1. 1 Quantitative Portfolio Management Dr. B. Swaminathan, PhD Partner & Director, Research LSV Asset Management Professor of Finance Cornell University

2. 2 LSV Asset Management LSV in business for 12 years More than $75 billion under management Academic foundation Deep value equity orientation; stock selection based on proprietary quantitative models Domestic / International Well diversified / risk controlled Active money manager, not a hedge fund! Objective: to beat the market!

3. 3 U.S. Markets: Value vs. Growth in the last 2 years

4. 4 LSV past performance MSCI: Morgan Stanley Capital International EAFE: Europe, Australia, and Far East Index

5. 5 How does LSV construct its portfolios? Using mean-variance portfolio optimization theory:

6. 6 Inputs to the problem Start with a list of stocks (say the most “attractive” 100 stocks in the U.S. stock market). Input the return each stock is expected to earn over the next year. You will have a column of 100 expected returns. Estimate each stock’s variance and covariances with every other stock. You will have a 100  100 variance-covariance matrix. Add additional constraints as necessary (industry constraints, short-selling constraints, socially responsible investing constraints). Construct a portfolio with the highest expected return for a given level of risk.

7. 7 Our expertise is estimating expected returns Stock prices can deviate from intrinsic/fundamental value because of the actions of naïve (unsophisticated) investors who trade based on emotion/psychology as opposed to fundamentals: Our investment philosophy is based on behavioral finance: Stock prices can deviate from intrinsic/fundamental value because of the actions of naïve (unsophisticated) investors who trade based on emotion/psychology as opposed to fundamentals: Extrapolation bias Overconfidence bias We believe such mispricing/inefficiencies can be identified through careful empirical research involving historical stock market data and exploited to earn above average returns. undervalued Our quantitative model is built to identify securities that are undervalued (price less than intrinsic value) and expected to earn above average returns over the next 2 to 3 years.

8. 8 Market efficiency and behavioral finance: A digression Market efficiency  Price = Intrinsic Value Questions: Are the markets efficient? (Are the prices right?) Can we beat the market? (Is there free lunch?) If the prices are right can we earn free lunch? Does “no free lunch” imply prices are right?

9. 9 Apparent violations of market efficiency Reversals at short horizons (day, week, month): buy loser, sell winner. Momentum at intermediate horizons ( 3 to 12 months): buy winner, sell loser. Reversals again (value/glamour) at long horizons (3 to 5 years): buy loser, sell winner.

10. 10 Rational paradigm Rational beliefs: Update beliefs using Bayes theorem. Rational preferences: Maximize expected utility where: people prefer more to less diminishing marginal utility of wealth (as you get wealthier an extra $1 of wealth brings a smaller increase in utility).

11. 11 What is behavioral finance? Behavioral finance attempts to understand the evolution of security prices and explain the observed stock return predictability using models in which agents are not fully rational. According to Barberis and Thaler (2003), behavioral finance contends “that some financial phenomena can be better understood using models in which some agents are not fully rational.” Thus, behavioral finance considers models in which (a) investors’ beliefs are not updated in a rational manner and (b) investors’ utility functions are different from those suggested by the expected utility theory.

12. 12 Value and Momentum: Two major ingredients of the LSV model Value Value stocks (price below intrinsic value) outperform Glamour stocks (price above intrinsic value) over the next five years. Strategies based on fundamentals-to-price ratios. Strategies based on long-term (3 to 5 year) returns. Momentum Past winners outperform Past losers over the next year. Price momentum. Earnings momentum. LSV model combines value and momentum.

13. 13 Evidence on Value and Momentum Lakonishok, Shleifer, and Vishny (1994) (LSV) tested Value/glamour strategies using 30 years of data.

14. 14 Value strategies based on price ratios

15. 15 Contrarian strategies based on past returns Originally studied by De Bondt and Thaler (1985). The results above from Fama and French (1996). “1” is the portfolio of longer-term losers and “10” is the portfolio of longer-term winners. The idea is that longer-term losers recover while longer-term winners experience a price decline.

16. 16 Price momentum strategies Jegadeesh and Titman (1993) showed that winners outperform losers. Lee and Swaminathan (2000) confirm these findings and show that trading volume can be used to enhance momentum.

17. 17 Earnings Momentum Strategies Quarterly earnings surprises are defined as the scaled difference between this quarter’s earnings and earnings the same quarter last year (3 rd quarter 2007 vs. 3 rd quarter 2006). Low represents portfolios with negative earnings surprises and High represents portfolios with positive earnings surprises. Chan, Jegadeesh, and Lakonishok (1996).

18. 18 Behavioral finance explanations of momentum and value

19. 19 Combining value and momentum Momentum Life Cycle Hypothesis (MLC) From: Lee and Swaminathan (2000) Buy value stocks with positive momentum. Short sell glamour stocks with negative momentum LSV model combines value and momentum by putting weights on both

20. 20 Major Components of the LSV Model VALUE Value Multiples Factors (Cheapness) Long Term Performance Yr -1 to -5 (Contrarian) Momentum Factors Yr -1 to 0 Expected Return + + = Cash flow Earnings Book Sales Poor long-run stock returns Slow long-run earnings growth Slow long-run sales growth Share price momentum Earnings Momentum Analysts Revisions Earnings Changes Earnings Surprises

21. 21 Variance-Covariance Matrix We estimate variance-covariance matrix based on historical data over the last five years. Most value added in long-term portfolio management comes from having better estimates of expected returns or alphas. Different approaches to estimating variance- covariance matrix do about the same in forecasting risk in the long-run.

22. Large Cap Portfolio Investment Process ~ 10,000 STOCK UNIVERSE COMPANIES LISTED ON NYSE, AMEX & OTC, EXCLUDING ADR’S, REIT’S, FOREIGN COMPANIES & CLOSED-END FUNDS ~ 1,400 STOCKS ~ 200 STOCK BUY LIST STOCKS WITH TOP 15% HIGHEST RANKINGS INVESTMENT GUIDELINES INDUSTRY LIMITATION COMPANY LIMITATION DIVERSIFICATION OBJECTIVE LIQUIDITY OBJECTIVE 90 - 100 STOCK PORTFOLIO PORTFOLIO CHARACTERISTICS: - LOW M/B, P/E; HIGH DIVIDEND YIELD; BROADLY DIVERSIFIED Model-based ranking of stocks Screen for Capitalization, Liquidity FUNDAMENTAL VALUE MEASURES AND INDICATORS OF NEAR-TERM APPRECIATION POTENTIAL Risk Control (Optimizer)

23. 23 A STOCK IS SOLD WHEN:  MODEL RANKING FALLS BELOW THE TOP 40%.  PORTFOLIO WEIGHT EXCEEDS 2.5% RELATIVE TO THE BENCHMARK. TURNOVER  APPROXIMATELY 30% PER YEAR. Sell Discipline

24. Portfolio Characteristics

25. 25 Alpha and tracking error Since our portfolios are compared to benchmarks such as Russell 1000, S&P 500 etc., what is relevant to us is not the total return, but the level of outperformance, abnormal return, or alpha: Case 1 Case 2Case 3 Portfolio20%-3%20% Benchmark25%-8%15% Alpha-5%5%5% We are evaluated on alpha not on raw return!

26. 26 Alpha and tracking error Abnormal return = r p – r BM where r p is the portfolio return and r BM is the benchmark return. Alpha = E(r p – r BM) ) (average abnormal return). Tracking error = StdDev(r p – r BM ); It is a measure of additional (idiosyncratic) risk a portfolio manager takes by deviating from the benchmark. The objective is to earn high alpha at a low tracking error or achieve a high information ratio. Information Ratio = Alpha/Tracking Error. In the mean-variance problem, we use abnormal return instead of raw return and the variance-covariance matrix is also based on abnormal returns. Construct a portfolio that maximizes alpha given a target tracking error.

27. 27 Various risk controls Low to moderate target tracking error (around 4% to 5% for our US large cap strategy). Industry and sector constraints (not deviating too much from the benchmark weights). Beta is a measure of comovement of a portfolio with the market index (we do not have explicit targets). 80 to 120 stocks in a portfolio to achieve broad diversification.

28. Risk of the LSV Large Cap Portfolio 1 and 2: 5 years as of 8/31/07 3 and 4: from inception (12/1/93) to 8/31/07

29. 29 Final thoughts.. Keys to successful quantitative portfolio management: Cutting edge research into new strategies Careful risk controls Controlling transaction costs Trusting your model