1. 11-Interest Rate Risk

2. Review  Interest Rates are determined by supply and demand, are moving all the time, and can be difficult to forecast.  The yield curve is generally upward sloping  Interest Rate Risk: The uncertainty surrounding future interest rates. Unforeseen parallel shifts in the yield curve Unforeseen changes in the slope of the yield curve Our Focus

3. Where We are Going  Dollar Gap Method to understand the impact of interest rate risk on bank profits Simple, and requires some ad-hoc assumptions Not discussed in Bodie-Kane-Marcus  Duration Method to understand the impact of interest rate risk on the value of bank shareholder equity More elegant and mathematically intense The focus of the reading in Bodie-Kane-Marcus Used extensively as well by bond traders

5. Interest Rate Risk  Banks assets Generally long-term, fixed rate  Bank liabilities Generally short term, variable rate  Impact on profits: Rates increase  Interest received stays fixed  Interest paid increases  Profits decrease

6. Interest-Rate Sensitive  An asset or liability whose rate is reset within some “short period of time” e.g. 0-30 days, 1-year, etc.  Interest rate sensitive assets:  Short-term bond rolled over into other short-term bonds  Variable rate loans  Interest rate sensitive liabilities:  Short-term deposits

7. Interest-Rate Risk Example  Assets: 50 billion 5B IRS; rate = 8% per year  Liabilities: 40 billion 24B IRS; rate = 5% per year  Profits ($billion) 50(.08)-40*(.05) = 2

8. Parallel Shift in Yield Curve  Suppose all rates increase by 1%  Assets IRS (5B): rate = 9% Not IRS (45B): rate = 8%  Liabilities IRS (24B): rate = 6% Not IRS (16B): rate = 5%

9. Profits After Rate Increase  Interest Expenses ($billion) 16(.05)+24(.06)=2.24  Interest revenues ($billion) 5*(.09)+45*(.08)=4.05  Profits Before: 2 billion After:4.05-2.24=1.81 billion Decrease: 0.19 billion or 9.5% drop in profits (1.81/2)-1=.095

10. Gap Analysis  Gap = IRSA – IRSL  IRSA = dollar value of interest rate sensitive assets  IRSL = dollar value of interest rate sensitive liabilities

11. Gap  From Previous Example IRSA (millions) = 5 IRSL (millions) = 24  Dollar Gap (millions): 5 – 24 = -19  Change in profits= Dollar Gap i  From previous example: Change in profits (millions) -19 .01 = -0.19

12. Gap Analysis  If the horizon is long enough, virtually all assets are IRS  If the horizon is short enough, virtually all assets become non-IRS  No standard horizon

13. Dollar Gap Summary Dollar GAPiProfits NegativeIncreaseDecrease NegativeDecreaseIncrease PositiveIncreaseIncrease PositveDecreaseDecrease Zero EitherZero

14. What is the right GAP?  One of the most difficult questions bank managers face  Defensive Management Reduce volatility of net interest income Make Gap as close to zero as possible  Aggressive Management Forecast future interest rate movements If forecast is positive, make Gap positive If forecast is negative, make Gap negative

15. Problems with Gap  Time horizon to determine IRS is ambiguous  Ignores differences in rate sensitivity due to time horizon  Focus on profits rather than shareholder wealth

16. Building a Bank Suppose you are in the process of creating a bank portfolio. Shareholder equity: $25 million You’ve raised $75M in deposits (liabilities) You’ve purchased $100M in 30-yr annual coupon bonds (assets)

17. Bank Equity and Interest Rates Assets 30-yr bonds – FV: $100M – Coupon rate: 1.8% – YTM=1.8% Liabilities Deposits – $75M – Paying 1% per year Annual profits: $1.8M - $0.75M = $1.05M Rate on bonds is fixed – no matter how rates change. Rate on deposits resets every year.

18. Gap Analysis IRSA – IRSL = 0 – 75M = -75M Assume rates increase by 10 basis points We must now pay 1.1% on deposits Change in profits: -75M(.001) = -75,000 – Profits down 7% = 75K/1.05M

19. Gap Analysis One Solution: To protect profits from interest rate increases, sell your holdings in the long term bonds and buy shorter term bonds But since yield curve is usually upward sloping (liquidity risk-premiums), shorter term bonds will usually earn lower yields. Result: Lower profits

20. Manager’s Objective Managers should probably not be concerned about protecting profits. Instead, should be concerned about protecting value of shareholder equity: the value shareholders would get if they sold their shares.

21. Market Value of Bank Assets Before Rates Increase: Assets =$100M After rate increase? – Bank is earning 1.8% on 30-yr bonds – Other similar 30-year bonds are paying a YTM of 1.9% - Market value of bank assets: - N=30, YTM=1.9%, PMT=1.8M, FV=100M - Value = $97.73M

22. Market Value of Bank Liabilities Liability of $75.75M due in one year – Principal and interest – Depositors will “redeposit” principal with you at new rate in 1-year Market Value of liabilities = amount I would have to put away now at current rates to pay off liability in one year = present value Before rates increase: 75.75/1.01=$75M After rates increase: 75.75/1.011=$74.93M

23. Market Value of Equity PV(assets) – PV(liabilities) One way to think of it: – Assume 1 individual were to purchase the bank – After purchasing the bank she plans to liquidate – When she sells assets, she will get PV(assets) – But of these assets, she will have to set aside some cash to pay off liabilities due in 1 year, PV(liabilities)

24. Market Value of Equity One way to think of it (continued) – When considering a purchase price, she shouldn’t pay more than PV(assets)-PV(liabilities) – But current shareholders also have the option to liquidate rather than sell the bank – Current shareholders shouldn’t take anything less than PV(assets) - PV(liabilities)

25. Interest Rates and Bank Equity Before rates increase: equity=$25M After rates increase: 97.73-74.93=$22.8M Change in equity: 22.8M-25M = -2.2M A 10 basis point increase in rates leads to a drop in equity of 8.8% (22.8/25-1=-.088)

26. Solutions Sell long term bonds and buy short-term bonds – Problem: Many assets of banks are non-tradable loans (fixed term) – more on this later. – Some bank loans are tradeable: securitized mortgages – How much do we want to hold in long vs. short bonds? Refuse to grant long-term fixed rate loans – Problem: No clients – no “loan generation fees” – Bank wants to act as loan broker

27. Solutions What should be our position in long versus short-term bonds? How much interest rate risk do we want? Longer term bonds earn higher yields, but the PVs of such bonds are very sensitive to interest rate changes. We need a simple way to measure the sensitivity of PV to interest rate changes.

28. PV and Yields y PV

29. Modified Duration Duration: a measure of the sensitivity of PV to changes in interest rates: larger the duration, the more sensitive Bank managers choose bank portfolio to target the duration of bank equity.

30. Duration and Change in PV Let  PV = “change in present value” The change in PV for any asset or liability is approximately

31. Example From before: – Original PV of 30-year bonds: $100M – When YTM increased 10 bp, PV dropped to 97.73 –  PV=97.73M -100M = -2.27M Duration Approximation

32. Example From before: – Original PV of liabilities: $75M – When rate increased 10 bp, PV dropped to 74.93M –  PV=74.93M -75M = -0.074M Duration Approximation

33. Example Change in bank equity using duration approximation: Before, the change in equity was -2.20.

34. Modified Duration Modified Duration is defined as where “D” is called “Macaulay’s Duration”

35. Macaulay’s Duration Let t be the time each cash flow is received (paid) Then duration is simply a weighted sum of t The weights are defined as

36. Example Annual coupon paying bond – matures in 2 years, par=1000, – coupon rate =10%, YTM=10% Price=$1000 Time when cash is received: – t 1 =1 ($100 is received), t 2 =2 ($1100 is received) weights:

37. Example Macaulay’s Duration: Modified Duration: