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© 2009 McGraw-Hill Ryerson Limited 13- 1 Chapter 13 Performance Evaluation and Risk Management Active and Passive Portfolio Management Active and Passive.

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Presentation on theme: "© 2009 McGraw-Hill Ryerson Limited 13- 1 Chapter 13 Performance Evaluation and Risk Management Active and Passive Portfolio Management Active and Passive."— Presentation transcript:

1 © 2009 McGraw-Hill Ryerson Limited 13- 1 Chapter 13 Performance Evaluation and Risk Management Active and Passive Portfolio Management Active and Passive Portfolio Management Performance evaluation Performance evaluation Comparing performance measures Comparing performance measures Investment risk management Investment risk management More on computing value-at-risk More on computing value-at-risk

2 13- 2 It is Not the Return On My Investment... “It is not the return on my investment that I am concerned about. It is the return of my investment!” – Will Rogers However, “We’ll GUARANTEE you a 25% return of your investment!” – Tom and Ray Magliozzi

3 13- 3 Performance Evaluation Measures Performance evaluation is a term for assessing how well a money manager achieves a balance between high returns and acceptable risks. The raw return on a portfolio, R P, is simply the total percentage return on a portfolio. The raw return is a naive performance evaluation measure because: The raw return has no adjustment for risk. The raw return is not compared to any benchmark, or standard. Therefore, the usefulness of the raw return on a portfolio is limited.

4 © 2009 McGraw-Hill Ryerson Limited 13- 4 Performance Evaluation Measures The Sharpe Ratio The Sharpe ratio is a reward-to-risk ratio that focuses on total risk. It is computed as a portfolio’s risk premium divided by the standard deviation for the portfolio’s return.

5 © 2009 McGraw-Hill Ryerson Limited 13- 5 Performance Evaluation Measures The Treynor Ratio The Treynor ratio is a reward-to-risk ratio that looks at systematic risk only. It is computed as a portfolio’s risk premium divided by the portfolio’s beta coefficient.

6 © 2009 McGraw-Hill Ryerson Limited 13- 6 Performance Evaluation Measures Jensen’s Alpha Jensen’s alpha is the excess return above or below the security market line. It can be interpreted as a measure of how much the portfolio “beat the market.” It is computed as the raw portfolio return less the expected portfolio return as predicted by the CAPM. Actual return CAPM Risk-Adjusted ‘Predicted’ Return“Extra” Return

7 © 2009 McGraw-Hill Ryerson Limited 13- 7 Performance Evaluation Measures M 2 Measure M 2 Measure It is the excess return of a hypothetical portfolio over the market portfolio. It is the excess return of a hypothetical portfolio over the market portfolio. For a portfolio p, we can create a hypothetical portfolio by combining a percentage of portfolio p with risk free asset (T-bill) such that the hypothetical portfolio will have the same standard deviation as the market portfolio. For a portfolio p, we can create a hypothetical portfolio by combining a percentage of portfolio p with risk free asset (T-bill) such that the hypothetical portfolio will have the same standard deviation as the market portfolio. We can then compare two same risk portfolios using their returns. We can then compare two same risk portfolios using their returns. M 2 = R hp - R m M 2 = R hp - R m where hp represents the hypothetical portfolio and m represents the market index. where hp represents the hypothetical portfolio and m represents the market index.

8 © 2009 McGraw-Hill Ryerson Limited 13- 8 Jensen’s Alpha

9 © 2009 McGraw-Hill Ryerson Limited 13- 9 Portfolio Performance Measurement Table 13.1 and Table 13.2

10 13- 10 Investment Performance Measurement on the Web

11 13- 11 Comparing Performance Measures Because the performance rankings can be substantially different, which performance measure should we use? Sharpe ratio: Appropriate for the evaluation of an entire portfolio. Penalizes a portfolio for being undiversified, because in general, total risk  systematic risk only for relatively well-diversified portfolios. Treynor ratio and Jensen’s alpha: Appropriate for the evaluation of securities or portfolios for possible inclusion into an existing portfolio. Both are similar, the only difference is that the Treynor ratio standardizes returns, including excess returns, relative to beta. Both require a beta estimate (and betas from different sources can differ a lot).

12 13- 12 Sharpe-Optimal Portfolios Allocating funds to achieve the highest possible Sharpe ratio is said to be Sharpe-optimal. To find the Sharpe-optimal portfolio, first look at the plot of the possible risk-return possibilities, i.e., the investment opportunity set. Expected Return Standard deviation × × × × × × × × × × × × × × × ×

13 13- 13 Expected Return Standard deviation × A RfRf Sharpe-Optimal Portfolios The slope of a straight line drawn from the risk-free rate to where the portfolio plots gives the Sharpe ratio for that portfolio. The slope of a straight line drawn from the risk-free rate to where the portfolio plots gives the Sharpe ratio for that portfolio. The portfolio with the steepest slope is the Sharpe-optimal portfolio. The portfolio with the steepest slope is the Sharpe-optimal portfolio.

14 13- 14 Sharpe-Optimal Portfolios

15 13- 15 Solving for a Sharpe-Optimal Portfolio Two asset portfolio return is given by: So, now our job is to choose the weight in asset A that maximizes the Sharpe Ratio. We could use calculus to do this, or we could use Excel. weight in asset B

16 13- 16 Using Excel to Solve the Sharpe-Optimal Portfolio Suppose we enter the following into a spreadsheet, guessing that W_A = 0.25 is a “good” portfolio. Using formulas for portfolio return and standard deviation, we can compute a Sharpe Ratio:

17 13- 17 Using Excel to Solve the Sharpe-Optimal Portfolio Now, we let Excel solve for the weight in portfolio A that maximizes the Sharpe Ratio. Now, we let Excel solve for the weight in portfolio A that maximizes the Sharpe Ratio. We use the Solver, found under Tools. We use the Solver, found under Tools. Well, the guess of 0.25 was a tad low….

18 © 2009 McGraw-Hill Ryerson Limited 13- 18 Investment Risk Management Investment risk management concerns a money manager’s control over investment risks, usually with respect to potential short-run losses. We will focus on what is known as the Value-at-Risk (VaR) approach. Value-at-Risk (VaR) is a technique of assessing risk by stating the probability of a loss that a portfolio may experience within a fixed time horizon. If the returns on an investment follow a normal distribution, we can state the probability that a portfolio’s return will be within a certain range, if we have the mean and standard deviation of the portfolio’s return.

19 © 2009 McGraw-Hill Ryerson Limited 13- 19 Example: VaR Calculation Suppose you own an S&P 500 index fund. Suppose you own an S&P 500 index fund. What is the probability of a return of -7% or worse in a particular year? What is the probability of a return of -7% or worse in a particular year? That is, one year from now, what is the probability that your portfolio value is down by 7 percent (or more)? That is, one year from now, what is the probability that your portfolio value is down by 7 percent (or more)? First, the historic average return on the S&P index is about 13%, with a standard deviation of about 20%. First, the historic average return on the S&P index is about 13%, with a standard deviation of about 20%. A return of -7 percent is exactly one standard deviations below the average, or mean (i.e., 13 – 20 = -7). A return of -7 percent is exactly one standard deviations below the average, or mean (i.e., 13 – 20 = -7). We know the odds of being within one standard deviation of the mean are about 2/3, or 0.67. We know the odds of being within one standard deviation of the mean are about 2/3, or 0.67.

20 13- 20 Example:VaR Calculation In this example, being within one standard deviation of the mean is another way of saying that: Prob(13 – 20  R S&P500  13 + 20)  0.67 or Prob (–7  R S&P500  33)  0.67 That is, the probability of having an S&P 500 return between -7% and 33% is 0.67. So, the return will be outside this range one-third of the time. When the return is outside this range, half the time it will be above the range, and half the time below the range. Therefore, we can say: Prob (R S&P500  –7)  1/6 or 0.17

21 13- 21 Example: A Multiple Year VaR Once again, you own an S&P 500 index fund. Once again, you own an S&P 500 index fund. Now, you want to know the probability of a loss of 30% or more over the next two years. Now, you want to know the probability of a loss of 30% or more over the next two years. As you know, when calculating VaR, you use the mean and the standard deviation. As you know, when calculating VaR, you use the mean and the standard deviation. To make life easy on ourselves, let’s use the one year mean (13%) and standard deviation (20%) from the previous example. To make life easy on ourselves, let’s use the one year mean (13%) and standard deviation (20%) from the previous example.

22 13- 22 Example: A Multiple Year VaR Calculating the two-year average return is easy, because means are additive. That is, the two-year average return is: 13 + 13 = 26% Standard deviations, however, are not additive. Fortunately, variances are additive, and we know that the variance is the squared standard deviation. The one-year variance is 20 x 20 = 400. The two-year variance is: 400 + 400 = 800. Therefore, the 2-year standard deviation is the square root of 800, or about 28.28%.

23 13- 23 Example: A Multiple Year VaR The probability of being within two standard deviations is about 0.95. The probability of being within two standard deviations is about 0.95. Armed with our two-year mean and two-year standard deviation, we can make the probability statement: Prob(26 – 2  28  R S&P500  26 + 2  28) .95 Armed with our two-year mean and two-year standard deviation, we can make the probability statement: Prob(26 – 2  28  R S&P500  26 + 2  28) .95 Prob (–30  R S&P500  82) .95 The return will be outside this range 5 percent of the time. When the return is outside this range, half the time it will be above the range, and half the time below the range. The return will be outside this range 5 percent of the time. When the return is outside this range, half the time it will be above the range, and half the time below the range. So, Prob (R S&P500  –30)  2.5%. So, Prob (R S&P500  –30)  2.5%.

24 13- 24 Computing Other VaRs. In general, for a portfolio, if T is the number of years, In general, for a portfolio, if T is the number of years, Using the procedure from before, we make make probability statements. Three very useful one are:

25 © 2009 McGraw-Hill Ryerson Limited 13- 25 Useful Websites www.stanford.edu/~wfsharpe (visit Professor Sharpe’s homepage) www.stanford.edu/~wfsharpe (visit Professor Sharpe’s homepage) www.stanford.edu/~wfsharpe www.morningstar.com (Comprehensive source of investment information) www.morningstar.com (Comprehensive source of investment information) www.morningstar.com www.gloriamundi.org (learn all about Value-at-Risk) www.gloriamundi.org (learn all about Value-at-Risk) www.gloriamundi.org www.garp.org (The Global Association of Risk Professionals) www.garp.org (The Global Association of Risk Professionals) www.garp.org www.riskmetrics.com (Check out risk grades) www.riskmetrics.com (Check out risk grades) www.riskmetrics.com

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