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“The Empirical Relationship Between Average Asset Correlation, Firm Probability of Default, and Asset Size” by Jose A. Lopez Discussion by George Pennacchi.

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Presentation on theme: "“The Empirical Relationship Between Average Asset Correlation, Firm Probability of Default, and Asset Size” by Jose A. Lopez Discussion by George Pennacchi."— Presentation transcript:

1 “The Empirical Relationship Between Average Asset Correlation, Firm Probability of Default, and Asset Size” by Jose A. Lopez Discussion by George Pennacchi Department of Finance University of Illinois

2 I. Contribution of the Paper The BCBS’s Foundation approach to Internal Ratings Based capital requirements assumes that portfolio credits of a particular type have identical correlations with a single, common risk factor. The paper’s procedure for estimating a credit’s factor correlation is 1) Compute an appropriate capital charge for a portfolio based on each credit’s correlation derived from KMV’s multi-factor model. 2) For the same portfolio, constrain the KMV model to a single factor and find the common correlation for all credits that gives the same capital charge as in 1). This procedure is repeated for portfolios of World, U.S., Japanese, and European credits, with the credits varying by firm size and EDF.

3 II. Discussion of Main Results Cross-country differences in average firm factor correlations Country Portfolio Average Correlation U.S.0.16 Europe0.13 Japan0.26 Morck, Yeung, and Yu (2000) JFE confirm these results computing average stock correlations using domestic and U.S. market indices. Country PortfolioAverage Correlation * U.S. 0.14 U.K.0.25 France0.27 Europe Netherlands0.32 Germany0.34 Italy0.43 Japan0.48

4 Firm asset size differences in average firm factor correlations Firm Asset Size World Portfolio Correlation ($0, $100m]0.1000 [$100m, $300m]0.1125 [$300m, $1,000m]0.1375  $1,000m0.2000 Paper explains “Larger firms can generally be viewed as a portfolio of smaller firms.” But Roll (1988) JF finds that large firms are not just portfolios of randomly selected smaller firms. Large firms tend to specialize in an industry, reducing the potential for cross-industry diversification. Moreover, Roll (1992) JF finds that some countries specialize in particular industries, partially explaining cross-country differences.

5 Average firm correlations increase with credit quality (lower EDF) though the effect holds primarily for larger firms. (A) A time series interpretation: When a given firm gets riskier, say during an industry downturn, its assets’ correlation with the common factor declines. Why should this be so? Do distressed firms switch to activities (assets) having less correlation with the common factor? (B) A cross section interpretation: Firms whose assets have greater factor correlation tend to choose safer capital structures (lower EDFs). Whether (A) or (B) is true has implications for implementing capital standards. If (B), but not (A), is correct, then a credit’s correlation should depend on its EDF at the time the credit is issued, not its current EDF.

6 These interpretations are subject to empirical tests. (A) As a given credit’s EDF increases (decreases) over time, does the firm assets’ estimated factor correlation tend to fall (rise)? (B) When credits are originated, do borrowers with high (low) EDFs tend to have assets with low (high) estimated factor correlations?

7 Property rights as an explanation for assets’ factor correlations Morck, Yeung, and Yu (2000) JFE find stocks have higher factor correlations in developing economies with poor private property rights. Factor correlations are also greater in developed economies lacking corporate governance that protects public investors. Poor property rights leads to inter-corporate income shifting and inhibits risk- arbitrage: firm values are less affected by firm-specific news. Time series variation in assets’ correlations Campbell, Lettau, Malkiel, and Xu (2001) JF document that average U.S. stock correlations have decline dramatically, from 0.28 in 1962 to 0.08 in 1997. * Possible reasons: younger, smaller firms are now able to issue publicly-traded securities; trend toward breaking up conglomerates. III. Other Issues

8 Empirical specifications 1) What is the correct underlying sample of credits? The paper’s equally weighted sample of publicly-traded firms or a value weighted sample of rated credits typically held by banks? 2) What is the correct composition of the “common factor”? The paper’s U.S. and unassigned industry factors or a global value weighted average of all country and industry factors? If choice does not matter, this may indicate the poor fit of any single factor.

9 EndNote * Morck, Yeung, and Yu (2000) JFE and Campbell, Lettau, Malkiel, and Xu (2001) JF report R 2 s. I have converted them to correlations by taking the square root. These papers’ correlation estimates may not be directly comparable to those of the current paper because correlation calculations are done using returns over different holding periods. However, the relative differences across countries and time are noteworthy. Though these papers report firms’ equity (stock) correlations, if firms’ liabilities grow deterministically (as is assumed by the KMV model), they also equal the firms’ asset correlations.


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