenors for short-call spreads should be fairly short under the same reason-
ing as that for short puts—one receives more time value per day for short-
er-tenor options. Look for calls in the three- to nine-month tenor range.
The tenor of the purchased call (at the higher strike price) should be the
same as the tenor of the sold calls (at the lower strike price). Theoretically,
the bought calls could be longer, but it is hard to think of a valuation justifi-
cation for such a structure. By buying a longer-tenor call for the upside leg
of the investment, you are expressing an investment opinion that the stock
will likely rise over the long term—this exactly contradicts the purpose of
this strategy: expressing a bearish investment opinion.
Strike Price Selection
Theoretically, you can choose any two strike prices, sell the call at the lower
price, and buy the call at the higher price and execute this investment. If you
sold an ITM call, you would receive premium that consists of both time and
intrinsic value. If the stock fell by expiration, you would realize all the wasted
time value plus the difference between the intrinsic value at initiation and the
intrinsic value at expiration.
Despite the theory, however, in practice, the lower strike option is usually
sold ATM or OTM because of the threat of assignment. Assignment is the pro-
cess the exchange goes through when investors choose to exercise the option
Accepting Exposure 223
they own rather than trade them away for a profit. Recall from Chapter 2
that experienced option investors do not do this most of the time; they
know that because of the existence of time value, it is usually more beneficial
for them to sell their option in the market and use the proceeds to buy the stock
if they want to hold the underlying. Inexperienced investors, however, often are
not conscious of the time-value nuance and sometimes elect to exercise their
option. In this case, the exchange randomly pairs the option holders who wish
to exercise with an option seller who has promised to sell at that exercise price.
There is one case in which a sophisticated investor might chose to
exercise an ITM call option early, related to a principle in option pricing
called put-call parity. This rule, which was used to price options before
advent of the BSM, simply states that a certain relationship must exist be-
tween the price of a put at one strike price, the price of a call at that same
strike price, and the market price of the underlying stock. Put-call parity
is discussed in Appendix C. In this appendix, you can learn what the exact
put-call parity rule is (it is ridiculously simple) and then see how it can be
used to determine when it is best to exercise early in case you are long a
call and when your short-call (spread) position is in danger of early exercise
because of a trading strategy known as dividend arbitrage.
The assignment process is random, but obviously, the more contracts
you sell, the better the chance is that you will be assigned on some part or all
of your sold contracts. Even if you hold until expiration, there is still a chance
that you may be assigned to fulfill a contract that was exercised on settlement.
Clearly, from the standpoint of option sale efficiency, an ATM call is the
most sensible to sell for the same reason that a short put also was most efficient
ATM. As such, the discussion that follows assumes that you are selling the
ATM strike and buying back a higher strike to cover.
In a call-spread strategy, the capital you have at risk is the difference be-
tween the two strike prices—this is the amount that must be deposited into
margin. Depending on which strike price you use to cover, the net premium
received differs because the cost of the covering call is cheaper the further
OTM you cover. As the covering call becomes more and more OTM, the ratio
of premium received to capital at risk changes. Put in these terms, it seems
that the short-call spread is a levered strategy because leverage has to do with
altering the capital at risk in order to change the percentage return. This con-
trasts with the short-call spreads mirror strategy on the put side—short puts—
in that the short-put strategy is unlevered.
224 •   TheIntelligentOptionInvestor
For instance, here are data from ATM and OTM call options on IBM
(IBM) expiring in 80 days. I took these data when IBMs shares were trad-
ing at $196.80 per share.
Sell a Call at 195
Cover at ($) Net Premium Received ($) Percent Return Capital at Risk ($)
200 2.40 48 5
205 4.26 43 10
210 5.47 36 15
215 6.17 31 20
220 6.51 26 25
225 6.70 22 30
230 6.91 20 35
235 6.90 17 40
240 6.96 15 45
In this table, net premium received was calculated by selling at the $195
strikes bid price and buying at each of the listed strike prices ask prices. Percent
return is the proportion of net premium received as a percentage of the capital
at risk—the width of the spread. This table clearly shows that accepting expo-
sure with a call spread is a levered strategy. The potential return on a percent-
age basis can be raised simply by lowering the amount of capital at risk.
However, although accepting exposure with a call spread is un-
deniably levered from this perspective, there is one large difference: un-
like the leverage discussed earlier in this book for a purchase of call op-
tions—in which your returns were potentially unlimited—the short-call
spread investor receives premium up front that represents the maximum
return possible on the investment. As such, in the sense of the investors
potential gains being limited, the short-call spread position appears to be
an unlevered investment.
Considering the dual nature of a short-call spread, it is most help-
ful to think about managing these positions using a two-step process with
both tactical and strategic aspects. We will investigate the tactical aspect
of leverage in the remainder of this section and the strategic aspect in the
portfolio management section.
Accepting Exposure 225
Tactically, once an investor has decided to accept exposure to a stocks
upside potential using a call spread, he or she has a relatively limited choice
of investments. Lets assume that we sell the ATM strike; in the IBM ex-
ample shown earlier, there is a choice of nine strike prices at which we
can cover. The highest dollar amount of premium we can receive—what I
will call the maximum return—is received by covering at the most distant
strike. Every strike between the ATM and the most distant strike will at
most generate some percentage of this maximum return.
Now lets look at the risk side. Lets say that we sell the $195-strike call
and cover using the $210-strike call. Now assume that some bit of good
news about IBM comes out, and the stock suddenly moves to exactly $210.
If the option expires when IBM is trading at $210, we will have lost the
entire amount of margin we posted to support this investment—$15 in all.
This $15 loss will be offset by the amount of premium we received from
selling the call spread—$5.47 in the IBM example—generating a net loss of
$9.53 (= $5.47 $15). Compare this with the loss that we would suffer if we
had covered using the most distant call strike. In this case, we would have
received $6.96 in premium, so if the option expires when IBM is trading at
the same $210 level as earlier, our net loss would be $8.04 (= $6.96 $15).
Because our maximum return is generated with the widest spread, it fol-
lows that our minimum loss for the stock going to any intermediate strike
price also will be generated with the widest spread.
At the same time, if we always select the widest spread, we face an
entirely different problem. That is, the widest spread exposes us to the great-
est potential loss. If the stock goes only to $210, it is true that the widest
spread will generate a smaller loss than the $195$210 spread. However, in
the extreme, if the stock moves up strongly to $240, we would lose the $45
gross amount supporting the margin account and a net amount of $38.04
(= $45 $6.96). Contrast this with a net loss of $9.53 for the $195$210
spread. Put simply, if the stock moves up only a bit, we will do better with
the wider spread; if it moves up a lot, it is better to choose a narrower
spread.
In short, when thinking about call spreads, we must balance our
amount of total exposure against the exposure we would have for an inter-
mediate outcome against the total amount of premium we are receiving. If
we are too protective and initiate the smallest spread possible, our chance
226 •   TheIntelligentOptionInvestor
of losing the entire margin amount is higher, but the margin amount lost
is smaller. On the other hand, if we attempt to maximize our winnings
and initiate the widest spread possible, our total exposure is greatest, even
though the chance of losing all of it is lower.
Plotting these three variables on a graph, here is what we get:
200 (11%)
0%
20%
40%
60%
80%
106% 102%
94%89%
100%
120%
140%
160%
180%
200%
205 (22%) 210 (33%) 215 (44%) 220 (56%) 225 (67%) 230 (78%) 235 (89%) 240 (100%)
Strike (% of Total Exposure)
Risk & Return of Call Spreads vs. Maximum Spread
Risk Comparison Return Comparison
Here, on the horizontal axis, we have the value of the covering strike and
the size of the corresponding spread as a percentage of the widest spread.
This shows how much proportional capital is at risk (e.g., at the $215-strike,
we are risking a total of $20 of margin; $20 is 44 percent of total exposure
of $45 if we covered at the $240-strike level). The top line shows how much
greater the loss would be if we used that strike to cover rather than the
maximum strike and the option expired at that strike price (e.g., if we cover
at the $215-strike and the option expires when the stock is trading at $215,
our loss would be 6 percent greater than the loss we would suffer if we
covered at the $240-strike). The bottom line shows the premium we will
realize as income if the stock price declines as a percentage of the total pre-
mium possible if we covered at the maximum strike price. Here are the val-
ues from the graph in tabular format so that you can see the numbers used:
Strike
Price
Dollar
Spread
Percent of
Maximum
Spread (a)
Bid
Price
Ask
Price
Covering at Strike
Covering at Maximum
Strike
Difference
Risk
Comparison
(%) (b)
Return
Comparison
(%) (c)
Potential
Gain
Worst-Case
(Loss)
Potential
Gain
Worst-Case
Gain (Loss)
195 — — 7.05 7.10 — — — — — — —
200 5 11 4.55 4.65 2.40 (2.60) 6.96 1.96 (3.55) N.C. 34
205 10 22 2.75 2.79 4.26 (5.74) 6.96 (3.04) 2.29 189 61
210 15 33 1.54 1.58 5.47 (9.53) 6.96 (8.04) 0.87 119 79
215 20 44 0.84 0.88 6.17 (13.83) 6.96 (13.04) 0.53 106 89
220 25 56 0.38 0.54 6.51 (18.49) 6.96 (18.04) 0.39 102 94
225 30 67 0.12 0.35 6.70 (23.30) 6.96 (23.04) 0.30 101 96
230 35 78 0.11 0.14 6.91 (28.09) 6.96 (28.04) 0.25 100 99
235 40 89 0.03 0.15 6.90 (33.10) 6.96 (33.04) 0.21 100 99
240 45 100 0.02 0.09 6.96 (38.04) 6.96 (38.04) 0.18 100 100
227
228 •   TheIntelligentOptionInvestor
With a table like this, you can balance, on the one hand, the degree
you are reducing your overall exposure in a worst-case scenario (by look-
ing at column a) against how much risk you are taking on for a bad-case
(intermediary upward move of the stock) scenario (by looking at column
b) against how much less premium you stand to earn if the stock does go
down as expected (by looking at column c).
There are no hard and fast rules for which is the correct covering strike to
select—that will depend on your confidence in the valuation and timing, your
risk profile, and the position size—but looking at the table, I tend to be drawn
to the $215 and $220 strikes. With both of those strikes, you are reducing your
worst-case exposure by about half, increasing your bad-case exposure just
marginally, and taking only a small haircut on the premium you are receiving.
6
Now that we have an idea of how to think about the potential risk and
return on a per-contract basis, lets turn to leverage in the strategic sense—
figuring out how much capital to commit to a given bearish idea.
Portfolio Management
When we thought about leverage from a call buyers perspective, we
thought about how large of an allocation we wanted to make to the idea
itself and changed our leverage within that allocation to modify the profits
we stood to make. Lets do this again with IBM—again assuming that we are
willing to allocate 5 percent of our portfolio to an investment in the view
that this companys stock price will not go higher. At a price of $196.80, a
5 percent allocation would mean controlling a little more than 25 shares for
every $100,000 of portfolio value.
7 Because options have a contract size of
100 shares, an unlevered 5 percent allocation to this investment would
require a portfolio size of $400,000.
The equation to calculate the leverage ratio on the basis of notional
exposure is
× =Notional valueo fo ne contract
Dollarv alue of allocation number of contractsl everager atio
So, for instance, if we had a $100,000 portfolio of which we were willing to
commit 5 percent to this short-call spread on IBM, our position would have a
leverage ratio of
Accepting Exposure 229
×= ≈$19,500
$5,000 13 .9 4: 1leverage
Selling the $195/$220 call spread will generate $651 worth of pre-
mium income and put at risk $2,500 worth of capital. Nothing can change
these two numbers—in this sense, the short-call spread has no leverage.
The 4:1 leverage figure merely means that the percentage return will ap-
pear nearly four times as large on a given allocation as a 1:1 allocation
would appear. The following table—assuming the sale of one contract of
the $195/$220 call spread—shows this in detail:
Winning Case Losing Case
Premium
Received
($)
Target
Allocation
($) Leverage
Stock
Move ($)
Percent
Return on
Allocation
Stock
Move
($)
Dollar
Return
Percent
Return on
Allocation
651 20,000 1:1 2 3.3 +25 1,849 9.2
651 10,000 2:1 2 6.5 +25 1,849 18.5
651 5,000 4:1 2 13.0 +25 1,849 37.0
Note: The dollar return in the losing case is calculated as the loss of the $2,500 of margin
per contract less than the premium received of $651.
Notice that the premium received never changes, nor does the worst-
case return. Only the perception of the loss changes with the size of our
target allocation.
Now that we have a sense of how to calculate what strategic leverage
we are using, lets think about how to size the position and about how much
risk we are willing to take. When we are selling a call or call spread, we are
committing to sell a stock at the strike price. If we were actually selling the
stock at that price rather than committing to do so, where would we put
our stop loss—in other words, when would we close the position, assuming
that our valuation or our timing was not correct?
Lets say that for this stock, if the price rose to $250, you would be
willing to admit that you were wrong and would realize a loss of $55 per share,
or $5,500 per hundred shares. This figure—the $5,500 per hundred shares
you would be willing to lose in an unlevered short stock position—can be
used as a guide to select the size of your levered short-call spread.
230 •   TheIntelligentOptionInvestor
In this case, you might choose to sell a single $195$240 call spread, in
which case your maximum exposure would be $4,500 [= 1 × (240 195) × 100]
at the widest spread. This investment would have a leverage ratio of approxi-
mately 1:1. Alternatively, you could choose to sell two $195$220 spreads, in
which case your maximum exposure would be $5,000 [= 2 × (220 195) ×
100], with a leverage ratio of approximately 2:1. Which choice you select will
depend on your assessment of the valuation of the stock, your risk tolerance,
and the composition of your portfolio (i.e., how much of your portfolio is al-
located to the tech sector, in this example of an investment in IBM). Because
the monetary returns from a short-call or call-spread strategy are fixed and
the potential for losses are rather high, I prefer to execute bearish investments
using the long-put strategy discussed in the “Gaining Exposure” section.
With this explanation of the short-call spread complete, we have all the
building blocks necessary to understand all the other strategies mentioned
in this book. Lets now turn to two nonrecommended complex strategies
for accepting exposure—the short straddle and the short strangle—both of
which are included not because they are good strategies but rather for the
sake of completeness.
Short Straddle/Short Strangle
Short Straddle
RED
Downside: Overvalued
Upside: Overvalued
Execute: Sell an ATM put; simultaneously sell an ATM call spread
Accepting Exposure 231
Risk: Amount equal to upper strike price minus premium received
Reward: Limited to premium received
Margin: Dollar amount equal to upper strike price
Short Strangle
RED
RED
Downside: Overvalued
Upside: Overvalued
Execute: Sell an OTM put; simultaneously sell an OTM call spread
Risk: Call-spread leg: Amount equal to difference between
strikes and premium received. Put leg: Amount equal to
strike price minus premium received. Total exposure is
the sum of both legs.
Reward: Limited to premium received
Margin: Call-spread leg: Amount equal to difference between
strikes. Put leg: Amount equal to strike price. Total mar -
gin is the sum of both legs.
The Gist
In my opinion, these are short-term trades rather than investments. Even
though a short put uses a short-tenor option, the perspective of the inves-
tor is that he or she is buying shares. These strategies are a way to express
the belief that the underlying stock price will not move over a short time.
In my experience, there is simply no way to develop a rational view of how
a single stock will move over a short time frame. In the short term, markets
232 •   TheIntelligentOptionInvestor
fluctuate based on animal spirits, fads, and various other insanities. Why
subject yourself to the torture of trying to figure out these insanities and
profit from them when there are easier, more intelligent ways of doing so?
Of the two strategies, the short straddle is preferable because it yields
the greatest amount of premium. Use this strategy at your own peril,
however.
Lets turn now to a discussion of how to mix exposure—simultane-
ously gaining and accepting exposure and overlaying options on stock po-
sitions.
233
Chapter 11
Mixing ExposurE
Mixing exposure uses combinations of gaining and accepting exposure,
employing strategies that we already discussed to create what amounts to
sort of a short-term synthetic position in a stock (either long or short).
These strategies, nicknamed “diagonals” can be extremely attractive and
extremely financially rewarding in cases where stocks are significantly mis-
priced (in which case, exposure to one direction is overvalued, whereas the
other is extremely undervalued).
Frequently, using one of these strategies, an investor can enter a po-
sition in a levered out-of-the-money (OTM) option for what, over time,
becomes zero cost (or can even net a cash inflow) and zero downside expo-
sure. This is possible because the investor uses the sale of one shorter-tenor
at-the-money (ATM) option to subsidize the purchase of another longer-
tenor OTM one. Once the sold option expires, another can be sold again,
and whatever profit is realized from that sale goes to further subsidize the
position.
This strategy works well because of a couple of rules of option pricing
that we have already discussed:
1. ATM options are more expensive than OTM options of the same
tenor.
2. Short-tenor options are worth less than long-tenor options, but
the value per day is higher for the short-tenor options.
234 •   TheIntelligentOptionInvestor
I provide actual market examples of these strategies in this chapter and will
point out the effect of both these points in those examples.
Because these strategies are a mix of exposures, it makes sense
that they are just complex (i.e., multioption) positions. I will discuss the
following:
1. Long diagonal
2. Short diagonal
Note that the nomenclature I use here is a bit different from what others
in the market may use. What I term a diagonal in this book is what others
might call a “spit-strike synthetic stock. ” Since Bernie Madoff s infamous
“split-strike conversion” fraud, this term doesnt have a very good ring to
it. For other market participants, a diagonal means simultaneously buying
and selling options of the same type (i.e calls or puts). In this book, it means
selling an option of one kind and buying the other kind.
I will also talk about what is known in the options world as overlays. One
of the most useful things about options is the way that they can be grafted or
overlain onto an existing common stock position in a way that alters the port-
folios overall risk-reward profile. The strategies I will review here are as follows:
1. Covered calls
2. Protective puts
3. Collars
These strategies are popular but often misunderstood ways to alter your
portfolios risk-reward profile.
Coming this far in this book, you already have a good understand-
ing about how options work, so the concepts presented here will not be
difficult, but I will discuss some nuances that will help you to evaluate
investment choices and make sound decisions regarding the use of these
strategies. I will refer to strike selection and tenor selection in the following
pages, but for these, along with “The Gist” section, Ill include an “Execu-
tion” section and a “Common Pitfalls” section.
Covered calls are an easy strategy to understand once you understand
short puts, so I will discuss those first. Protective puts share a lot of simi-
larities with in-the-money (ITM) call options, and I will discuss those next.
Mixing Exposure  •  235
Collars are just a combination of the other two overlay strategies and so are
easiest left to the end.
Long Diagonal
GREEN
RED
Downside: Overvalued
Upside: Undervalued
Execute: Sell an ATM put option (short put) and simultaneously
buy an OTM call option (long call)
Risk: Sum of puts strike price and net premium paid for call
Reward: Unlimited
Margin: Amount equal to puts strike price
The Gist
Other than the blank space in the middle of the diagram and the disparity
between the lengths of the tenors, the preceding diagram looks very much like
the risk-return profile diagram for a long stock—accepting downside exposure
in return for gaining upside exposure. As you can see from the diagram, the
range of exposure for the short put lies well within the Black-Scholes-Merton
model (BSM) cone, but the range of exposure for the long call is well outside
the cone. It is often possible to find short-putlong-call combinations that al-
low for an immediate net credit when setting up this investment.
236 •   TheIntelligentOptionInvestor
Because we must fully margin a short-put investment, that leg of
the long diagonal carries with it a loss leverage ratio of 1.0. However, the
OTM call leg represents an immediate realized loss coupled with a very
high lambda value for gains. As such, if the put option expires ITM, the
long diagonal is simply a levered strategy; if the put option expires OTM,
the investment is a very highly levered one because the unlevered put
ceases to influence the leverage equation. Another short put may be written
after the previous short put expires; this further subsidizes the cost of the
calls and so greatly increases the leverage on the strategy.
If the stock moves quickly toward the upper valuation range, this
structure becomes extremely profitable on an unrealized basis. If the put
option expires ITM, the investor is left with a levered long investment in
the stock in addition to the long position in the OTM. As in any other
complex structure, the investment may be ratioed—for instance, by buying
one call for every two puts sold or vice versa.
Strike Price Selection
The put should be sold ATM or close to ATM in order to maximize the time
value sold, as explained earlier in the short-put summary. The call strike may be
bought at any level depending on the investors appetite for leverage but is usu-
ally purchased OTM. The following table shows the net debit or credit associated
with the long diagonal between the ATM put ($55 strike price, delta of 0.42,
priced at the bid price) with an expiration of 79 days and each call strike (at the
ask price) listed, all of which are long-term equity anticipated securities (LEAPS)
having expirations in 534 days. The lambda figure for the OTM calls is also given
to provide an idea of the comparative leverage of each call option. For this exam-
ple, I am using JP Morgan Chase (JPM) when its stock was trading for $56.25.
Strike Delta (Debit) Credit Call Lambda (%)
57.50 0.43 (2.52) 5.6
60.00 0.37 (1.57) 6.1
62.50 0.31 (0.76) 6.7
65.00 0.26 (0.25) 7.0
70.00 0.16 0.78 8.4
75.00 0.10 1.28 9.5
80.00 0.06 1.56 10.5
Mixing Exposure  •  237
Here we can see that for a long diagonal using 79-day ATM puts
and 594-day LEAPS that are OTM by just over 15 percent, we are
paying a net of only $25 per contract for notional control of 100
shares. On a per-contract basis, at the following settlement prices,
we would generate the following profits (or losses, in the case of the
first row):
Settlement Price ($) Dollar Profit per Contract
Percentage Return on Original
Investment (%)
65 0 100
66 100 300
67 200 700
68 300 1,100
69 400 1,500
70 500 1,900
71 600 2,300
72 700 2,700
73 800 3,100
74 900 3,500
75 1,000 3,900
If the stock price moves up very quickly, it might be more beneficial
to close the position or some portion of the position before expiration. Lets
say that my upper-range estimate for this stock was $75. From the preced-
ing table, I can see that my profit per contract if the stock settles at my fair
value range is $1,000. If there is enough time value on a contract when
the stock is trading in the upper $60 range to generate a realized profit of
$1,000, I am likely to take at least some profits at that time rather than wait-
ing for the calls to expire.
In Chapter 9, I discussed portfolio composition and likened the use
of leverage as a side dish to a main course. This is an excellent side dish that
can be entered into when we see a chance to supplement the main meal of
a long stockITM call option position with a bit more spice. Lets now turn
to its bearish mirror—the short diagonal.
238 •   TheIntelligentOptionInvestor
Short Diagonal
RED
GREEN
Downside: Undervalued
Upside: Overvalued
Execute: Sell an ATM call option while buying one to cover at a
higher price (short-call spread) and simultaneously buy
an OTM put option (long put)
Risk: Sum of puts strike price and net premium paid for call
Reward: Amount equal to the puts strike price minus any net
premium paid for it
Margin: Amount equal to spread between call options
The Gist
The diagram for a short diagonal is just the inverse of the long diagonal and, of
course, looks very similar to the risk-return profile diagram for a short stock—
accepting upside exposure in return for gaining downside exposure. The gist
of this strategy is simply the short-exposure equivalent to the long diagonal, so
the comments about the long diagonal are applicable to this strategy as well.
The one difference is that because you must spend money to cover the short
call on the upside, the subsidy that the option sale leg provides to the option
purchase leg is less than in the case of the long diagonal. Also, of course, a stock
price cannot turn negative, so your profit upside is capped at an amount equal
to the effective sell price. This investment also may be ratioed (e.g., by using
one short-call spread to subsidize two long puts).
Mixing Exposure  •  239
Strike Price Selection
Strike price selection for a short diagonal is more difficult because there
are three strikes to price this time. Looking at the current pricing for a
call spread with the short call struck at $55, I get the following selection of
credits:
Upper Call Strike ($)
Call Spread
Net Credit ($)
Percent Total
Risk Percent Total Return
57.50 1.27 17 49
60.00 2.14 33 83
62.50 2.44 50 94
65.00 2.51 67 97
70.00 2.59 100 100
Looking at this, lets say we decide to go with the $55.00/$62.50 call
spread. Doing so, we would receive a net credit of $2.44. Now selecting the
put to purchase is a matter of figuring out the leverage of the position with
which you are comfortable.
Strike ($) Delta (Debit) Credit ($) Put Lambda (%)
20.00 0.02 2.20 4.5
23.00 0.02 2.11 4.6
25.00 0.03 2.05 4.6
28.00 0.04 1.91 4.8
30.00 0.05 1.78 4.8
33.00 0.07 1.57 4.8
35.00 0.09 1.38 4.8
38.00 0.12 0.99 4.8
40.00 0.15 0.67 4.7
42.00 0.17 0.30 4.7
45.00 0.23 (0.43) 4.5
47.00 0.26 (1.01) 4.4
50.00 0.33 (1.91) 4.4
52.50 0.39 (3.11) 4.0
240 •   TheIntelligentOptionInvestor
Notice that there is much less leverage on the long-put side than on
the long-call side. This is a function of the volatility smile and the abnor -
mally high pricing on the far OTM put side. It turns out that the $20-strike
puts have an implied volatility of 43.3 percent compared to an ATM im-
plied volatility of 22.0 percent.
Obviously, the lower level of leverage will make closing before expira-
tion less attractive, so it is important to select a put strike price between the
present market price and your worst-case fair value estimate. In this way,
if the option does expire when the stock is at that level, you will at least be
able to realize the profit of the intrinsic value.
With these explanations of the primary mixed-exposure strategies,
now lets turn to overlays—where an option position is added to a stock
position to alter the risk-return characteristics of the investors portfolio.
Covered Call
Contingent Upside Exposure
Contingent Downside Exposure
LIGHT GREEN
RED
LIGHT RED
Downside: Overvalued
Upside: Fairly valued or undervalued
Mixing Exposure  •  241
Execute: Buy common stock and simultaneously sell a call option
Risk: Strike price minus premium received
Reward: Limited to premium and, as long as the shares are not called,
the dividends received during the tenor of the option
Margin: None as long as stock and option positions are evenly
matched—long stock position serves as collateral for the
sold call
The Gist
If you look just as far as the option tenor lasts on the preceding diagram,
you will see that the risk-return profile is identical to that of a short put. As
evidence, please compare the following two diagrams:
We have sold
away the upside
exposure so are
left with only
the acceptance
of downside
exposure here.
RED
Covered call
242 •   TheIntelligentOptionInvestor
We accepted
downside
exposure when
we sold this
put, so have no
exposure to the
upside here.
RED
The top of the “Covered call” diagram is grayed out because we have
sold away the upside exposure to the stock by selling the call option, and
we are left only with the acceptance of the stocks downside exposure. The
pictures are slightly different, but the economic impact is the same.
The other difference you will notice is that after the option expires, in the
case of the covered call, we have represented the graphic as though there is some
residual exposure. This is represented in this way because if the option expires
ITM, you will have to deliver your stock to the counterparty who bought your
call options. As such, your future exposure to the stock is contingent on another
investors actions and the price movement of the stock. This is an important point
to keep in mind, and I will discuss it more in the “Common Pitfalls” section.
Execution
Because this strategy is identical from a risk-reward perspective to short
puts, the execution details should be the same as well. Indeed, covered
calls should—like short puts—be executed ATM to get the most time value
possible and preferably should be done on a stock that has had a recent fall
and whose implied volatility has spiked. However, these theoretical points
Short put
Mixing Exposure  •  243
ignore the fact that most people simply want to generate a bit of extra in-
come out of the holdings they already have and so are psychologically re-
sistant to both selling ATM (because this makes it more likely for their
shares to be called away) and selling at a time when the stock price sud-
denly drop (because they want to reap the benefit of the shares recovering).
Although I understand these sentiments, it is important to realize
that options are financial instruments and not magical ones. It would be
nice if we could simply find an investment tool that we could bolt onto
our present stock holdings that would increase the dividend a nice amount
but that wouldnt put us at risk of having to deliver our beloved stocks to a
complete stranger; unfortunately, this is not the case for options.
For example, lets say that you own stock in a company that is paying out
a very nice dividend yield of 5 percent at present prices. This is a mature firm
that has tons of cash flow but few opportunities for growth, so management
has made the welcome choice to return cash to shareholders. The stock is trad-
ing at $50 per share, but because the dividend is attractive to you, you are loathe
to part with the stock. As such, you would prefer to write the covered call at a
$55 or even a $60 strike price. A quick look at the BSM cone tells us why you
should not be expecting a big boost in yield from selling the covered calls:
80
Sold call
range of
exposure
70
60
50
40
30
20
5/18/2012 5/20/2013 249 499 749 999
Cash Flows R Us, Inc. (CASH)
Date/Day Count
Stock Price
GREEN
LIGHT GREENGRAY
LIGHT REDRED
244 •   TheIntelligentOptionInvestor
Clearly, the range of exposure for the $55-strike call is well above the
BSM cone. The BSM cone is pointing downward because the dividend rate
is 5 percent—higher than the risk-free rate. This means that BSM drift will
be lower. In addition, because this is an old, mature, steady-eddy kind of
company, the expected forward volatility is low. Basically, this is a perfect
storm for a low option price.
My suggestion is to either write calls on stocks you dont mind de-
livering to someone else—stocks for which you are very confident in the
valuation range and are now at or above the upper bound—or simply to
look for a portfolio of short-put/covered-call investments and treat it like
a high-yield bond portfolio, as I described in Chapter 10 when explaining
short puts. It goes without saying that if you think that a stock has a lot of
unappreciated upside potential, its not a good idea to sell that exposure
away!
One other note about execution: as I have said, short puts and cov-
ered calls are the same thing, but a good many investors do not realize this
fact or their brokerages prevent them from placing any trade other than a
covered call. This leads to a situation in which there is a tremendous sup-
ply of calls. Any time there is a lot of supply, the price goes down, and you
will indeed find covered calls on some companies paying a lot less than
the equivalent short put. Because you will be accepting the same downside
exposure, it is better to get paid more for it, so my advice is to write the put
rather than the covered call in such situations.
To calculate returns for covered calls, I carry out the following steps:
1. Assume that you buy the underlying stock at the market price.
2. Deduct the money you will receive from the call sale as well as
any projected dividends—these are the two elements of your cash
inflow—from the market price of the stock. The resulting figure is
your effective buy price (EBP).
3. Divide your total cash inflow by the EBP .
I always include the projected dividend payment as long as I am writ-
ing a short-tenor covered call and there are no issues with the company
that would prevent it from paying the dividend. Owners of record have a
right to receive dividends, even after they have written a covered call on the
Mixing Exposure  •  245
stock, so it makes sense to count the dividend inflow as one element that
reduces your EBP . In formula form, this turns out to be
Coveredc allr eturn= premiumr eceivedf romc all+ projectedd ividends
stockp rice premiumf romc allp rojected dividends
For a short put, you have no right to receive the dividend, so I find the
return using the following formula:
Shortp ut return= premiumr eceivedf roms hort put
strikepricep remium from shortp ut
Common Pitfalls
Taking Profit
One mistake I hear people make all the time is saying that they are going
to “take profit” using a covered call. Writing a covered call is taking profit
in the sense that you no longer enjoy capital gains from the stocks appre-
ciation, but it is certainly not taking profit in the sense of being immune
to falls in the market price of the stock. The call premium you receive will
cushion a stock price drop, but it will certainly not shield you from it. If
you want to take profits on a successful stock trade, hit the “Sell” button.
Locking in a Loss
A person sent me an e-mail telling me that she had bought a stock at $17,
sold covered calls on it when it got to $20 (in order to “take profits”), and
now that the stock was trading for $11, she wanted to know how she could
“repair” her position using options. Unfortunately, options are not magical
tools and cannot make up for a prior decision to buy a stock at $17 and ride
it down to $11.
If you are in such a position, dont panic. It will be tempting to write
a new call at the lower ATM price ($11 in this example) because the cash
inflow from that covered call will be the most. Dont do it. By writing a
covered call at the lower price, you are—if the shares are called away—
locking in a realized loss on the position. Y ou can see this clearly if you list
each transaction in the example separately.
246 •   TheIntelligentOptionInvestor
No. Buy/Sell Instrument
Price of
Instrument
Effective
Buy (Sell)
Price of
Stock Note
1 Buy Stock $17/share $17/share Original purchase
2 Sell Call option $1/share $16/share Selling a covered call
to take profits when
stock reaches $20/
share leaves the
investor with down-
side exposure and $1
in premium income.
3 Sell Call option $0.75 ($11.75/
share)
Stock falls to $11, and
investor sells another
covered call to
generate income to
ameliorate the loss.
In transaction 1, the investor buys the shares for $17. In transaction 2,
when the stock hits $20 per share, the investor sells a covered call and receives
$1 in premium. This reduces the effective buy price to $16 per share and
means that the investor will have to deliver the shares if the stock is trad-
ing at $20 or above at expiration. When the stock instead falls to $11, the
investor—wanting to cushion the pain of the loss—sells another ATM cov-
ered call for $0.75. This covered call commits the investor to sell the shares
for $11.75. No matter how you look at it, buying at $16 per share and sell-
ing at $11.75 per share is not a recipe for investing success.
The first step in such a situation as this—when the price of a stock
on which you have accepted downside exposure falls—is to look back
to your valuation. If the value of the firm has indeed dropped because
of some material negative news and the position no longer makes sense
from an economic perspective, just sell the shares and take the lumps.
If, however, the stock price has dropped but the valuation still makes
for a compelling investment, stay in the position; if the investment is
Mixing Exposure  •  247
compelling enough, this is the time to figure out a clever way to get more
exposure to it.
Y ou can write calls as long as they are at least at the same strike
price as your previous purchase price or EBP; this just means that you
are buying at $16 and agreeing to sell at at least $16, in other words. Also
keep in mind that any dividend payment you receive you can also think
of as a reduction of your EBP—that cash inflow is offsetting the cost of
the shares. Factoring in dividends and the (very small) cash inflow as-
sociated with writing far OTM calls will, as long as you are right about
the valuation, eventually reduce your EBP enough so that you can make
a profit on the investment.
Over-/Underexposure
Options are transacted in contract sizes of 100 shares. If you hold a number
of shares that is not evenly divisible by 100, you must decide whether you
are going to sell the next number down of contracts or the next number
up. For example, lets say that you own 250 shares of ABC. Y ou can either
choose to sell two call contracts (in which case you will not be receiving
yield on 50 of your shares) or sell three call contracts (in which case you
will be effectively shorting 50 shares). My preference is to sell fewer con-
tracts controlling fewer shares than I hold, and in fact, your broker may or
may not insist that you do so as well. If not, it is an unpleasant feeling to get
a call from a broker saying that you have a margin call on a position that
you didnt know you had.
Getting Assigned
If you write covered calls, you live with the risk that you will have to deliver
your beloved shares to a stranger. Y ou can deliver your shares and use the
proceeds from that sale (the broker will deposit an amount equal to the
strike price times the contract multiplier into your account, and you get
to keep the premium you originally received) to buy the shares again, but
there is no way around delivering the shares if assigned.
248 •   TheIntelligentOptionInvestor
Now that you understand covered calls, lets turn to protective
puts.
Protective Puts
LIGHT GREEN
RED
GRAY
Downside: Irrelevant
Upside: Undervalued
Execute: Buy common stock and simultaneously buy a put op-
tion (the diagram shows the purchase of an OTM put
option)
Risk: Purchase price of stock minus strike price of put option
minus premium paid
Reward: Unlimited, less premium paid for put option, which can-
not be recovered
Margin: None because this is a purchase of an option
The Gist
If you look just as far as the option tenor lasts in the preceding diagram,
you will see that the risk-return profile is identical to that of a short put. As
evidence, please compare the following two diagrams:
Mixing Exposure  •  249
GREEN
RED
GRAY
GREEN
ORANGE
Protective put
ITM call
250 •   TheIntelligentOptionInvestor
The graphic conventions are a little different, but both diagrams show
the acceptance of a narrow band of downside exposure offset by a bound-
less gain of upside exposure. The area below the protective puts strike price
shows that economic exposure has been neutralized, and the area below
the ITM call shows no economic exposure. The pictures are slightly differ-
ent, but the economic impact is the same.
The objective of a protective put is obvious—allow yourself the
economic benefits from gaining upside exposure while shielding yourself
from the economic harm of accepting downside exposure. The problem is
that this protection comes at a price. I will provide more infromation about
this in the next section.
Execution
Everyone understands the concept of protective puts—its just like the
home insurance you buy every year to insure your property against dam-
age. If you buy an OTM protective put (lets say one struck at 90 percent of
the current market price of the stock), the exposed amount from the stock
price down to the put strike can be thought of as your “deductible” on your
home insurance policy. The premium you pay for your put option can be
thought of as the “premium” you pay on your home insurance policy.
Okay—lets go shopping for stock insurance. Apple (AAPL) is trad-
ing for $452.53 today, so Ill price both ATM and OTM put insurance for
these shares with an expiration of 261 days in the future. Ill also annualize
that rate.
Strike ($) “Deductible” ($) “Premium” ($)
Premium as
Percent of
Stock Price
Annualized
Premium (%)
450 2.53 40.95 9.1 12.9
405 47.53 20.70 4.6 6.5
360 92.53 8.80 1.9 2.7
Now, given these rates and assuming that you are insuring a $500,000
house, the following table shows what equivalent deductibles, annual
premiums, and total liability to a home owner would be for deductibles
equivalent to the strike prices Ive picked for Apple:
Mixing Exposure  •  251
Equivalent
AAPL Strike ($) Deductible ($) Annual Premium ($)
Total Liability to Home
Owner ($)
450 2,795 64,500 67,295
405 52,516 32,500 85,016
360 102,236 13,500 115,736
I know that I would not be insuring my house at these rates and under
those conditions! In light of these prices, the first thing you must consider
is whether protecting a particular asset from unrealized price declines is
worth the huge realized losses you must take to buy put premium. Buying
ATM put protection on AAPL is setting up a 12.9 percent hurdle rate that
the stock must surpass in one year just for you to start making a profit on
the position, and 13 percent per year is quite a hurdle rate!
If there is some reason why you believe that you need to pay for insurance,
a better option—cheaper from a realized loss perspective—would be to sell
the shares and use part of the proceeds to buy call options as an option-based
replacement for the stock position. This approach has a few benefits:
1. The risk-reward profile is exactly the same between the two
structures.
2. Any ATM or ITM call will be more lightly levered than any OTM
put, meaning a lower realized loss on initiation.
3. For dividend-paying stocks, call owners do not have the right to
receive dividends, but the amount of the projected dividend is de-
ducted from the premium (as part of the drift calculation shown
in the section on covered calls). As such, although not being paid
dividends over time, you are getting what amounts to a one-time
upfront dividend payment.
4. If you do not like the thought of leverage in your portfolio, you can
self-margin the position (i.e., keep enough cash in reserve such that
you are not “borrowing” any money through the call purchase).
I do not hedge individual positions, but I do like the ITM call op-
tion as an alternative for people who feel the need to do so. For hedg-
ing of a general portfolio, rather than hedging of a particular holding in
a portfolio, options on sector or index exchange-traded funds (ETFs) are
more reasonably priced. Here are the ask prices for put options on the SPX
252 •   TheIntelligentOptionInvestor
ETF [tracking the Standard and Poors 500 Index (S&P 500), which closed
at 1,685.73 when these data were retrieved] expiring in about 10 months:
Strike/Stock ($) Ask Price ($) Premium as Percent of Stock Price
0.99 106.60 6.3
0.89 50.90 3.0
0.80 25.80 1.5
This is still a hefty chunk of change to pay for protection on an index but
much less than the price of protection on individual stocks.
1
Common Pitfalls
Hedge Timing
Assume that you had talked to me a year ago and decided to take my ad-
vice and avoid buying protective puts on single-name options. Instead, you
took a protective put position on the S&P 500. Good for you.
Setting aside for a moment how much of your portfolio to hedge, lets
take a look at what happened since you bought the downside protection:
S&P 500
1,800
1,700
1,600
1,500
1,400
1,300
1,200
1,100
1,000
8/1/20129/1/201210/1/201211/1/201212/1/20121/1/20132/1/20133/1/20134/1/20135/1/20136/1/20137/1/2013
GREEN
Mixing Exposure  •  253
When you bought the protection, the index was trading at 1,375, so
you bought one-year puts about 5 percent OTM at $1,300. If the market
had fallen heavily or even moderately during the first five months of the
contract, your puts would have served you very well. However, now the
puts are not 5 percent OTM anymore but 23 percent OTM, and it would
take another Lehman shock for the market to make it down to your put
strike.
Keeping in mind that buying longer-tenor options gives you a better
annualized cost than shorter-tenor options, you should be leery of entering
into a hedging strategy such as the one pictured here:
S&P 500
1,800
1,700
1,600
1,500
1,400
1,300
1,200
1,100
1,000
8/1/20129/1/201210/1/201211/1/201212/1/20121/1/20132/1/20133/1/20134/1/20135/1/20136/1/20137/1/2013
GREEN
Buying short-tenor puts helps in terms of providing nearer to
ATM protection, but the cost is higher, and it gets irritating to keep
buying expensive options and never benefiting from them (funny—
no one ever says this about home insurance). Although there are no
perfect solutions to this quandary, I believe the following approach
has merit:
254 •   TheIntelligentOptionInvestor
S&P 500
1,800
1,700
1,600
1,500
1,400
1,300
1,200
1,100
1,000
8/1/20129/1/201210/1/201211/1/201212/1/20121/1/20132/1/20133/1/20134/1/20135/1/20136/1/20137/1/2013
GREEN GREENLIGHT GREEN
LIGHT GREEN
LIGHT GREEN
Here I bought fewer long-term put contracts at the outset and then add-
ed put contracts at higher strikes opportunistically as time passed. I have left
myself somewhat more exposed at certain times, and my protection doesnt all
pick up at a single strike price, so the insurance coverage is spotty, but I have
likely reduced my hedging cost a great deal while still having a potential source
of investible cash on hand in the form of options with time value on them.
The Unhappy Case of a Successful Hedge
Markets are down across the board. Y our brokerage screen is awash in red.
The only bright spot is the two or three lines of your screen showing your
S&P 500 puts, which are strongly positive. Y ou bought your protection
when the market was going up, so it was very cheap to purchase. Now, with
the market in a terror, the implied volatilities have shot up, and you are sit-
ting on a huge positive unrealized value.
Now what?
The psychological urge to keep that hedge on will be strong. Such a po-
sition is safe after all, and with the rest of the world falling apart, it feels nice to
have somewhere safe to go. What should you do with this unrealized profit?
Mixing Exposure  •  255
Step one is always assessing the value of securities in your portfolio
and securities that might be on your watch list. Does the news driving the
markets down have a material effect on the value of any of your holdings?
Certainly, if the market believes that the economy is going into a recession,
the next few years worth of revenue growth and profits may be those that
you projected for your explicit-period worst-case scenarios, but that will
likely be offset by faster medium-term growth as the economy bounces
back. Think about the valuations you have for your holdings objectively and
with as little passion as possible. Its better not to have your brokerage screen
or a price chart of the financial markets or whatever up while you do this.
Are there securities whose present prices are significantly different from
your worst-case valuation range? Do the prices imply an unlevered return of 30,
40, or 50 percent or more? Is there a stock that has been on your watch list for a
long time but until now has never been at a price at which you wanted to buy it?
This is where you must resist the urge to take the safe path and close the
hedge and then turn around the cash and increase your position size on your
best investments or on investments that you have always wanted to make but
havent had the chance. This will be a hard thing to do psychologically. The
world is telling you to run and hide. This is the time to remember the maxim,
“Be bold when others are scared and scared when others are bold. ” Times of
stress are those that set great investors apart from the rest of the crowd.
Not Having a Plan
Finally, we get to the question of how to size our hedge. If we look at the in-
dicative prices for S&P 500 puts shown earlier, we can see that if we choose
to hedge the entire amount of our portfolio, we set up at least a 6 percent-
age point drag on our portfolio every 10 months or so, and that is a lot of
potentially dead weight to be carrying around.
In daily life, I believe that people are prone to overinsure (e.g.,
extended warrantees for consumer electronic items and so on), and this
is a good habit to keep away from in investing. Risk is not a temporary
unrealized loss caused by market panic. Usually risk is not the inability to
invest more capital when you want to invest more capital (unless by not
investing it you will have a shortfall in capital in the future). Risk is usually
not any of the things TV pundits talk about as being risk.
256 •   TheIntelligentOptionInvestor
I will discuss risk in greater detail in Chapter 12, but a sensible defini-
tion of risk is not having the capital resources to pay for something when
you need to pay for it. In this sense, risk can be talked about in terms of
liquidity—a short-term lack of spending power—and solvency—a funda-
mental lack of capital assets. For example, lets say that you have commit-
ted to pay a restaurant and entertainers the remainder of their $50,000 fee
for your sons bar mitzvah or your daughters wedding, and you only have
$20,000 in net worth. Y ou are in a position of risk because of problems of
solvency but not necessarily liquidity (i.e., you could borrow the money to
pay for these things). However, if you have a net worth of $3 million—all of
it unrealized gains on real estate holdings—and you have the same $50,000
bill to pay, you may be in a position of risk because of problems in liquidity
but not solvency.
Risk that stems from issues of liquidity usually can be controlled
through intelligent asset allocation. For example, the millionaire father in
the preceding bar mitzvah/wedding example can realize $50,000 worth
of his unrealized investment gains to meet his immediate cash need. A
79-year-old with 85 percent of her net worth of $2.5 million invested in
tech sector initial public offerings (IPOs) or companies in the Chinese in-
frastructure supply chain can ameliorate her risk of not being able to pay
for necessary healthcare and living expenses by shifting more of her assets
into bonds and CDs. Usually, in cases such as this—which, I believe, make
up the majority of cases people are trying to “hedge”—there are much
better ways of controlling risk than buying puts on the S&P 500 or the
Russell 2000!
However, there is a more subtle instance of risk—not maximizing re-
turns on ones invested capital and, because of this, not having the capital
adequacy to meet unforeseen cash-flow needs in the future. This instance
of risk deals with solvency, rather than liquidity.
This type of risk cannot be ameliorated through a defensive strategy
but must be controlled through an offensive one. Setting aside savings, in-
vesting those savings wisely and consistently in good times, and having the
courage to invest when it is hardest to do so (i.e., when the market is crash-
ing) are all elements of this risk-control strategy. Put options can only help
with the third case here—investing when it is hardest to do so—but they
cannot help without the put owners input of personal courage.
Mixing Exposure  •  257
This topic brings us back to the last section—investing the proceeds
in a successful hedge in undervalued assets. I believe that portfolio hedges
should be set up with a particular cost and investing goal in mind. For
example, “I am willing to allocate as much as 1 percentage point of my
investment performance this year to have an extra 5 percent of cash on
hand to invest in case the market drops by 10 to 20 percent. ” This is the
rough outline of a hedging plan. It specifies the maximum you are will-
ing to spend and a target for how much cash you want in case of a certain
market downdraft.
This plan does not mean that you always have to spend 1 percent
of your net worth on hedges. There are times when it is more sensible to
spend more on hedges—because of building macroeconomic uncertainty
or whatever—and other times when it is more sensible to spend less—when
the economy is just coming out of a recession for instance.
Also note that the plan specifies a cash level. If you are not fully in-
vested in your securities portfolio, you are already hedged to the degree
that your cash assets are not subject to direct security price risk (cash is
subject to inflation risk, but this is another topic). The cash you have on
reserve will allow you to purchase if and when the market falls. As such,
I dont believe that people holding a significant allocation of cash should
think about hedging per se. Y ou may believe that the market is ready to fall,
in which case, you can make a bearish bet on the level of the index using a
long put, a short-call spread, or a short diagonal, but this is a proactive in-
vestment that expresses your opinion about the level of the market vis-à-vis
the state of the economy.
What it does not specify is what you will spend the cash on. This is
where an understanding of the value of the companies in your portfolio
or on your watch list comes into play. If you had an extra 5 percent (or
$50,000 or however you want to think about it) in cash, in what securities
would you invest? Of course, the answer will change depending on the
price of the securities vis-à-vis what you know to be a sensible valuation
range because the expected returns on the investments will change with
the market price.
So this is the last step in a sensible hedging plan—having an idea of
what companies you would want to invest in were you to have the extra
capital and if you could be reasonably assured of a good return. Having a
258 •   TheIntelligentOptionInvestor
plan like this in place will allow you to size and time your hedges appropri-
ately and will help you to make the most out of whatever temporary crisis
might come your way.
2
Now that you have a good understanding of protective puts and
hedging, lets turn to the last overlay strategy—the collar.
Collar
Contingent Exposure
Contingent Exposure
Contingent Exposure
GREEN
LIGHT GREEN
LIGHT ORANGE
LIGHT RED
ORANGE
RED
Downside: Irrelevant
Upside: Undervalued
Execute: Sell a call option on a stock or index that you own and on
which you have a gain, and use the proceeds from the call
sale to buy an OTM put
Risk: Flexible, depending on selection of strikes
Reward: Limited to level of sold call strike
Margin: None because the long position in the hedged security
serves as collateral for the sold call option, and the OTM
put option is purchased, so it does not require margining
Mixing Exposure  •  259
The Gist
This structure is really much simpler and has a much more straightfor -
ward investment purpose than it may seem when you look at the preceding
diagram. When people talk about “taking profits” using a covered call, the
collar is actually the strategy they should be using.
Imagine that you bought a stock some time ago and have a nice
unrealized gain on it. The stock is about where you think its likely fair
value is, but you do not want to sell it for whatever reason (e.g., it is
paying a nice dividend or you bought it less than a year ago and do not
want to be taxed on short-term capital gains or whatever). Although you
do not want to sell it, you would like to protect yourself from downside
exposure.
Y ou can do this cheaply using a collar. The collar is a covered call,
which we have already discussed, whose income subsidizes the purchase of
a protective put at some level that will allow you to keep some of the unre-
alized gains on your securities position. The band labeled “Orange” on the
diagram shows an unrealized gain (or, conversely, a potential unrealized
loss). If you buy a put that is within this orange band or above, you will be
guaranteed of making at least some realized profit on your original stock
or index investment. Depending on how much you receive for the covered
call and what strike you select for the protective put, this collar may rep-
resent completely “free” downside protection or you might even be able to
realize a net credit.
Execution
The execution of this strategy depends a great deal on personal prefer -
ence and on the individual investors situation. For example, an investor
can sell a short-tenor covered call and use those proceeds to buy a longer-
tenor protective put. He or she can sell the covered call ATM and buy a
protective put that is close to ATM; this means the maximum and mini-
mum potential return on the previous security purchase is in a fairly tight
band. Conversely, the investor might sell an OTM covered call and buy
a protective put that is also OTM. This would lock in a wider range of
guaranteed profits over the life of the option.
260 •   TheIntelligentOptionInvestor
I show a couple of examples below that give you the flavor of the
possibilities of the collar strategy. With these examples, you can experi-
ment yourself with a structure that fits your particular needs. Look on
my website for a collar scenario calculator that will allow you to visualize
the collar and understand the payoff structure given different conditions.
For these examples, I am assuming that I bought Qualcomm stock at
$55 per share. Qualcomm is now trading for $64.71—an unrealized gain
of 17.7 percent.
Collar 1: 169 Days to Expiration
Strike Price ($) Bid (Ask) Price ($)
Sold call 65.00 3.40
Purchased put 60.00 (2.14)
Net credit $1.26
This collar yields the following best- and worst-case effective sell prices
(ESPs) and corresponding returns (assuming a $55 buy price):
ESP ($) Return (%)
Best case 66.26 20.5
Worst case 61.26 11.4
Here we sold the $65-strike calls for $3.40 and used those proceeds to
buy the $60-strike put options at $2.14. This gave us a net credit of $1.26,
which we simply add to both strike prices to calculate our ESP . We add the
net credit to the call strike because if the stock moves above the call strike,
we will end up delivering the stock at the strike price while still keeping the
net credit. We add the net credit to the put strike because if the stock closes
below the put strike, we have the right to sell the shares at the strike price
and still keep the net credit. The return numbers are calculated on the basis
of a $55 purchase price and the ESPs listed. Thus, by setting up this collar in
Mixing Exposure  •  261
this way, we have locked in a worst possible gain of 11.4 percent and a best
possible gain of 20.5 percent for the next five and a half months.
Lets look at another collar with a different profit and loss profile:
Collar 2: 78 Days to Expiration
Strike Price ($) Bid (Ask) Price ($)
Sold call 70 0.52
Purchased put 62.50 (1.55)
Net debit (1.03)
This collar yields the following best- and worst-case ESPs and corresponding
returns (assuming a $55 buy price):
ESP ($) Return (%)
Best case 68.97 25.4
Worst case 61.47 11.8
This shows a shorter-tenor collar—about two and a half months be-
fore expiration—that allows for more room for capital gains. This might be
the strategy of a hedge fund manager who is long the stock and uncertain
about the next quarterly earnings report. For his or her own business rea-
sons, the manager does not want to show an unrealized loss in case Qual-
comms report is not good, but he or she also doesnt want to restrict the
potential capital gains much either.
Calculating the ESPs and the returns in the same way as described
here, we get a guaranteed profit range from around 12 to over 25 percent.
One thing to note as well is that the protection is provided by a put, and
a put option can be sold any time before expiry to generate a cash inflow
from time value. Lets say then that when Qualcomm reports its quarterly
earnings, the stock price drops to $61—a mild drop that the hedge fund
manager considers a positive sign. Now that the manager is less worried
about the downside exposure, he or she can sell the put for a profit.
262 •   TheIntelligentOptionInvestor
The cash inflow from selling the put for a profit may even change the net
debit on the collar to a net credit, or the manager can use some of the cash
flow to buy back the sold call option if he or she is worried about the upside
being limited.
These are just two examples, but they show the kind of flexibility that
makes collars very useful investing instruments. With this chapter com-
plete, you have all the tools required to be an intelligent option investor.
Lets finish with an important discussion—an investigation of risk and in-
telligent option investing. This is the topic of Chapter 12.
263
Chapter 12
Risk and the intelligent
OptiOn investOR
The preceding 11 chapters have given you a great deal of information about
the mechanics of option investing and stock valuation. In this last chapter,
lets look at a subject that I have mentioned throughout this book—risk—
and see how an intelligent option investor conceives of it.
There are many forms of risk—some of which we discussed earlier
(e.g., the career risk of an investment business agent, solvency risk of a
retiree looking to maintain a good quality of life, and liquidity risk of a
parent needing to make a big payment for a childs wedding). The two risks
I discuss here are those that are most applicable to an owner of capital
making potentially levered investments in complex, uncertain assets such
as stocks. These two risks are market risk and valuation risk.
Market Risk
Market risk is unavoidable for anyone investing capital. Markets fluctuate, and
in the short term, these fluctuations often have little to do with the long-term
value of a given stock. Short term, it must be noted, is also relative. In words
attributed to John Maynard Keynes, but which is more likely an anonymous
aphorism, “The market can remain irrational longer than you can remain sol-
vent. ” Indeed, it is this observation and my own painful experience of the truth
of it that has brought me to my appreciation for in-the-money (ITM) options
as a way to preserve my capital and cushion the blow of timing uncertainty.
264 •   TheIntelligentOptionInvestor
Market risk is a factor that investors in levered instruments must
always keep in mind. Even an ITM call long-term equity anticipated
security (LEAPS) in the summer of 2007 might have become a short-tenor
out-of-the-money (OTM) call by the fall of 2008 after the Lehman shock
because of the sharp decline in stock prices in the interim. Unexpected
things can and do happen. A portfolio constructed oblivious to this fact is
a dangerous thing.
As long as market fluctuations only cause unrealized losses, market
risk is manageable. But if a levered loss must be realized, either because of
an option expiration or in order to fund another position, it has the poten-
tial to materially reduce your available investment capital. Y ou cannot ma-
terially reduce your investment capital too many times before running out.
A Lehman shock is a worst-case scenario, and some investors live
their entire lives without experiencing such severe and material market
risk. In most cases, rather than representing a material threat, market risk
represents a wonderful opportunity to an intelligent investor.
Most human decision makers in the market are looking at either
technical indicators—which are short term by nature—or some sort of
multiple value (e.g., price-to-something ratio). These kinds of measures are
wonderful for brokers because they encourage brokerage clients to make
frequent trades and thus pay the brokerages frequent fees.
The reaction of short-term traders is also wonderful for intelligent
investors. This is so because a market reaction that might look sensible or
rational to someone with an investment time horizon measured in days or
months will often look completely ridiculous to an investor with a longer-
term perspective. For example, lets say that a company announces that its
earnings will be lower next quarter because of a delay in the release of a
new product. Investors who are estimating a short-term value for the stock
based on an earnings multiple will sell the stock when they see that earn-
ings will likely fall. Technical traders see that the stock has broken through
some line of “resistance” or that one moving average has crossed another
moving average, so they sell it as well. Perhaps an algorithmic trading
engine recognizes the sharp drop and places a series of sell orders that are
covered almost as soon as they are filled. In the meantime, someone who
has held the stock for a while and has a gain on it gets protective of this gain
and decides to buy a put option to protect his or her gains.
Risk and the Intelligent Option Investor 265
For an intelligent option investor who has a long-term worst-case
valuation that is now 20 percent higher than the market price, there is a
wonderful opportunity to sell a put and receive a fat premium (with the
possibility of owning the stock at an attractive discount to the likely fair
value), sell a put and use the proceeds to buy an OTM call LEAPS, or sim-
ply buy the stock to open a position.
Indeed, this strategy is perfectly in keeping with the dictum, “Be fear-
ful when others are greedy and greedy when others are fearful. ” This strat-
egy is also perfectly reasonable but obviously rests on the ability of the
investor to accurately estimate the actual intrinsic value of a stock. This
brings us to the next form of risk—valuation risk.
Valuation Risk
Although valuation is not a difficult process, it is one that necessarily in-
cludes unknowable elements. In our own best- and worst-case valuation
methodology, we have allowed for these unknowns by focusing on plausi-
ble ranges rather than precise point estimates. Of course, our best- or worst-
case estimates might be wrong. This could be due to our misunderstanding
of the economic dynamics of the business in which we have invested or
may even come about because of the way we originally framed the problem.
Thinking back to how we defined our ranges, recall that we were focusing
on one-standard-deviation probabilities—in other words, scenarios that
might plausibly be expected to materialize two times out of three. Obvi-
ously, even if we understand the dynamics of the business very well, one
time out of three, our valuation process will generate a fair value range that
is, in fact, materially different from the actual intrinsic value of the stock.
In contrast to market risk, which most often is a nonmaterial and tem-
porary issue, misestimating the fair value of a stock represents a material
risk to capital, whether our valuation range is too low or too high. If we esti-
mate a valuation range that is too low, we are likely to end up not allocating
enough capital to the investment or using inappropriately light leverage.
This means that we will have missed the opportunity to generate as much
return on this investment as we may have. If we estimate a valuation range
that is too high, we are likely to end up allocating too much capital to the
266 •   TheIntelligentOptionInvestor
investment or using inappropriately high leverage. In the best case, we allo-
cate too much capital to an idea that generates low returns when we might
have allocated it to a higher-return investment. In the worst case, we suffer
a loss of capital when the market price falls and we realize that our original
estimates were overly optimistic.
One of the best ways to protect against valuation risk is to invest in
only the most compelling, most clearly mispriced securities. A friend who
worked for years advising companies on mergers and acquisitions has a
wonderful way of visualizing valuation risk that I have found particularly
helpful.
1 In his conception, a companys stock price can be represented
by layers. At the bottom layer is the value of the companys net assets if they
were all sold today. The next layer assumes that, for instance, the company
will cease to exist as a going concern after 10 years and will sell its net
assets then. The next layer assumes that, for instance, the company exists
perpetually as a going concern, but its free cash flow to owner(s) (FCFO)
doesnt grow again. On and on, each layer represents a more aggressive
assumption about the growth of its cash flows until we are assuming, for
instance, that the companys FCFO will grow at an average of 50 percent
per year for the next 15 years and then 6 percent for every year after that in
perpetuity. We can visualize this in the following graphic:
Value of cash flows growing at 50 percent per year for 15 years and
then at 6 percent per year after that—$52 per share.
Value of cash flows growing at 20 percent per year for 15 years and
then at 6 percent per year after that—$27/share.
Value of cash flows not growing but continuing on into
perpetuity—$9 per share.
Value of cash flows not growing and lasting 20 years—$7 per
share.
Market value of hard assets—$2 to $4 per share.
Risk and the Intelligent Option Investor 267
Lets assume that the present market value of the shares is $16 per
share. This share price assumes a growth in FCFO of 8 percent per year for
the next 5 years and 5 percent per year in perpetuity after that—roughly
equal to what we consider our most likely operational performance
scenario. We see the possibility of faster growth but realize that this faster
growth is unlikely—the valuation layer associated with this faster growth
is the $18 to $20 level. We also see the possibility of a slowdown, and the
valuation layer associated with this worst-case growth rate is the $11 to
$13 level.
Now lets assume that because of some market shock, the price of the
shares falls to the $10 range. At the same time, lets assume that the likely
economic scenario, even after the stock price fall, is still the same as before—
most likely around $16 per share; the best case is $20 per share, and the worst
case is $11 per share. Lets also say that you can sell a put option, struck at
$10, for $1 per share—giving you an effective buy price of $9 per share.
In this instance, the valuation risk is indeed small as long as we are
correct about the relative levels of our valuation layers. Certainly, in this
type of scenario, it is easier to commit capital to your investment idea than
it would be, say, to sell puts struck at $16 for $0.75 per share!
Thinking of stock prices in this way, it is clear that when the market
price of a stock is within a valuation layer that implies unrealistic economic
assumptions, you will more than likely be able to use a combination of
stocks and options to tilt the balance of risk and reward in your own
favor—the very definition of intelligent option investing.
Intelligent Option Investing
In my experience, most stocks are mostly fairly priced most of the time.
There may be scenarios at one tail or the other that might be inappropriately
priced by the option market (and, by extension, by the stock market), but
by and large, it is difficult to find profoundly mispriced assets—an asset
whose market price is significantly different from its most likely valuation
layer.
Opportunities tend to be most compelling when the short-term pic-
ture is the most uncertain. Short-term uncertainties make investing boldly
268 •   TheIntelligentOptionInvestor
a psychologically difficult process, but indeed, it is those times that make
the difference between a successful investor and an investor who nurtures
many regrets.
In the end, an intelligent option investor is not one who has a much
better knowledge of some sector, industry, or even company. It is not the
investor who takes the biggest risks in the hope of realizing the biggest
return. It is not the investor who attempts always to be the investing
“hero” and make the most complex, theoretically beautiful, laboriously
researched argument to justify an investment. Rather, the intelligent op-
tion investor is the one who has a sound, repeatable process for estimat-
ing the value of stocks, an understanding of the pitfalls that can limit an
investors potential, and a firm understanding of the tools that can be
used to invest. It is the investor who understands the limits to his or her
own expertise but who also understands that market risk does not equal
valuation risk and has the courage to act boldly when the two deviate
the most.
In short, the intelligent option investor is you.
269
Appendix A
Choose Your Battles
WiselY
I discuss specific option investment strategies in great detail in Part III
of this book. However, after reading Chapters 2 and 3, you should have a
good understanding of how options are priced, so it is a good time to see
in what circumstances the Black-Scholes-Merton model (BSM) works best
and where it works worst. An intelligent investor looks to avoid the condi-
tions where the BSM works best like the plague and seek out the conditions
where it works worst because those cases offer the best opportunities to tilt
the risk-reward balance in the investors favor.
Jargon introduced in this appendix includes
Front month
Fungible
Idiosyncratic assets
Where the BSM Works Best
The following are the situations in which the BSM works best and are the
conditions you should most avoid:
1. Short investment time horizons
2. Fungible investment assets
270 •   TheIntelligentOptionInvestor
Short Investment Time Horizons
When the scholars developing the BSM were researching financial
markets for the purpose of developing their model, the longest-tenor
options had expirations only a few months distant. Most market partic-
ipants tended to trade in the front-month contracts (i.e., the contracts
that will expire first), as is still mainly the case. Indeed, thinking back
to our preceding discussion about price randomness, over short time
horizons, it is very difficult to prove that asset price movements are not
random.
As such, the BSM is almost custom designed to handle short time
horizons well.
Perhaps not unsurprisingly, agents
1 are happy to encourage clients to
trade options with short tenors because
1. It gives them more opportunities per year to receive fees and com-
missions from their clients.
2. They are mainly interested in reliably generating income on the
basis of the bid-ask spread, and bid-ask spreads differ on the basis
of liquidity, not time to expiration.
3. Shorter time frames offer fewer chances for unexpected price
movements in the underlying that the market makers have a hard
time hedging.
In essence, a good option market maker is akin to a used car sales-
man. He knows that he can buy at a low price and sell at a high one, so his
main interest is in getting as many customers to transact as possible. With
this perspective, the market maker is happy to use the BSM, which seems
to give reasonable enough option valuations over the time period about
which he most cares.
In the case of short-term option valuations, the theory describes
reality accurately enough, and structural forces (such as wide bid-ask
spreads) make it hard to exploit mispricings if and when they occur.
To see an example of this, lets take a look at what the BSM assumes is
a reasonable range of prices for a company with assumed 20 percent
volatility over a period of 30 days.
Appendix A: Choose Your Battles Wisely 271
10
-
20
30
40
50
60
70
The range of prices implied over the next 30 days goes from around
$47 per share to around $53 per share. If we translate what the BSM con-
siders the reasonable range into percentage terms, it works out to a loss
or gain of around 6 percent. Just thinking about this in terms of ones
personal experience for a moment, this is actually not a bad guess for a
range for a large-capitalization firm (the forward volatility assumption of
20 percent is consistent with a large-cap firms “typical” implied volatility).
I certainly would have no confidence in trying to guess the upper and
lower stock price boundaries any better than the BSM on such a short
time frame.
It is funny, then, that most investors insist on speculating in options
on a short-term basis—usually at tenors of a month or shorter. Again, these
seem like the kinds of bets you might get betting on red at a roulette wheel
in Vegas. Sure, it makes one feel like James Bond the 50 percent of the time
that the marble falls on red, but anyone who is the least bit thoughtful
would, after a time, step back and wonder how far ahead he or she is getting
by playing such a game.
2
272 •   TheIntelligentOptionInvestor
It is important to realize that the fact that options are usually
efficiently priced in the short term does not prevent us from transacting
in short-tenor options. In fact, some strategies discussed in Part III are
actually more attractive when an investor uses shorter-tenor options or
combines short- and long-tenor options into a single strategy.
Hopefully, the distinction between avoiding short-tenor option
strategies and making long-term investments in short-tenor options is
clear after reading through Part III.
Fungible Underlying Assets
Again, returning for a moment to the foundation of the BSM, the scholars built
their mathematical models by studying short-term agricultural commodity
markets. A commodity is, by definition, a fungible or interchangeable asset;
one bushel of corn of a certain quality rating is completely indistinguishable
from any other bushel of corn of the same quality rating.
Stocks, on the other hand, are idiosyncratic assets. They are intangible
markers of value for incredibly complex systems called companies, no two
of which is exactly alike (e.g., GM and Ford—the pair that illustrates the
idea of “paired” investments in many peoples minds—are both American
car companies, but as operating entities, they have some significant differ-
ences. For example, GM has a much larger presence in China and has a
different capital and governance structure since going bankrupt than Ford,
which avoided bankruptcy during the mortgage crisis).
The academics who built the BSM were not hesitant to apply a model
that would value idiosyncratic assets such as stocks because they had as-
sumed from the start that financial markets are efficient—meaning that
every idiosyncratic feature for a given stock was already fully “priced in”
by the market. This allowed them to overlook the complexity of individual
companies and treat them as interchangeable, homogeneous entities.
The BSM, then, did not value idiosyncratic, multidimensional
companies; rather, it valued single-dimensional entities that the scholars
assumed had already been “standardized” or commoditized in some sense
by the communal wisdom of the markets. Y ou will see in the next sec-
tion that the broad, implicit assumption by option market participants
that markets are efficient actually brings about the greatest opportunity
Appendix A: Choose Your Battles Wisely 273
to derive low-risk profits for intelligent investors. The point I make here
is simply how difficult it is to invest in options on commodities or in fact
any asset that you cannot analyze using fundamental valuation techniques.
For investors who simply cannot resist making commodity investments,
I offer the following case study: I personally believe that climate change will
make it harder for the world to feed its burgeoning population. Among
exchange-traded funds (ETFs), futures, and options, it is very easy these days
to express an investment opinion on such a belief, and I have done just that—
put my money where my mouth is. While I have made such investments,
I must admit that I have absolutely no basis for my valuation of the agricul-
tural commodities in question and have no way to know if I have received my
bullish exposure to these commodities at a reasonable or unreasonable price.
Such speculative investments satisfy some psychological need, but they are
not investments in the strict “intelligent investor” sense because it is very hard to
rationally calculate a fair value for the asset. Should these types of investments
not be made, then? A strict adherent to rational investment principles might
say, “No, they should not be. ” However, considering the irrational ways people
find to spend money, it would seem that we have been somehow hardwired to
do things in a way that an economist would not consider totally rational. Rather
than fight that primitive urge, I prefer to give into it—but only with very small
parts of my portfolio. This strategy is akin to taking only $50 to the casino floor
and promising that once that money is gone, you wont spend any more.
Y ou may have a gut feeling about the price of oil, the level of interest
rates, the price of cotton, or whatever. Do yourself a favor, and if you chose
to make a financial bet on the basis of your hunch, do as I do and make
it a small one. While a small investment means different things to differ -
ent people, a good way to judge is to imagine the capital being completely
gone. If you have heart palpitations at that thought, keep cutting the pro-
spective investment in half until you feel better.
Where the BSM Works Worst
Now that we know where not to look for intelligent option investments,
lets look at conditions in which the BSM works worst—these are the best
places for us to tilt the balance of risk and return in our favor.
274 •   TheIntelligentOptionInvestor
1. Grossly mispriced assets
2. Bimodal outcomes
3. Long investment time horizons
Grossly Mispriced Assets
The main assumption of the BSM is that there are no grossly mispriced as-
sets. I believe that this contention is wrong on the basis of behavioral and
structural factors that are covered briefly in Part II of this book but would
require another book to fully cover.
Just imagine, though, that, for some reason, a stock is dramatically
undervalued. For right now, I will not discuss why this situation could
come about, but lets say that rather than being worth $50 per share,
a company is worth, best case, closer to $110 per share and, worst case,
$70 per share. Lets further say that we had some sort of a hazy crystal
ball that would give us a very high degree of certainty that these best- and
worst-case values represent the real future range of values.
Here is what a diagram of that situation would look like:
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Date/Day Count
Advanced Building Corp. (ABC)
Stock Price
Best Case, 110
Worst Case, 70
-
Now look at the following diagrams of a put and a call option and,
based on what you know about the way the BSM prices options, think
about the answers to the following questions.
Appendix A: Choose Your Battles Wisely 275
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Advanced Building Corp. (ABC)
Stock Price
-
GREEN
Put option
If someone were worried about this stocks downside potential below $50,
what would likely be the price that investor would pay to buy this put option?
a. Almost nothing
b. A little
c. A good bit
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Advanced Building Corp. (ABC)
Stock Price
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RED
Call option
276 •   TheIntelligentOptionInvestor
If someone wanted to make extra income by selling calls to accept expo-
sure to the stocks upside, what price would they likely charge for someone
wanting to buy this call option?
a. Almost nothing
b. A little
c. A good bit
Obviously, the correct answer to the put option question is c. This option
would be pretty expensive because its range of exposure overlaps with so
much of the BSM cone. Conversely, the answer to the call option question
is a. This option would be really cheap because its range of exposure is well
above the BSM cone.
Remember, though, that we have our crystal ball, and we know
that this stock will likely be somewhere between $70 and $110 per share
in a few years. With this confidence, wouldnt it make sense to take the
opposite side of both the preceding trades? Doing so would look like
this:
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Advanced Building Corp. (ABC)
Stock Price
Best Case, 110
Worst Case, 70
-
GREEN
RED
In this investment, which I explain in detail in Chapter 11, we are
receiving a good bit of money by selling an expensive put and paying
Appendix A: Choose Your Battles Wisely 277
very little money to buy a cheap call. It may happen that the money we
receive for selling the put actually may be greater than the money we
pay for the call, so we actually get paid a net fee when we make this
transaction!
We can sell the put confidently because we know that our worst-case
valuation is $70 per share; as long as we are confident in our valuation—a
topic covered in Part II of this book—we need not worry about the price
declining. We do not mind spending money on the call because we think
that the chance is very good that at expiration or before the call will be
worth much, much more than we paid for it.
Truly, the realization that the BSM is pricing options on inefficiently
priced stocks as if they were efficiently priced is the most profound and
compelling source of profits for intelligent investors. Furthermore, finding
grossly mispriced stocks and exploiting the mispricing using options rep-
resents the most compelling method for tilting the risk-reward equation in
our direction.
The wonderful thing about investing is that it does not require you to
swing at all the pitches. Individual investors have a great advantage in that
they may swing at only the pitches they know they can hit. The process of
intelligent investing is simply one of finding the right pitches, and intel-
ligent option investing simply uses an extremely powerful bat to hit that
sweet pitch.
Bimodal Outcomes
Some companies are speculative by nature—for instance, a drug company
doing cancer research. The company has nothing but some intangible as-
sets (the ideas of the scientists working there) and a great deal of costs
(the salaries going to those scientists, the payments going to patent attor -
neys, and the considerable costs of paying for clinical trials). If the research
proves fruitful, the companys value is great—lets say $500 per share. If
the clinical trials show low efficacy or dangerous side effects, however, the
companys worth goes to virtually nil. Whats more, it may take years before
it is clear which of these alternatives is true.
278 •   TheIntelligentOptionInvestor
Given what you know about the BSM, does this seem like the kind of
situation conducive to accurate option pricing? This example certainly does
not sound like the pricing scenario of a short-term agricultural commodity,
after all. If this hypothetical drug companys stock price was sitting at $50 per
share, what is the value of the upper range the option market might be
pricing in? Lets assume that this stock is trading with a forward volatility of
100 percent per year (on the day I am writing this, there are only four stocks
with options trading at a price that implies a forward volatility of greater than
100 percent). What price range does this 100 percent per year volatility imply,
and can we design an option structure that would allow us to profit from a big
move in either direction? Here is a diagram of this situation:
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Advanced Biotechnology Co. (ABC)
Stock Price
749 999
GREEN
GREEN
Indeed, even boosting volatility assumptions to a very high level,
it seems that we can still afford to gain exposure to both the upside and
downside of this stock at a very reasonable price. Y ou can see from the pre-
ceding diagram that both regions of exposure on the put side and the call
side are outside the BSM cone, meaning that they will be relatively cheap.
The options market is trying to boost the price of the options enough so
that the calls and puts are fairly priced, but for various reasons (including
behavioral biases), most of the time it fails miserably.
Appendix A: Choose Your Battles Wisely 279
Long Investment Time Horizons
This is simply a corollary to the rule that the BSM is generally good at
pricing short-time-horizon investments. The BSM is built on the prem-
ise that stocks will only rise by as much as the risk-free rate. If you ask a
finance professor or a market maker, he or she will be able to give you an
elegant and logically consistent reason why this must be so.
However, as you saw in Chapter 3, this situation has never been so—
the return on stocks is sometimes negative but often much more positive
than risk-free bonds. If we average the returns out, stocks still generate
returns that are heads and shoulders above bonds.
Over short time horizons, the difference simply isnt material. For in-
stance, lets say that we assume that a given stock should generate around
10 percent compound annual returns over the next three to five years com-
pared with a 5 percent assumption for the risk-free rate. If we are looking at
very short time horizons—such as 60 days—and assume that our stock will
grow at exactly that 10 percent rate over that short time, then we should
compare our expectations with those of the option market. Here is the dia-
gram we would get:
Advanced Building Corp. (ABC)
30
20
40
50
60
70
60 days
80Stock Price
280 •   TheIntelligentOptionInvestor
Clearly, there is not much of a difference between the BSM expected
value (shown by the dotted line) and the dot representing a 10 percent
upward drift in the stock. However, if we extend this analysis out for three
years, look what happens:
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Advanced Building Corp. (ABC)
749 999
20
30
40
50
60
70Stock Price
80
With the longer time horizon, our assumed stock price is significantly
higher than what the BSM calculates as its expected price. If we take “assumed
future stock price” to mean the price at which we think there is an equal chance
that the true stock price will be above or below that mark, we can see that the
difference, marked by the double-headed arrow in the preceding diagram, is the
advantage we have over the option market.
3 This advantage again means that
downside exposure will be overvalued and upside exposure will be undervalued.
How, you may ask, can this discrepancy persist? Shouldnt someone
figure out that these options are priced wrong and take advantage of an
arbitrage opportunity? The two reasons why these types of opportunities
tend to persist are
1. Most people active in the option market are trading on a very
short-term basis. Long-term equity anticipated securities
(LEAPS)—options with tenors of a year or more—do exist, but
Appendix A: Choose Your Battles Wisely 281
generally the volumes are light because the people in the option
markets generally are not willing to wait longer than 60 days for
their “investment” to work out. Because the time to expiration for
most option contracts is so short, the difference between the BSMs
expected price based on a 5 percent risk-free rate and an expected
price based on a 10 percent equity return is small, so no one real-
izes that its there (as seen on the first diagram).
2. The market makers are generally able to hedge out what little ex-
posure they have to the price appreciation of LEAPS. They dont
care about the price of the underlying security, only about the size
of the bid-ask spread, and they always price the bid-ask spread on
LEAPS in as advantageous a way as they can. Also, the career of an
equity option trader on the desk of a broker-dealer can change a
great deal in a single year. As discussed in Part II, market makers
are not incentivized in such a way that they would ever care what
happened over the life of a LEAPS.
Congratulations. After reading Part I of this book and this appendix,
you have a better understanding of the implications of option investing
for fundamental investors than most people working on Wall Street.
There are many more nuances to options that I discuss in Part III of this
book—especially regarding leverage and the sensitivity of options to input
changes—but for now, simply understanding how the BSM works puts you
at a great advantage over other market participants.
282
Appendix B
THe MAny FAceS OF
LeverAGe
An intelligent option investor must understand investing leverage in
order to make sense of option investing strategies. Investing leverage is,
however, not the only form of leverage, and to have a well-rounded and
well-educated view of investing leverage, you should understand the other
forms as well. In addition, when assessing the value of companies, it is im-
portant to understand leverage because leverage often is the root cause of
rapid changes in profitability during times of changing consumer demand
such as inflection points in the business cycle.
Operational Leverage
Operational leverage is the acceptance of fixed operating costs in order to
make a higher per-unit profit, such as when a company decides to build a
factory rather than contracting for its products to be made by a third party.
When a company spends cash to build a factory, that expenditure is not
treated as an immediate cost on the income statement. Rather, the cost
of the new factory is spread over future periods as the noncash expense
known as depreciation.
1
Let us take a look at two companies, both of which produce the same
items, but one of which outsources production to a third party (Unlevered
Co.) and the other of which has built a factory to manufacture its products
Appendix B: The Many Faces of Leverage283
(Levered Co.). In reality, there are methods used by companies to front-
load depreciation expenses in order to minimize taxable income for new
projects, but lets assume that Levered Co. is using what is called straight-
line depreciation so that the charge is identical each quarter.
Unlevered Co. Levered Co.
Revenues 100.0 100.0
Fixed depreciation expense 0.0 65.0
Variable operating expenses 85.0 15.0
Operating profit 15.0 20.0
Pretax profit 15.0 20.0
Tax 4.5 6.0
Net profit 10.5 14.0
As you can see here, Levered Co. s profits are a bit better than those
of Unlevered Co. because the former is not paying a supplier and can
produce the items at a lower cost. Note also that both companies have
variable costs. For Unlevered Co., these variable costs include the costs
of the items it has produced by the third party plus whatever salaries it
has to pay to salespeople and administrative staff; for Levered Co., vari-
able costs include the costs of raw materials plus the cost of any salaries
paid to production, sales, and administrative staff. This is our base case—
representing midcycle economic conditions (i.e., not boom or not bust).
Now lets look at the two companies during a trough in the business
cycle—or bust conditions.
Unlevered Co. Levered Co.
Revenues 70.0 70.0
Fixed depreciation expense 0.0 65.0
Variable operating expenses 59.5 10.5
Operating profit 10.5 5.5
Pretax profit 10.5 5.5
Tax 3.2 +1.6
Net profit 7.3 3.9
284 •   TheIntelligentOptionInvestor
Costs at Unlevered Co. decrease proportionally to the decrease in
revenues, so the operating profit margin is the same in its case. However,
for Levered Co., even though the variable costs decrease proportionally to
the decrease in revenues, the cost of depreciation stays fixed, causing a loss
that is only slightly ameliorated through a small tax benefit.
Thus, obviously, in business-cycle trough conditions, profitability is
hurt through the assumption of operational leverage. Lets take a look at
what happens to both companies in peak conditions.
2
Unlevered Co. Levered Co.
Revenues 130.0 130.0
Fixed depreciation expense 0.0 65.0
Variable operating expenses 110.5 19.5
Operating profit 19.5 45.5
Pretax profit 19.5 45.5
Tax 5.9 13.6
Net profit 13.6 31.9
Obviously, having the operational leverage during peak times is a
wonderful thing. After the fixed-cost hurdle of depreciation is cleared, each
extra widget produced allows the company to generate profits that are gov-
erned solely by variable costs. Unlevered Co. is in a better position when
there is a downturn, but its profitability falls behind Levered Co. s more and
more the better economic conditions are.
When thinking about the valuation of companies, we must remember
what a large effect operational leverage can have on operations. Financial
markets usually underestimate the effects of operational leverage both
when the business cycle is at its peak and when it is at its trough. At the
peak, analysts are wont to extrapolate high margins out forever and ignore
the possibility that the sword of leverage swings both ways. At the trough,
analysts are overly pessimistic and forget that a small improvement in de-
mand can have a very large impact on financial results.
Operational leverage is neither good nor bad—it is merely a strategic busi-
ness choice that has different implications during different parts of the business
cycle and under different revenue conditions. An intelligent investor under-
stands this fact and is happy to invest when the rest of the market has forgotten it.
Financial Leverage
Financial leverage involves the acceptance of fixed financial costs such
as a loan or a lease contract to fund a business. Considering the expense
of building factories, usually operational and financial leverage occur
simultaneously, but to understand financial leverage itself, lets look at two
companies that, other than the amount of debt on their balance sheets, are
exactly the same in terms of revenues and profit margin. Our base case
shows that the unlevered company will generate a higher absolute profit
because it does not have the fixed financing costs.
Unlevered Co. Levered Co.
Revenues 100.0 100.0
Operating expenses 80.0 80.0
Operating profit 20.0 20.0
Interest expense 0.0 15.0
Pretax profit 20.0 5.0
Tax 6.0 1.5
Net profit 14.0 3.5
Now lets increase revenues for both companies by 50 percent and see
what happens.
Unlevered Co. Levered Co.
Revenues 150.0 150.0
Operating expenses 120.0 120.0
Operating profit 30.0 30.0
Interest expense 0.0 15.0
Pretax profit 30.0 15.0
Tax 9.0 4.5
Net profit 21.0 11.5
The absolute profit is still higher for the unlevered company, but the
percentage change from the first case to the second shows a big difference.
The unlevered companys profits increased by 50 percent (from 14.0 to
21.0) with a 50 percent rise in revenues. However, the levered companys
profits increased by a whopping 229 percent (from 3.5 to 11.5) with the
same 50 percent rise in revenues.
Appendix B: The Many Faces of Leverage285
286 •   TheIntelligentOptionInvestor
Here we see an example of a defining characteristic of financial and
investment leverage; that is, these sorts of leverage affect percentage calcu-
lations, but in absolute terms, unlevered transactions always generate more
for a fixed level of exposure. We explore this concept in great detail when
we discuss investment leverage in Chapter 8.
To see the dangerous side of leverages double-edged sword, lets look
at a case where revenues drop 50 percent from the original baseline.
Unlevered Co. Levered Co.
Revenues 50.0 50.0
Operating expenses 40.0 40.0
Operating profit 10.0 10.0
Interest expense 0.0 15.0
Pretax profit 10.0 5.0
Tax 3.0 +1.5
Net profit 7.0 3.5
Here we see that even with the tax benefit for the levered company,
it is still running at a loss because of the fixed financial costs, whereas the
unlevered company is still realizing a gain. In a worst-case scenario, fixed
financial costs can exceed the cash coming into the business, leading to
debt default and, depending on the situation, bankruptcy.
Thinking about the best and worst cases from an investment perspec-
tive for a moment, you can see why some equity investors actually prefer a
highly levered firm: the higher the leverage, the greater is the incremental
profit for equity holders when times are good. For a levered company that
is in transition from bad to good—whether due to an upturn in economic
conditions during a business cycle or a company-specific issue such as the
introduction of a new product line boosting a flagging legacy business—
a small improvement in business conditions creates a big improvement
in profits available to shareholders. The flip side is that when business
conditions turn downward—a transition from good to bad—a levered
companys fall from profitability to loss is sudden, and its stock price fall
can be even worse. The fact is that just in the case of operational lever -
age, financial leverage is not good or bad—it is simply a strategic business
choice that has different implications in different situations.
287
Appendix c
PUT-cALL PArITy
Before the Black-Scholes-Merton model (BSM), there was no way to
directly calculate the value of an option, but there was a way to triangulate
put and call prices as long as one had three pieces of data:
1. The stocks price
2. The risk-free rate
3. The price of a call option to figure the fair price of the put, and vice
versa
In other words, if you know the price of either the put or a call, as long
as you know the stock price and the risk-free rate, you can work out the
price of the other option. These four prices are all related by a specific rule
termed put-call parity.
Put-call parity is only applicable to European options, so it is not ter-
ribly important to stock option investors most of the time. The one time it
becomes useful is when thinking about whether to exercise early in order
to receive a stock dividend—and that discussion is a bit more technical. Ill
delve into those technical details in a moment, but first, lets look at the big
picture. Using the intelligent option investors graphic format employed in
this book, the big picture is laughably trivial.
Direct your attention to the following diagrams. What is the differ -
ence between the two?
288 •   TheIntelligentOptionInvestor
-
20
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60
80
100
120Stock Price
140
160
180
200
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20
5/18/2012 5/20/2013
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140
160
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200
GREENGREEN
REDRED
If you say, “Nothing, ” you are practically right but technically
wrong. The image on the left is actually the risk-reward profile of a pur -
chased call option struck at $50 paired with a sold put option struck at
$50. The image on the right is the risk-reward profile of a stock trading
at $50 per share.
This simple comparison is the essence of put-call parity. The parity
part of put-call parity just means that accepting downside exposure by sell-
ing a put while gaining upside exposure by buying a call is basically the
same thing as accepting downside exposure and gaining upside exposure
by buying a stock.
What did I say? It is laughably trivial. Now lets delve into the details
of how the put-call parity relationship can be used to help decide whether
to exercise a call option or not (or whether the call option you sold is likely
to be exercised or not).
Dividend Arbitrage and Put-call Parity
Any time you see the word arbitrage , the first thing that should jump to
mind is “small differences. ” Arbitrage is the science of observing small dif-
ferences between two prices that should be the same (e.g., the price of IBM
Appendix C: Put-Call Parity 289
traded on the New Y ork Stock Exchange and the price of IBM traded in
Philadelphia) but are not. An arbitrageur, once he or she spots the small
difference, sells the more expensive thing and buys the less expensive one
and makes a profit without accepting any risk.
Because we are going to investigate dividend arbitrage, even a big-
picture guy like me has to get down in the weeds because the differences we
are going to try to spot are small ones. The weeds into which we are wading
are mathematical ones, Im afraid, but never fear—well use nothing more
than a little algebra. Well use these variables in our discussion:
K = strike price
C
K = call option struck at K
PK = put option struck at K
Int = interest on a risk-free instrument
Div = dividend payment
S = stock price
Because we are talking about arbitrage, it makes sense that we are
going to look at two things, the value of which should be the same. We
are going to take a detailed look at the preceding image, which means that
we are going to compare a position composed of options with a position
composed of stock.
Lets say that the stock at which we were looking to build a position is
trading at $50 per share and that options on this stock expire in exactly one
year. Further, lets say that this stock is expected to yield $0.25 in dividends
and that the company will pay these dividends the same day that the op-
tions expire.
Lets compare the two positions in the same way as we did in the
preceding big-picture image. As we saw in that image, a long call and a
short put are the same as a stock. Mathematically, we would express this
as follows:
C
K PK = SK
Although this is simple and we agreed that its about right, it is not
technically so.
The preceding equation is not technically right because we know that
a stock is an unlevered instrument and that options are levered ones. In the
290 •   TheIntelligentOptionInvestor
preceding equation, we can see that the left side of the equation is levered
(because it contains only options, and options are levered instruments),
and the right side is unlevered. Obviously, then, the two cannot be exactly
the same.
We can fix this problem by delevering the left side of the preceding
equation. Any time we sell a put option, we have to place cash in a mar -
gin account with our broker. Recall that a short put that is fully margined
is an unlevered instrument, so margining the short put should delever
the entire option position. Lets add a margin account to the left side and
put $K in it:
C
K PK + K = S
This equation simply says that if you sell a put struck at K and put $K
worth of margin behind it while buying a call option, youll have the same
risk, return, and leverage profile as if you bought a stock—just as in our
big-picture diagram.
But this is not quite right if one is dealing with small differences.
First, lets say that you talk your broker into funding the margin ac-
count using a risk-free bond fund that will pay some fixed amount of
interest over the next year. To fund the margin account, you tell your
broker you will buy enough of the bond account that one year from
now, when the put expires, the margin accounts value will be exactly
the same as the strike price. In this way, even by placing an amount less
than the strike price in your margin account originally, you will be able
to fulfill the commitment to buy the stock at the strike price if the put
expires in the money (ITM). The amount that will be placed in margin
originally will be the strike price less the amount of interest you will
receive from the risk-free bond. In mathematical terms, the preceding
equation becomes
C
K PK + (K Int) = S
Now all is right with the world. For a non-dividend-paying stock, this fully
expresses the technical definition of put-call parity.
However, because we are talking about dividend arbitrage, we have to
think about how to adjust our equation to include dividends. We know that
a call option on a dividend-paying stock is worth less because the dividend
Appendix C: Put-Call Parity 291
acts as a “negative drift” term in the BSM. When a dividend is paid, theory
says that the stock price should drop by the amount of the dividend. Be-
cause a drop in price is bad for the holder of a call option, the price of a call
option is cheaper by the amount of the expected dividend.
Thus, for a dividend-paying stock, to establish an option-based position
that has exactly the same characteristics as a stock portfolio, we have to keep
the expected amount of the dividend in our margin account.
1 This money
placed into the option position will make up for the dividend that will be
paid to the stock holder. Here is how this would look in our equation:
C
K PK + (K Int) + Div = S
With the dividend payment included, our equation is complete.
Now it is time for some algebra. Lets rearrange the preceding equa-
tion to see what the call option should be worth:
CK = PK + Int Div + (S K)
Taking a look at this, do you notice last term (S K )? A stocks price
minus the strike price of a call is the intrinsic value. And we know that
the value of a call option consists of intrinsic value and time value. This
means that
/dncurlybracketleft/dncurlybracketmid/horizcurlybracketext/horizcurlybracketext/dncurlybracketright/horizcurlybracketext/horizcurlybracketext/dncurlybracketleft/dncurlybracketmid/dncurlybracketright=+ CP SKKK IntD iv + ()
Time valueI ntrinsic value
So now lets say that time passes and at the end of the year, the stock
is trading at $70—deep ITM for our $50-strike call option. On the day
before expiration, the time value will be very close to zero as long as the op-
tion is deep ITM. Building on the preceding equation, we can put the rule
about the time value of a deep ITM option in the following mathematical
equation:
P
K + Int Div ≈ 0
If the time value ever falls below 0, the value of the call would trade for less
than the intrinsic value. Of course, no one would want to hold an option
that has negative time value. In mathematical terms, that scenario would
look like this:
P
K + Int Div < 0
292 •   TheIntelligentOptionInvestor
From this equation, it follows that if
PK + Int < Div
your call option has a negative implied time value, and you should sell the
option in order to collect the dividend.
This is what is meant by dividend arbitrage . But it is hard to get the
flavor for this without seeing a real-life example of it. The following table
shows the closing prices for Oracles stock and options on January 9, 2014,
when they closed at $37.72. The options had an expiration of 373 days in
the future—as close as I could find to one year—the one-year risk-free rate
was 0.14 percent, and the company was expected to pay $0.24 worth of
dividends before the options expired.
Calls Puts
Bid Ask Delta Strike Bid Ask Delta
19.55 19.85 0.94 18 0.08 0.13 0.02
17.60 17.80 0.94 20 0.13 0.15 0.03
14.65 14.85 0.92 23 0.25 0.28 0.05
12.75 12.95 0.91 25 0.36 0.39 0.07
10.00 10.25 0.86 28 0.66 0.69 0.12
8.30 8.60 0.81 30 0.97 1.00 0.17
6.70 6.95 0.76 32 1.40 1.43 0.23
4.70 4.80 0.65 35 2.33 2.37 0.34
3.55 3.65 0.56 37 3.15 3.25 0.43
2.22 2.26 0.42 40 4.80 4.90 0.57
1.55 1.59 0.33 42 6.15 6.25 0.65
0.87 0.90 0.22 45 8.25 8.65 0.75
0.31 0.34 0.10 50 12.65 13.05 0.87
In the theoretical option portfolio, we are short a put, so its value to
us is the amount we would have to pay if we tried to flatten the position by
buying it back—the ask price. Conversely, we are long a call, so its value to
us is the price we could sell it for—the bid price.
Lets use these data to figure out which calls we might want to exercise
early if a dividend payment was coming up.
Appendix C: Put-Call Parity 293
Strike Call
Put
(a)
Interest2
(b)
Put + Interest
(a + b) Dividend P + I D Notes
18 19.55 0.13 0.03 0.16 0.24 (0.08) P + I < D,
arbitrage
20 17.60 0.15 0.03 0.18 0.24 (0.06) P + I < D,
arbitrage
23 14.65 0.28 0.03 0.31 0.24 0.07 No arbitrage
25 12.75 0.39 0.04 0.43 0.24 0.19 No arbitrage
28 10.00 0.69 0.04 0.73 0.24 0.49 No arbitrage
30 8.30 1.00 0.04 1.04 0.24 0.80 No arbitrage
32 6.70 1.43 0.05 1.48 0.24 1.24 No arbitrage
35 4.70 2.37 0.05 2.42 0.24 2.18 No arbitrage
37 3.55 3.25 0.05 3.30 0.24 3.06 No arbitrage
40 2.22 4.90 0.06 4.96 0.24 4.72 No arbitrage
42 1.55 6.25 0.06 6.31 0.24 6.07 No arbitrage
45 0.87 8.65 0.06 8.71 0.24 8.47 No arbitrage
50 0.31 13.05 0.07 13.12 0.24 12.88 No arbitrage
There are only two strikes that might be arbitraged for the
dividends—the two furthest ITM call options. In order to realize the
arbitrage opportunity, you would wait until the day before the ex-dividend
date, exercise the stock option, receive the dividend, and, if you didnt want
to keep holding the stock, sell it and realize the profit.
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295
Notes
Introduction
1. Options, Futures, and Other Derivatives by John C. Hull (New Y ork:
Prentice Hall, Eighth Edition, February 12, 2011), is considered the
Bible of the academic study of options.
2. Option Volatility and Pricing by Sheldon Natenberg (New Y ork:
McGraw-Hill, Updated and Expanded Edition, August 1, 1994), is
considered the Bible of professional option traders.
3. The Greeks are measures of option sensitivity used by traders to man-
age risk in portfolios of options. They are named after the Greek
symbols used in the Black-Scholes-Merton option pricing model.
4. “To invest successfully over a lifetime does not require a stratospheric
IQ, unusual business insights, or inside information. Whats needed
is a sound intellectual framework for making decisions and the abil-
ity to keep emotions from corroding that framework. ” Preface to The
Intelligent Investor by Benjamin Graham (New Y ork: Collins Business,
Revised Edition, February 21, 2006).
Chapter 1
1. In other words, if all option contracts were specific and customized,
every time you wanted to trade an option contract as an individual in-
vestor, you would have to first find a counterparty to take the other side
of the trade and then do due diligence on the counterparty to make
sure that he or she would be able to fulfill his or her side of the bargain.
It is hard to imagine small individual investors being very interested in
the logistical headaches that this process would entail!
296N o t e s
2. One more bit of essential but confusing jargon when investing in
options is related to exercise. There are actually two styles of exercise;
one can be exercised at any time before expiration—these are termed
American style—and the other can only be exercised at expiration—
termed European style. Confusingly, these styles have nothing to do
about the home country of a given stock or even on what exchange
they are traded. American-style exercise is normal for all single-stock
options, whereas European-style exercise is normal for index futures.
Because this book deals almost solely with single-stock options (i.e.,
options on IBM or GOOG, etc.), I will not make a big deal out of this
distinction. There is one case related to dividend-paying stocks where
American-style exercise is beneficial. This is discussed in Appendix C.
Most times, exercise style is not a terribly important thing.
3. Just like going to Atlantic City, even though the nominal odds for rou-
lette are 50:50, you end up losing money in the long run because you
have to pay—the house at Atlantic City or the broker on Wall Street—
just to play the game.
Chapter 3
1. We adjusted and annualized the prices of actual option contracts so
that they would correspond to the probability levels we mentioned
earlier. It would be almost impossible to find a stock trading at exactly
$50 and with the option market predicting exactly the range of future
price that we have shown in the diagrams. This table is provided simply
to give you an idea of what one might pay for call options of different
moneyness in the open market.
2. Eighty-four percent because the bottom line marks the price at which
there is only a 16 percent chance that the stock will go any lower. If
there is a 16 percent chance that the stock will be lower than $40 in
one years time, this must mean that there is an 84 percent chance
that the stock will be higher than $40 in one years time. We write
“a little better than 84 percent chance” because youll notice that the
stock price corresponding to the bottom line of the cone is around
$42—a little higher than the strike price. The $40 mark might corre-
spond to a chance of, lets say, 13 percent that the stock will be lower;
Notes297
this would, in turn, imply an 87 percent chance of being higher than
$40 in a year.
3. Tenor is just a specialty word used for options and bonds to mean the
remaining time before expiration/maturity. We will see later that op-
tion tenors usually range from one month to one year and that special
long-term options have tenors of several years.
4. Were not doing any advanced math to figure this out. Were just eye-
balling the area of the exposure range within the cone in this diagram
and recalling that the area within the cone of the $60 strike, one-year
option was about the same.
5. In other words, in this style of trading, people are anchoring on recent
implied volatilities—rather than on recent statistical volatilities—to
predict future implied volatilities.
6. Note that even though this option is now ITM, we did not pay for any
intrinsic value when we bought the option. As such, we are shading the
entire range of exposure in green.
Chapter 4
1. The “capital” we have discussed so far is strategic capital. There is an-
other form of tactical capital that is vital to companies, termed working
capital. Working capital consists of the short-term assets essential for
running a business (e.g., inventory and accounts receivables) less the
short-term liabilities accrued during the course of running the busi-
ness (e.g., accounts payable). Working capital is tactical in the sense
that it is needed for day-to-day operation of the business. A company
may have the most wonderful productive assets in the world, but if it
does not have the money to buy the inventory of raw materials that will
allow it to produce its widgets, it will not be able to generate revenues
because it will not be able to produce anything.
2. The law of large numbers is actually a law of statistics, but when most
people in the investing world use this phrase, it is the colloquial version
to which they are referring.
3. Apple Computer, for instance, was a specialized maker of computers
mainly used by designers and artists in the late 1990s. Through some
298N o t e s
inspired leadership and a large capital infusion from Microsoft to keep
it afloat in its darkest days, Apple Computer changed its name to just
Apple and began producing handheld music devices, smartphones, and
other media appliances (including computers). By the late 1990s, Apple
was facing severe structural constraints. The market in which it com-
peted—the market for personal computers—had been commoditized,
and prices did nothing but go down. It was clinging to a niche market
of a few educational institutions and creative professionals—not a very
robust or quickly growing market. However, the company was able to
reinvent itself as a media technology company and media content pro-
vider using its investments and know-how in personal computing as a
base. Doing so, Apple jumped from a mature company into a virtual
startup and once again became a supply-constrained company in a
very short period of time. This is a rare twist, but not unheard of.
4. Dont waste your time remembering this formula unless you already
know it. Y ou can always look up the exact equation when you need to use
it. Just remember, “ A dollar today is worth more than a dollar tomorrow. ”
5. If you are curious about the CAPM or any of the other related aca-
demic methods for determining discount rates, you have no further
to go than your local library or various sources online. The CAPM is
one of the pillars of modern finance, and there are plenty of resources
to learn about it. In the end, though, the “proper” discount rate you
will calculate will not be far off from these values. There are plenty
of more important things on which to concentrate in a valuation, so
my suggestion is to spend time on those and save learning about the
CAPM.
Chapter 5
1. Note that, even though it may feel like it from a shareholder perspective,
the period during which a company is making poor investments and
generating substructural profit growth will only last for a limited time.
Sooner or later, an activist investor or another company will acquire all
or part of the capital stock of the underperforming company and run
the enterprise in a more rational way.
Notes299
2. For the structural stage, I usually only use one scenario. When I start-
ed in the business of valuation, I used 6 percent growth of cash flows
in perpetuity. Recently, convinced by PIMCOs argument that we are
entering an extended “new normal” period, I tend to use 5 percent
instead.
3. For instance, a company may have only six very large and important
customers, each of which it picked up in subsequent years. If it loses
one of those customers, rather than +35 percent revenue growth over
the next year, the revenue may decline by 20 percent. Or even if the
company does not lose a customer, if it does not gain another, its
revenue growth may be trivial—3 percent, lets say.
4. Please see the online materials for the specific formulas used for OCP
and FCFO.
5. A person with a 100-share stake in Exxon—an investment worth just
under $10,000—has a proportional stake of 0.000006 percent in the
company. No wonder investors usually do not have a strong sense of
being an owner of the companies in which they are invested.
6. In a counterexample, IBMs management should be commended for
selling off the dying, undifferentiated PC business to Lenovo and rea-
ligning the tech giant as primarily a provider of software and services.
7. Networking behemoth Cisco Systems (CSCO) purchase of Pure
Digital (a company that made Flip video cameras) springs immedi-
ately to mind.
Chapter 6
1. The fact that a consensus of opinion is reached is an interesting social be-
havioral bias called herding. This bias, one that I will not go into great de-
tail about here, is the tendency for people to be influenced by the actions
or opinions of others when making a decision as a member of a group.
2. Paul Slovic, “Behavioral Problems of Adhering to a Decision Policy, ”
paper presented at the Institute for Quantitative Research in Finance,
Napa, CA, May 1, 1973.
3. This research report was quoted and summarized on the following site:
http://www.valuewalk.com/2013/07/hedge-fund-alpha-negative/.
300N o t e s
4. The original academic paper discussing prospect theory was published
in Econometrica, Volume 47, Number 2, in March 1979 under the title:
“Prospect Theory: An Analysis of Decision Under Risk. ”
5. Over the years, the paradigm for broker-dealers has changed, so some
of what is written here is a bit dated. Broker-dealers have one part of
its business dedicated to increasing customer “flow” as is described
here. Over the last 20 years or so, however, they have additionally
begun to capitalize what amounts to in-house hedge funds, called
“proprietary trading desks” or “prop traders. ” While the prop traders
are working on behalf of corporations that were historically known as
broker-dealers (e.g., Goldman Sachs, Morgan Stanley), they are in fact
buy-side institutions. In the interest of clarity in this chapter, I treat
broker-dealers as purely sell-side entities even though they in fact have
elements of both buy- and sell-sides.
Chapter 7
1. Round-tripping means buying a security and selling it later.
2. This bit of shorthand just means a bid volatility of 22.0 and an ask
volatility of 22.5.
Chapter 8
1. This is one of the reasons why I called delta the most useful of the
Greeks.
2. When I pulled these data, I pulled the 189-day options, so my chance
of this stock hitting that high a price in this short time period is slim,
but the point I am making here about percentage versus absolute re-
turns still holds true.
3. A tool to calculate all the downside and upside leverage figures shown
in this chapter is available on the intelligent option investor website.
4. “Buffetts Alpha, ” Andrea Frazzini, David Kabiller, and Lasse H. Ped-
ersen, 2012, National Bureau of Economic Research, NBER Working
Paper No. 19681.
Notes301
Chapter 9
1. Yale Alumni Magazine, “The Fraud Detective, ” September/October
2013 Issue, http://www.yalealumnimagazine.com/articles/3737.
Chapter 10
1. This is, in fact, the crux of why U.S. taxpayers all got the opportunity
to own a piece of AIG. One of the subsidiaries of AIG made
commitments to carry out transactions that, with the collapse of the
mortgage bubble, it had no ability to do. In this case, it was not a bro-
ker or exchange that had to bear the exposure to AIGs failure—the
contracts AIG were trading were over-the-counter and thus not regu-
lated by an exchange—it was the financial system at large and U.S.
taxpayers in particular.
2. The fact that this strategy is unlevered means that percentage returns
provide an accurate representation of the absolute wealth generated
with the strategy. As we saw earlier, levered investments can show very
high percentage returns, whereas absolute returns are not as great. This
is not the case for short puts.
3. Writing an option means selling an option.
4. This is especially true for people investing in covered calls—a strategy
I will discuss in Chapter 11 and that has the same risk-return profile as
the short-put strategy.
5. Of course, there are other reasons for increased volatility during
earnings seasons, and some of the volatility reflects issues that are ma-
terial to valuation. In my opinion, though, the vast majority of infor -
mation given at these times is helpful for understanding only a few
months worth of prospective business results and, as such, should not
cause a material change in an intelligent investors perception of long-
run company value.
6. I am speaking here about the most attractive calls from a math-
ematical perspective, not a valuation one. I have not valued IBM
and am most definitely not making an investment recommenda-
tion here. I used IBM because it is a liquid option with a good
302N o t e s
many OTM strikes, not because I believe its a bearish investment
opportunity.
7. $100,000 × 5% = $5,000; $5,000/$196.80 per share = 25.4 shares.
Chapter 11
1. This is due to a statistical property known as dispersion . Dispersion—
the fact that prices on many things do not usually move in lockstep
with one another—is the root of all diversification strategies.
2. This assumes that crises are only temporary. Of course, structural or
secular downturns are a different matter, and the whole process of
investing must be done in a different way. In particular, conceptions of
sensible terminal growth rates become vital during these times.
Chapter 12
1. I am indebted to Brent Farler for this image, which I think is really
brilliant.
Appendix A
1. Refer to the discussion of investing agents and principals in Chapter 6.
2. It is only the nominal odds that are 50:50 anyway. The player always
has to pay the house (and if youre James Bond, you must tip the dealer
a cool million dollars), just as an investor must pay the broker. As such,
the net odds are always against the owner of capital.
3. Remember that the dotted line in the BSM cone shows that 50:50
“expected” value. Because our expected value dot is much higher, this
means that we are assigning a higher probability of that price occurring
than is the option market as a whole.
Notes303
Appendix B
1. The idea behind this process is to match the timing of the costs of
equipment with revenues from the items produced with that equip-
ment. This is a key principle of accountancy called matching.
2. The problem is that troughs, by definition, follow peaks. Usually, just
like the timing of large acquisitions, companies decide to spend huge
amounts to build new production capacity at just about the same time
that economic conditions peak, and the factories come online just as
the economy is starting to sputter and fail.
Appendix C
1. A penny saved is a penny earned. We can think of the option being
cheaper by the amount of the dividend, so we will place the amount
that we save on the call option in savings.
2. This is calculated using the following equation:
Interest = strike × r × percent of 1 year
In the case of the $18 strike, interest = 18 × 0.14% × (373 days/365 days
per year) = $0.03.
This page intentionally left blank
305
A
Absolute dollar value of returns,
172173
Accuracy, confidence vs., 119121
Acquisitions (see Mergers and
acquisitions)
Activist investors, 110
Against the Gods (Peter Bernstein), 9
Agents:
buy-side, 132136
defined, 131
investment strategies of, 137138
principals vs., 131132
sell-side, 136137
AIG, 301n1
Allocation:
and leverage in portfolios,
174183
and liquidity risk, 256
and portfolio management with
short-call spreads, 228229
Alpha, 134
American-style options, 296n2
(Chapter 1)
Analysis paralysis, 120
Anchoring, 60, 97
Announcements:
and creating BSM cones, 156, 157
market conditions following, 6869,
7273
tenor and trading in expectation
of, 192
AOL, 103
Apple Computer, 101, 250251,
297298n3
Arbitrage:
defined, 288289
dividend, 223, 288293
Ask price, 147
Asset allocation, liquidity risk
and, 256
Assets:
defined, 7879
fungible, 272273
in golden rule of valuation, 77
hidden, 110, 111
idiosyncratic, 272
interchangeable, 272273
mispriced, 274277
operating, 110
price vs. value of, 7980
underlying, 3334, 272273
Assets under management (AUM), 132
Assignment:
with covered calls, 247248
defined, 222223
Assumptions:
BSM model, 3233, 4047, 78, 150
dividend yield, 67
with forward volatility number,
156157
time-to-expiration, 6467
volatility, 6064
At-the-money (ATM) options:
BSM cone for, 53
collars, 259
covered calls, 242243, 245, 246
defined, 13, 16, 17
long calls, 189
long diagonals, 235237
Index
306 •   Index
At-the-money (ATM) options: (continued)
long straddles, 208209
OTM options vs., 233234
protective puts, 250251, 253
short diagonals, 238, 240
short puts, 215, 216
short straddles, 230
short-call spreads, 222225
AUM (assets under management), 132
B
Balance-sheet effects, 92, 108111
Behavior, efficient market hypothesis
as model for, 4142
Behavioral biases, 114130
overconfidence, 118122
pattern recognition, 114118
perception of risk, 123130
Behavioral economics, 42, 114
Bentley, 9798
Berkshire Hathaway, 185
Bernstein, Peter, 9
Biases, behavioral (see Behavioral
biases)
Bid price, 147
Bid-ask spreads, 147149
Bimodal outcomes, companies with,
277278
Black, Fischer, 89
BlackBerry, 208209
Black-Scholes-Merton (BSM) model, 9
assumptions of, 3233, 4047, 78, 150
conditions favoring, 269273
conditions not favoring, 273281
incorrect facets of, 29
predicting future stock prices from,
3239
ranges of exposure and price
predictions from, 5056
theory of, 32
(See also BSM cone)
Bonds, investing in short puts vs.,
213214
Booms, leverage during, 199
Breakeven line, 25
for call options, 15, 16
for long strangle, 2627
for put options, 17, 18
(See also Effective buy price [EBP])
Broker-dealers, 137, 299300n5
Brokers, benefits of short-term trading
for, 64
BSM cone:
for call options, 5055
for collars, 258
for covered calls, 240244
creating, 156160
defined, 3839
delta-derived, 151155
discrepancies between valuation and,
160162
for ITM options, 5758
for long calls, 189
for long diagonals, 235
for long puts, 201
for long strangles, 205
overlaying valuation range on, 160
for protective puts, 248, 249
for put options, 5455
for short diagonals, 238
for short puts, 212, 216, 217
for short straddles, 230
for short strangles, 231
for short-call spreads, 220
with simultaneous changes in variables,
6874
and time-to-expiration assumptions,
6467
and volatility assumptions,
6064
BSM model (see Black-Scholes-Merton
(BSM) model)
Bubbles, 4243
Buffett, Warren, xv, 184185
Buying options (see Exposure-gaining
strategies)
Buy-side structural impediments,
132136
Index 307
C
CAGR (compound annual growth
rate), 46
Call options (calls):
BSM cone for, 5055
buying, for growth, 22
covered, 240248
defined, 11
delta for, 151
dividend arbitrage with, 292293
leverage with, 167168
on quotes, 145
short, 14, 221
tailoring exposure with, 24
visual representation of, 1216
and volatility, 6874
(See also Covered calls; Long calls;
Short-call spreads)
Capital:
investment, 183184
strategic vs. working, 297n1
(Chapter 4)
Capital asset pricing model (CAPM),
88, 298n4
Capital expense, 80
Career risk, 263
Cash, hedge size and, 257
Cash flows:
on behalf of owners, 8082
expansionary, 82, 104108
in golden rule of valuation, 77
present value of future, 8789
summing, from different time periods,
8789
(See also Free cash flow to owners
[FCFO])
“Catalysts, ” 137
CBOE (see Chicago Board Options
Exchange)
Central counterparties, 8
Change (option quotes), 146147
Chanos, Jim, 202
Chicago Board Options Exchange
(CBOE), 4, 8, 47
Chicago Mercantile Exchange, 8
China, joint ventures in, 84
Cisco Systems, 299n6 (Chapter 5)
Closet indexing, 133
Closing prices:
change in, 146147
defined, 146
Collars, 258262
Commitment, counterparties , 211
Commodities, options on, 67
Companies:
with bimodal outcomes,
277278
drivers of value for (see Value
drivers)
economic life of, 8286, 9394
economic value of, 137139
operational details of, xiiixiv,
110111
Complex investment strategies, 142
Compound annual growth rate
(CAGR), 46
Condors, 2728
Confidence, accuracy vs., 119121
Contingent loans, call options as,
167168
Contract size, 146
Counterparties:
central, 8
commitments of, 211
for options contracts, 295n1
(Chapter 1)
Counterparty risk, 78
Covered calls, 23, 240248,
301n4
about, 241242
BSM cone, 240244
execution of, 242245
pitfalls with, 245248
with protective puts, 259262
Covering positions, 219, 228
Cremers, Martijn, 133
C-system, 115118
Customer “flow, ” 299n5 (Chapter 6)
308 •   Index
d
Debt, investment leverage from, 165166
Dell, 101
Delta, 151155, 300n1 (Chapter 8)
Demand-side constraints, 8486
Depreciation, 282284
Diagonals, 233
long, 235237
short, 238240
Directionality of options, 920
calls, 1216
and exposure, 1820
importance of, 2728
puts, 1618
and stock, 1011
volatility and predications about,
6874
Discount rate, 8789, 298n5
Dispersion, 302n1 (Chapter 11)
Distribution of returns:
fat-tailed, 45
leptokurtic, 45
lognormal, 3637
normal, 32, 36, 40, 4345
Dividend arbitrage, 223, 288293
Dividend yield, 67
Dividend-paying stocks, prices of,
3536
Dividends, 86
Downturns, short puts during, 214215
Drift:
assumptions about, 32, 3536
effects of, 67
and long calls, 202203
and long puts, 191
and long strangles, 206
Drivers of value (see Value drivers)
e
Early exercise, 223
Earnings before interest, taxes,
depreciation, and amortization
(EBITDA), 99
Earnings before interest and taxes
(EBIT), 99
Earnings per share (EPS), 99
Earnings seasons:
and tenor of short puts, 217218
volatility in, 301n5
EBIT (earnings before interest and
taxes), 99
EBITDA (earnings before interest,
taxes, depreciation, and
amortization), 99
EBP (see Effective buy price)
Economic environment, profitability
and, 101
Economic life of companies:
and golden rule of valuation,
8286
improving valuations by
understanding, 9394
Economic value of companies,
137139
Effective buy price (EBP), 2425,
213, 244
Effective sell price (ESP), 2526
Efficacy (see Investing level and
efficacy)
Efficient market hypothesis (EMH),
33, 34, 4043
Endowments, 135, 136
Enron, 110
EPS (earnings per share), 99
ESP (effective sell price), 2526
European-style options, 296n2
(Chapter 1)
Exchange-traded funds (ETFs),
options on, 251252
Execution of option overlay strategies:
collars, 259262
covered calls, 242245
protective puts, 250252
Exercising options, 13,
296n2 (Chapter 1)
Expansionary cash flows, 82, 104108
Index 309
Expiration of options, 187
Explicit forecast stage, 9396
Exposure:
accepting, 14, 1820
canceling out, 1820
gaining, 13, 1820
notional, 173
tailoring level of, 24
(See also Ranges of exposure)
Exposure-accepting strategies,
211232
margin requirements for, 211212
short call, 220230
short put, 212220
short straddle, 230232
short strangle, 231232
Exposure-gaining strategies, 187209
and expiration of options, 187
long call, 189201
long put, 201205
straddle, 208209
strangle, 205207
Exposure-mixing strategies, 233262
collar, 258262
covered call, 240248
long diagonal, 235237
and OTM vs. ATM options, 233234
protective put, 248258
short diagonal, 238240
Exxon, 299n4 (Chapter 5)
F
False precision, 93, 9697
Fama, Eugene, 42
Fat-tailed distribution, 45
FCFO (see Free cash flow to owners)
“Fight or flight” response, 118
Financial crises, 302n2 (Chapter 11)
Financial leverage:
defined, 285286
investment vs., 164
and level of investment leverage,
197199
Financial statements, xv
Flexibility (with option investing), 2028
Float, 185
Ford, 103, 272
Forward prices:
adding ranges to, 3639
calculating, 3436
defined, 3536
ranges of exposure and, 5056
Forward volatility:
choosing forward volatility number,
156160
defined, 5961
and strikestock price ratio, 6774
Free cash flow to owners (FCFO):
defined, 82
and drivers of value, 111112
in joint ventures, 84
and supply-side constraints, 83
Front-month contracts, 270
Fungible assets, 272273
G
Gains, levered vs. unlevered, 165
Gaussian distribution (see Normal
distribution)
GDP (gross domestic product),
104108
Gillette Razors, 84
GM, 272
Goals, for hedges, 257
“Going long, ” 10, 21
“Going short, ” 21
Golden rule of valuation, 7789
cash flows generated on behalf of
owners in, 8082
and definition of assets, 7880
and drivers of value, 9192
and economic life of company, 8286
and summing cash flows from
different time periods, 8789
Google, 84, 127130, 190
“Greeks, ” xiv, 295n3
310 •   Index
Gross domestic product (GDP), 104108
Growth:
buying call options for, 22
nominal GDP , 104108
revenue, 92, 9799
structural growth stage, 94, 95
H
Hedge funds, 132134, 136
Hedge funds of funds (HFoF), 134
Hedges:
reinvesting profit from, 254255
size of, 255258
timing of, 252254
Hedging:
planning for, 255258
for portfolios, 251252
Herding, 138, 299n1
HFoF (hedge funds of funds), 134
Historical volatility, 60
Hostile takeovers, 110
The Human Face of Big Data (Rick
Smolan), 114
I
IBM, 224230, 299n5 (Chapter 5),
301n6
Idiosyncratic assets, 272
Immediate realized loss (IRL), 180, 183
Implied volatility:
bid/ask, 149151
changing assumptions about, 6064
and short puts, 216217
Income, selling put options for, 23
Indexing, closet, 133
Insurance, 5, 250
Insurance companies, 135, 136
Intel, 175
Interchangeable assets, 272273
Interest:
calculating, 303n2
options and payment on, 168
prepaid, 170
Interest rates, 67
In-the-money (ITM) options:
calls vs. puts, 27
covered calls, 242
defined, 13, 16, 17
investment leverage for, 170172
levered strategy with, 176180
long calls, 189, 193197
long diagonals, 236
long puts, 204
managing leverage with, 183184
and market risk, 263264
pricing of, 5659, 150
protective puts, 249251
short puts, 213215
short-call spread, 222, 223
time decay for, 6667
Intrinsic value, 5659, 171
Investing level and efficacy, 92,
103108
Investment capital, leverage and,
183184
Investment leverage, 163185
from debt, 165166
defined, 164
managing, 183185
margin of safety for, 197199
measuring, 169173
from options, 166168
and portfolio management,
196197
in portfolios, 174183
unlevered investments, 164165
Investment phase (investment stage),
86, 9396
Investors:
activist, 110
risk-averse, 123, 125127
risk-neutral, 124126
risk-seeking, 123, 125127
IRL (immediate realized loss),
180, 183
ITM (see In-the-money options)
Index 311
J
Jaguar, 103
Joint ventures (JVs), 8485
JP Morgan Chase, 236237
K
Kahneman, Daniel, 42, 123, 126
Keen, Steven, 43
Keynes, John Maynard, 263
Kroger, 100
K/S (see Strikestock price ratio)
L
Lambda, 169173
Large numbers, law of, 85, 297n2
(Chapter 4)
Last (option quotes), 146
LEAPS (see Long-term equity
anticipated securities)
Legs (option structure), 27
Lehman Brothers, 264
Lenovo, 299n5 (Chapter 5)
Leptokurtic distribution, 45
Leverage, 163, 282286
financial, 164, 197199, 285286
operating (operational), 101,
197199, 282284
(See also Investment leverage)
Leverage ratio, 228229
Levered investments, portfolios with,
176183
Liabilities, hidden, 110111
Life insurance companies, 135
Liquidity risk, 256, 263
Listed look-alike option market, 6
Literary work, options on, 56
Lo, Andrew, 42
Load, 132, 134
Loans, call options as,
167168
Lognormal curve, 37
Lognormal distribution,
3637
Long calls, 13, 189201
about, 189
BSM cone, 189
in long diagonals, 235237
portfolio management with,
196201
strike price for, 192196
tenor for, 190192
Long diagonals, 235237
Long puts, 201205
about, 201202
BSM cone, 201
portfolio management with,
204205
in short diagonals, 238240
strike price for, 203
tenor for, 202203
Long straddles, 208209
Long strangles, 2627, 205207, 209
Long-term equity anticipated
securities (LEAPS), 153, 191,
280281
Loss leverage:
conventions for, 182183
formula, 178179
with short puts, 211212
Losses:
with levered vs. unlevered
instruments, 165166
locking in, 245247
on range of exposure, 15
unrealized, 175176
(See also Realized losses)
M
MacKinlay, Craig, 42
Margin calls, 168
Margin of safety, 197199
Margin requirements, 211212
Market conditions, 5974
assumptions about drift and
dividend yield, 67
simultaneous changes in, 6774
312 •   Index
Market conditions (continued)
time-to-expiration assumptions, 6467
and types of volatility, 5960
volatility assumptions, 6064
Market efficiency, 3234, 4043
Market makers, 147, 281
Market risk, 263265
Matching, 302n1 (Appendix B)
Maximum return, 225
Mergers and acquisitions:
strike prices selection and, 195196
tenor and, 191192
Merton, Robert, 89
Miletus, 67
Mispriced assets, 274277
Mispriced options, 143162
deltas of, 151155
reading option quotes, 144151
and valuation risk, 266
and valuation vs. BSM range, 155162
Moneyness of options:
calls, 1314
puts, 1617
Morningstar, 132
Most likely (term), 38
Motorola Mobility Systems, 84
Mueller Water, 148149, 154, 158160
Multiples-based valuation, 99100
Mutual funds, 132133, 136
n
Nominal GDP growth:
owners cash profit vs., 104108
as structural constraint, 104
Normal distribution, 32, 36, 40, 4345
Notional amount of position, 173
Notional exposure, 173
O
OCC (Options Clearing
Corporation), 8
OCP (see Owners cash profit)
Operating assets, 110
Operating leverage (operational
leverage):
defined, 282284
and level of investment leverage,
197199
and profitability, 101
Operational details of companies,
xiiixiv, 110111
Option investing:
choices in, 2224
conditions favoring BSM, 269273
conditions not favoring BSM, 273281
flexibility in, 2028
long-term strategies, 1
misconceptions about, 1
risk in, 268
shortcuts for valuation in, 9397
stock vs., 2122
strategies for, 142 (See also specific
types of strategies)
structural impediments in, 131139
three-step process, xiv
valuation in, 75
Option pricing, 2947, 4974
and base assumptions of BSM, 4047
market conditions in, 5974
predicting future stock prices from,
3239
and ranges of exposure, 5056
theory of, 3032
time vs. intrinsic value in, 5659
Option pricing models:
base assumptions of, 4047
history of, 89
operational details of companies in,
xiiixiv
predicting future stock prices with,
3239
ranges of exposure and price
predictions from, 5056
(See also Black-Scholes-Merton
[BSM] model)
Option quotes, 144151
Index 313
Optionality, 4
Options, 328
buying (see Exposure-gaining
strategies)
characteristics of, 4
defined, 4
directionality of, 920
examples of, 56
expiration of, 187
history of, 69
investment leverage from, 166168
misconceptions about, 1
mispriced, 143162
(See also specific types)
Options Clearing Corporation (OCC), 8
Options contracts:
counterparties for, 295n1 (Chapter 1)
examples of, 56
front-month, 270
private, 68
Oracle, 107108, 144, 146, 148153,
155, 157, 159162
Organic revenue growth, 97
Out-of-the-money (OTM) options:
ATM options vs., 233234
call vs. put, 27
collars, 258262
defined, 13, 16, 17
investment leverage for, 171172
levered strategy with, 180, 181
long calls, 193, 195197
long diagonals, 235237
long puts, 203, 204
long strangles, 205207
and market makers, 147
pricing of, 150
protective puts, 248, 250253
realized losses and, 187
rising volatility and, 7074
short diagonals, 238240
short puts, 213, 215
short strangles, 231
short-call spreads, 221224
time decay for, 6667
unrealized losses, 187
Overconfidence, 118122
Overexposure, 247
Overlays, 23, 234
Owners:
cash flows generated on behalf of,
8082
free cash flow to (see Free cash flow
to owners (FCFO))
Owners cash profit (OCP):
defined, 82
nominal GDP growth vs., 104108
profitability as, 99102
P
Parity, 288
Pattern recognition, 114118
Peaks (business-cycle):
operational leverage in, 284
and troughs, 302303n2
Pension funds, 135, 136
Percent delta, 169173
Percent profit, 172173
Percentage return, 229
Portfolio management:
for long calls, 196201
for long puts, 204205
for long strangles, 207
for short puts, 216220
for short-call spreads, 228230
Portfolios:
hedging, 251252
investment leverage in, 174183
Precision, false, 93, 9697
Premium, 13
Prepaid interest, 170
Present value of future cash flows, 8789
Pricing power, 98
Principal (financial), 168
Principals, agents vs., 131132
Problem solving, X- vs. C-system,
115118
314 •   Index
Procter & Gamble, 84
Productivity, 102
Profit:
from covered calls, 245
from hedging, 254255
owners cash, 82
percent, 172173
Profit leverage, 179180, 182183
Profitability:
and financial leverage, 285286
and operational leverage,
283284
as value driver, 92, 99102
Proprietary trading desks (prop
traders), 300n5
Prospect theory, 123127
Protective puts, 248258
about, 248250
BSM cone, 248, 249
with covered calls, 259262
execution of, 250252
pitfalls with, 252258
Pure Digital, 299n6 (Chapter 5)
Put options (puts):
BSM cone for, 5455
buying, for protection, 23
defined, 11
delta for, 151
on quotes, 145
selling, for income, 23
tailoring exposure with, 24
visual representation of, 1618
(See also Long puts; Protective puts;
Short puts)
Put-call parity, 223, 287293
defined, 287288
and dividend arbitrage, 288293
for non-dividend-paying stock,
289290
Q
Qualcomm, 260262
Quotes, option, 144151
R
Random-walk principal, 41
Ranges of exposure, 3
for call options, 1213, 15
for ITM options, 5859
and option pricing, 5056
Rankine, Graeme, 4142
Ratioing, 206, 238
Realized losses:
and buying puts, 203
immediate, 180, 183
managing leverage to minimize,
183185
and option buying, 187188
unrealized vs., 175176
Recessions, leverage during, 198, 199
Reflective thought processes, 116118
Reflexive thought processes, 116118
Return(s):
absolute dollar value of, 172173
for covered calls, 244245
maximum, 225
percentage, 229
for short puts, 245
(See also Distribution of returns)
Revenue growth, 92, 9799
Risk, 263268
career, 263
counterparty, 78
liquidity, 256, 263
market, 263265
in option investing, 267268
perception of, 123130
and size of hedges, 255256
solvency, 256, 263
valuation, 265267
Risk-averse investors, 123, 125127
Risk-free rate:
borrowing at, 32, 40, 46
BSM model assumption about, 32,
3536, 40, 4546
Risk-neutral investors, 124126
Risk-seeking investors, 123, 125127
Index 315
Rolling, 200201
Round-tripping, 148149, 300n1
(Chapter 7)
S
Safeway, 100
Schiller, Robert, 43
Scholes, Myron, 89
Secular downturns, 302n2 (Chapter 11)
Secular shifts, profitability and,
101102
Sell-side structural impediments,
136137
Settlement prices, 146
Shiller, Robert, 42
Short calls, 14, 221
Short diagonal, 238240
Short puts, 211220
about, 213214
BSM cone, 212
covered calls and, 241244
in long diagonals, 235237
loss leverage with, 211212
portfolio management with, 216220
protective puts vs., 248250
returns for, 245
strike price for, 215
tenor for, 214215
Short straddles, 230232
Short strangles, 231232
Short-call spreads, 220230
about, 221222
BSM cone, 220
portfolio management with,
228230
in short diagonals, 238240
strike price for, 222228
tenor for, 222
Short-term trading strategies:
implied volatility in, 6364
intelligent investing vs., 267268
and market risk, 264265
Slovic, Paul, 119
Smolan, Rick, 114
Solvency risk, 256, 263
S&P 500 (see Standard & Poors 500
Index)
Special-purpose vehicles, 110
Spreads:
bid-ask, 147149
short-call (see Short-call spreads)
SPX ETF , 251252
Standard & Poors 500 Index (S&P
500):
correlation of hedge funds and, 134
distribution of returns, 4446
protective puts on, 252254
Startup stage, 86
Statistical volatility, 60
Stock investing, xiii
choices in, 2022
visual representation of, 1011
Stock prices:
BSM model assumption about, 32,
3435, 4047
directional predictions of, 6874
of dividend-paying stocks, 3536
predicting, with BSM model, 3239
(See also Forward prices; strike
stock price ratio [K/S])
Stock-split effect, 42
Stop loss, 229
Straddles:
long, 208209
short, 230232
Straight-line depreciation, 283
Strangles:
long, 2627, 205207, 209
short, 231232
Strategic capital, 297n1 (Chapter 4)
Strike prices:
and BSM cone, 5254
defined, 12
long call, 192196
long diagonal, 236237
long put, 203
316 •   Index
Strike prices: (continued )
long strangle, 206207
short diagonal, 239240
short put, 215
short-call spread, 222228
Strikestock price ratio (K/S):
and change in closing price,
146147
defined, 5354
and forward volatility, 6774
Structural constraints, 86, 104
Structural downturns, 302n2
(Chapter 11)
Structural growth stage, 94, 95
Structural impediments, 131139
buy-side, 132136
and investment strategies,
137139
principals vs. agents, 131132
sell-side, 136137
Sun Microsystems, 108
Supply-side constraints, 83
Symmetry, bias associated with,
114118
T
“Taking profit” with covered calls, 245
Taxes, BSM model assumption about,
32, 40, 46
Technical analysis, 115
Tenor, 297n3 (Chapter 3)
defined, 59
for long calls, 190192
for long puts, 202203
for long strangles, 206
for protective puts, 252254
for short puts, 214215
for short-call spreads, 222
Terminal phase, 86
Time decay, 6567
Time horizons:
long, 279281
short, 270272
Time value:
intrinsic vs., 5659
of money, 87, 9395
Time Warner, 103
Time-to-expiration assumptions,
6467
Toyota, 97
Trading restrictions, 32, 40, 46
Troughs (business-cycle):
operational leverage in, 283284
and peaks, 302303n2
Tversky, Amos, 123, 126
“2-and-20” arrangements, 134
U
Uncertainty, 118119
Underexposure, 247
Underlying assets:
fungible, 272273
and future stock price, 3334
University of Chicago, 41
Unlevered investments:
levered vs., 164165
in portfolios, 175176, 178
Unrealized losses, 175176
Unrealized profit, 254255
Unused leg, long strangle, 207
U.S. Treasury bonds, 4546
Utility curves, 124126
V
Valuation:
golden rule of, 7789
multiples-based, 99100
shortcuts for, 9397
value drivers in, 9197
Valuation range:
BSM cone vs., 160162
creating, 122
and margins of safety, 197199
overlaying BSM cone with, 160
and strike price selection, 192194
Valuation risk, 265267
Index 317
Value:
of companies, 137139
intrinsic, 5659, 171
time, 5659, 87, 9395
Value drivers, 91112
balance-sheet effects, 108111
investing level and efficacy, 103108
profitability, 99103
revenue growth, 9799
in valuation process, 9197
Value investing, 79
Volatility (vol.):
amplifying directional predictions
with, 7174
changing assumptions about, 6064
in earnings season, 301n5
failing to offset directional
predictions with, 7071
historical, 60
offsetting directional predictions
with, 6870
statistical, 60
types of, 5960
(See also Forward volatility; Implied
volatility)
Volatility smile, 45, 150, 152
W
Walmart, 105108
Whole Foods Market, 100, 101
Working capital, 297n1
(Chapter 4)
Writing options, 215, 301n3
x
X-system, 115118
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ABOUT THE AUTHOR
erik Kobayashi-Solomon, a veteran from the investment banking and
hedge fund world, is the founder and principal of IOI, LLC a financial
consultancy for individual and institutional investors. In addition to
publishing an institutional investor-focused subscription product, Erik
runs option and investment “boot camps” and consults on risk control,
option strategies, and stock valuations for individual and institutional
investors.
Before starting IOI, Erik worked for Morningstar in its stock research
department for over six years. At Morningstar, he first managed a team of
semiconductor industry analysts before becoming the coeditor and driv-
ing force of Morningstars OptionInvestor newsletter and serving as the
companys Market Strategist.
In addition to coauthoring a guide to fundamental investing and
option strategies used in the Morningstar Investor Training Options
Course and popular weekly articles about using options as a tool for in-
vestment portfolios, Erik was the host of several popular webinars such as
“Covered Calls A to Z” and “Hedging 101. ” His video lecture about avoid-
ing behavioral and structural pitfalls called “Making Better Investment
Decisions” was so popular that he was invited to be the featured speaker at
several investment conferences throughout the United States. In addition,
he represented Morningstar on television and radio, was interviewed by
magazines and newspapers from Dallas to Tokyo to New Delhi, and was
a frequent guest contributor to other Morningstar/Ibbotson publications.
Erik started his career in the world of finance at Morgan Stanley
Japan, where he ultimately headed Morgans listed derivatives operations
in Tokyo. After returning to the United States, Erik founded a small hedge
fund based on his original research in the field of Behavioral Finance and
later became the Risk Manager for a larger investment fund. There, he de-
signed option hedges for the funds $800 million global equity portfolio
and advised the portfolio manager on quantitative investment strategies
and Japanese stock market investments.
Erik, the son of a NASA scientist father and a concert violin-
ist mother, graduated Magna Cum Laude and Phi Beta Kappa from the
University of Texas at Austin, where he majored in Asian Studies and
Japanese. After working in Japan for several years as a teacher, translator,
and television actor, he won a full-ride scholarship to study business at
the number one ranked school for international business in the United
States—Thunderbird—in Glendale, Arizona. There, he worked as a research
assistant to Dr. Anant Sundaram (Finance, presently at Dartmouth) from
whom he gained a love for finance and economics, Dr. Graeme Rankine
(Accounting) who introduced him to Behavioral Finance, and Dr. Charles
Neilson (Marketing) who taught him the importance of strategic thinking.
Erik graduated Summa Cum Laude and was selected as the outstanding
student of his graduating class.
Erik lives in Chicago, Illinois with his family and enjoys long distance
running and reading. In his spare time, he volunteers at the local Japanese
school to teach children Kendo—the Japanese art of swordsmanship.
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