Transcript Document
Chapter 17
Performance Evaluation
Portfolio Construction, Management, & Protection, 4e, Robert A. Strong
Copyright ©2006 by South-Western, a division of Thomson Business & Economics. All rights reserved.
1
And with that they clapped him into irons and hauled
him off to the barracks. There he was taught
“right turn,” “left turn,” and “quick march,”
“slope arms,” and “order arms,” how to aim and
how to fire, and was given thirty strokes of the
“cat.” Next day his performance on parade was a
little better, and he was given only twenty strokes.
The following day he received a mere ten and was
thought a prodigy by his comrades.
On Candide’s forcible
impressment into the
Bulgarian army, from
Voltaire’s Candide
2
Outline
Introduction
Importance of Measuring Portfolio Risk
Traditional Performance Measures
Dollar-Weighted and Time-Weighted Rates of
Return
Performance Evaluation with Cash Deposits and
Withdrawals
Performance Evaluation when Options are Used
3
Introduction
Performance
evaluation is a critical aspect
of portfolio management
Proper
performance evaluation should
involve a recognition of both the return and
the riskiness of the investment
4
Importance of
Measuring Portfolio Risk
Introduction
A Lesson
from History: The 1968 Bank
Administration Institute Report
A Lesson from a Few Mutual Funds
Why the Arithmetic Mean Is Often
Misleading: A Review
Why Dollars Are More Important Than
Percentages
5
Introduction
When
two investments’ returns are
compared, their relative risk must also be
considered
People maximize expected utility:
• A positive function of expected return
• A negative function of the return variance
E (U ) f E ( R ), 2
6
A Lesson from History: The 1968
Bank Administration Institute Report
The 1968 Bank Administration Institute’s
Measuring the Investment Performance of
Pension Funds concluded:
1) Performance of a fund should be measured by
computing the actual rates of return on a
fund’s assets
2) These rates of return should be based on the
market value of the fund’s assets
7
A Lesson from History: The 1968 Bank
Administration Institute Report (cont’d)
3) Complete evaluation of the manager’s
performance must include examining a
measure of the degree of risk taken in the
fund
4) Circumstances under which fund managers
must operate vary so greatly that
indiscriminate comparisons among funds
might reflect differences in these
circumstances rather than in the ability of
managers
8
A Lesson from
a Few Mutual Funds
The
two key points with performance
evaluation:
• The arithmetic mean is not a useful statistic in
evaluating growth
• Dollars are more important than percentages
Consider
the historical returns of two
mutual funds on the following slide
9
A Lesson from
a Few Mutual Funds (cont’d)
Year
44 Wall
Street
Mutual
Shares
Year
44 Wall
Street
Mutual
Shares
1975
184.1%
24.6%
1982
6.9
12.0
1976
46.5
63.1
1983
9.2
37.8
1977
16.5
13.2
1984
–58.7
14.3
1978
32.9
16.1
1985
–20.1
26.3
1979
71.4
39.3
1986
–16.3
16.9
1980
36.1
19.0
1987
–34.6
6.5
1981
-23.6
8.7
1988
19.3
30.7
Mean
19.3%
23.5%
Change in net asset value, January 1 through December 31.
10
A Lesson from
a Few Mutual Funds (cont’d)
Ending Value ($)
Mutual Fund Performance
$200,000.00
$180,000.00
$160,000.00
$140,000.00
$120,000.00
$100,000.00
$80,000.00
$60,000.00
$40,000.00
$20,000.00
$-
44 Wall
Street
Mutual
Shares
7
19
7
8
19
0
8
19
3
8
19
6
Year
11
A Lesson from
a Few Mutual Funds (cont’d)
44
Wall Street and Mutual Shares both had
good returns over the 1975 to 1988 period
Mutual
Shares clearly outperforms 44 Wall
Street in terms of dollar returns at the end of
1988
12
Why the Arithmetic Mean
Is Often Misleading: A Review
The
arithmetic mean may give misleading
information
• e.g., a 50 percent decline in one period
followed by a 50 percent increase in the next
period does not produce an average return of
zero
13
Why the Arithmetic Mean
Is Often Misleading: A Review (cont’d)
The
proper measure of average investment
return over time is the geometric mean:
1/ n
GM Ri 1
i 1
where Ri the return relative in period i
n
14
Why the Arithmetic Mean
Is Often Misleading: A Review (cont’d)
The
geometric means in the preceding
example are:
• 44 Wall Street: 7.9 percent
• Mutual Shares: 22.7 percent
The
geometric mean correctly identifies
Mutual Shares as the better investment over
the 1975 to 1988 period
15
Why the Arithmetic Mean
Is Often Misleading: A Review (cont’d)
Example
A stock returns –40% in the first period, +50% in the
second period, and 0% in the third period.
What is the geometric mean over the three periods?
16
Why the Arithmetic Mean
Is Often Misleading: A Review (cont’d)
Example
Solution: The geometric mean is computed as follows:
GM
Ri
i 1
n
1/ n
1
(0.60)(1.50)(1.00)1/ 3 1
0.0345 3.45%
17
Why Dollars Are More
Important Than Percentages
Assume
two funds:
• Fund A has $40 million in investments and
earned 12 percent last period
• Fund B has $250,000 in investments and earned
44 percent last period
18
Why Dollars Are More Important
Than Percentages (cont’d)
The
correct way to determine the return of
both funds combined is to weigh the funds’
returns by the dollar amounts:
$40,000,000
$250,000
$40, 250,000 12% $40, 250,000 44% 12.10%
19
Traditional
Performance Measures
Sharpe
and Treynor Measures
Jensen Measure
Performance Measurement in Practice
20
Sharpe and Treynor Measures
The
Sharpe and Treynor measures:
Sharpe measure
Treynor measure
R Rf
R Rf
where R average return
R f risk-free rate
standard deviation of returns
beta
21
Sharpe and
Treynor Measures (cont’d)
The
Treynor measure evaluates the return
relative to beta, a measure of systematic risk
• It ignores any unsystematic risk
The
Sharpe measure evaluates return
relative to total risk
• Appropriate for a well-diversified portfolio, but
not for individual securities
22
Sharpe and
Treynor Measures (cont’d)
Example
Over the last four months, XYZ Stock had excess returns
of 1.86 percent, –5.09 percent, –1.99 percent, and 1.72
percent. The standard deviation of XYZ stock returns is
3.07 percent. XYZ Stock has a beta of 1.20.
What are the Sharpe and Treynor measures for XYZ
Stock?
23
Sharpe and
Treynor Measures (cont’d)
Example (cont’d)
Solution: First, compute the average excess return for
Stock XYZ:
1.86% 5.09% 1.99% 1.72%
R
4
0.88%
24
Sharpe and
Treynor Measures (cont’d)
Example (cont’d)
Solution (cont’d): Next, compute the Sharpe and Treynor
measures:
Sharpe measure
Treynor measure
R Rf
R Rf
0.88%
0.29
3.07%
0.88%
0.73
1.20
25
Jensen Measure
The
Jensen measure stems directly from the
CAPM:
Rit R ft i Rmt R ft
26
Jensen Measure (cont’d)
The
constant term should be zero
• Securities with a beta of zero should have an
excess return of zero according to finance
theory
According
to the Jensen measure, if a
portfolio manager is better-than-average,
the alpha of the portfolio will be positive
27
Jensen Measure (cont’d)
The
Jensen measure is generally out of
favor because of statistical and theoretical
problems
28
Performance Measurement
in Practice
Academic
Issues
Industry Issues
29
Academic Issues
The
use of traditional performance
measures relies on the CAPM
Evidence
continues to accumulate that may
ultimately displace the CAPM
• Arbitrage pricing model, multi-factor CAPMs,
inflation-adjusted CAPM
30
Industry Issues
“Portfolio
managers are hired and fired
largely on the basis of realized investment
returns with little regard to risk taken in
achieving the returns”
Practical
performance measures typically
involve a comparison of the fund’s
performance with that of a benchmark
31
Industry Issues (cont’d)
“Fama’s
return decomposition” can be used
to assess why an investment performed
better or worse than expected:
• The return the investor chose to take
• The added return the manager chose to seek
• The return from the manager’s good selection
of securities
32
33
Industry Issues (cont’d)
Diversification
is the difference between the
return corresponding to the beta implied by
the total risk of the portfolio and the return
corresponding to its actual beta
• Diversifiable risk decreases as portfolio size
increases, so if the portfolio is well diversified
the “diversification return” should be near zero
34
Industry Issues (cont’d)
Net
selectivity measures the portion of the
return from selectivity in excess of that
provided by the “diversification”
component
35
Dollar-Weighted and
Time-Weighted Rates of Return
The dollar-weighted rate of return is analogous
to the internal rate of return in corporate finance
• It is the rate of return that makes the present value of a
series of cash flows equal to the cost of the investment:
C3
C1
C2
cost
2
(1 R) (1 R) (1 R)3
36
Dollar-Weighted and
Time-Weighted Rates of Return (cont’d)
The time-weighted rate of return measures the
compound growth rate of an investment
• It eliminates the effect of cash inflows and outflows by
computing a return for each period and linking them
(like the geometric mean return):
time- weighted return (1 R1 )(1 R2 )(1 R3 )(1 R4 ) 1
37
Dollar-Weighted and
Time-Weighted Rates of Return (cont’d)
The time-weighted rate of return and the dollarweighted rate of return will be equal if there are no
inflows or outflows from the portfolio
38
Performance Evaluation with
Cash Deposits and Withdrawals
Introduction
Daily
Valuation Method
Modified Bank Administration Institute
(BAI) Method
An Example
An Approximate Method
39
Introduction
The owner of a fund often takes periodic
distributions from the portfolio, and may
occasionally add to it
The established way to calculate portfolio
performance in this situation is via a timeweighted rate of return:
• Daily valuation method
• Modified BAI method
40
Daily Valuation Method
The
daily valuation method:
• Calculates the exact time-weighted rate of
return
• Is cumbersome because it requires determining
a value for the portfolio each time any cash
flow occurs
– Might be interest, dividends, or additions to or
withdrawals
41
Daily Valuation
Method (cont’d)
The
daily valuation method solves for R:
n
Rdaily Si 1
i 1
MVEi
where S
MVBi
42
Daily Valuation
Method (cont’d)
MVEi = market value of the portfolio at the end of
period i before any cash flows in period i but
including accrued income for the period
MVBi = market value of the portfolio at the
beginning of period i including any cash flows at
the end of the previous subperiod and including
accrued income
43
Modified Bank Administration
Institute (BAI) Method
The
modified BAI method:
• Approximates the internal rate of return for the
investment over the period in question
• Can be complicated with a large portfolio that
might conceivably have a cash flow every day
44
Modified Bank Administration
Institute (BAI) Method (cont’d)
It
solves for R:
n
MVE Fi (1 R ) wi
i 1
where F the sum of the cash flows during the period
MVE market value at the end of the period,
including accrued income
F0 market value at the start of the period
CD Di
CD
CD total number of days in the period
Di number of days since the beginning of the period
wi
in which the cash flow occurred
45
An Example
An
investor has an account with a mutual
fund and “dollar cost averages” by putting
$100 per month into the fund
The
following slide shows the activity and
results over a seven-month period
46
47
An Example (cont’d)
The
daily valuation method returns a timeweighted return of 40.6 percent over the
seven-month period
• See next slide
48
49
An Example (cont’d)
The
BAI method requires use of a computer
The
BAI method returns a time-weighted
return of 42.1 percent over the seven-month
period (see next slide)
50
51
An Approximate Method
Proposed
by the American Association of
Individual Investors:
P1 0.5(Net cash flow)
R
1
P0 0.5(Net cash flow)
where net cash flow is the sum of inflows and outflows
52
An Approximate
Method (cont’d)
Using
the approximate method in Table 17-
6:
P1 0.5(Net cash flow)
R
1
P0 0.5(Net cash flow)
5,500.97 0.5(4, 200)
1
7,550.08 0.5(-4, 200)
0.395 39.5%
53
Performance Evaluation
When Options Are Used
Introduction
Incremental
Risk-Adjusted Return from
Options
Residual Option Spread
Final Comments on Performance
Evaluation with Options
54
Introduction
Inclusion
of options in a portfolio usually
results in a non-normal return distribution
Beta
and standard deviation lose their
theoretical value if the return distribution is
nonsymmetrical
55
Introduction (cont’d)
Consider
two alternative methods when
options are included in a portfolio:
• Incremental risk-adjusted return (IRAR)
• Residual option spread (ROS)
56
Incremental Risk-Adjusted
Return from Options
Definition
An
IRAR Example
IRAR Caveats
57
Definition
The
incremental risk-adjusted return
(IRAR) is a single performance measure
indicating the contribution of an options
program to overall portfolio performance
• A positive IRAR indicates above-average
performance
• A negative IRAR indicates the portfolio would
have performed better without options
58
Definition (cont’d)
Use
the unoptioned portfolio as a
benchmark:
• Draw a line from the risk-free rate to its
realized risk/return combination
• Points above this benchmark line result from
superior performance
– The higher than expected return is the IRAR
59
Definition (cont’d)
60
Definition (cont’d)
The
IRAR calculation:
IRAR ( SH o SH u ) o
where SH o Sharpe measure of the optioned portfolio
SH u Sharpe measure of the unoptioned portfolio
o standard deviation of the optioned portfolio
61
An IRAR Example
A portfolio
manager routinely writes index
call options to take advantage of anticipated
market movements
Assume:
• The portfolio has an initial value of $200,000
• The stock portfolio has a beta of 1.0
• The premiums received from option writing are
invested into more shares of stock
62
63
An IRAR Example (cont’d)
The
IRAR calculation (next slide) shows
that:
• The optioned portfolio appreciated more than
the unoptioned portfolio
• The options program was successful at adding
about 12 percent per year to the overall
performance of the fund
64
65
IRAR Caveats
IRAR
can be used inappropriately if there is
a floor on the return of the optioned
portfolio
• e.g., a portfolio manager might use puts to
protect against a large fall in stock price
The
standard deviation of the optioned
portfolio is probably a poor measure of risk
in these cases
66
Residual Option Spread
The residual option spread (ROS) is an
alternative performance measure for portfolios
containing options
A positive ROS indicates the use of options
resulted in more terminal wealth than only holding
the stock
A positive ROS does not necessarily mean that the
incremental return is appropriate given the risk
67
Residual Option
Spread (cont’d)
The
residual option spread (ROS)
calculation:
n
n
t 1
t 1
ROS Got Gut
where Gt Vt / Vt 1
Vt value of portfolio in Period t
68
Residual Option
Spread (cont’d)
The
worksheet to calculate the ROS for the
previous example is shown on the next slide
The
ROS translates into a dollar differential
of $1,452
69
70
The M2
Performance Measure
Developed
by Franco and Leah Modigliani
in 1997
Seeks to express relative performance in
risk-adjusted basis points
• Ensures that the portfolio being evaluated and
the benchmark have the same standard
deviation
71
The M2 Performance
Measure (cont’d)
Calculate
the risk-adjusted portfolio return
as follows:
Rrisk-adjusted portfolio
benchmark
Ractual portfolio
portfolio
benchmark
1
portfolio
R f
72
Final Comments
IRAR
and ROS both focus on whether an
optioned portfolio outperforms an
unoptioned portfolio
• Can overlook subjective considerations such as
portfolio insurance
73