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Hedging Risk with Forwards and Futures

Hedging Risk with Forwards and Futures. Derivatives contracts, including forwards and futures have become a huge market with over $100 trillion in value. Futures (forward) contracts are agreements between two agents where one agrees to purchase and the

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Hedging Risk with Forwards and Futures

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  1. Hedging Risk with Forwards and Futures Derivatives contracts, including forwards and futures have become a huge market with over $100 trillion in value. Futures (forward) contractsare agreements between two agents where one agrees to purchase and the other to sell (deliver) a given amount of a specific commodity at a specific price at a future date. Like an order for a house, car, etc. at a fixed price. Futures- standardized, traded on exchanges and settled daily. Forwards - non-standard, traded over the counter and settled on the maturity date.

  2. Micro-Hedging - Hedging One Asset or Liability Situation 1: A futures or forward contract is available for the asset or liability you wish to hedge. Example: Suppose you own some 30-year U.S. Treasury Bonds with a 7% yield and a market value of $1,000,000. There are one-year futures contracts on 30-year U.S. Treasuries priced at 93-08 (93 8/32) which is $93.25 per $100 face value of bonds. Each contract represents $100,000 face value. You believe interest rates will rise, how do you hedge your bonds? Answer: Sell $1,000,000 of futures. How many contracts? Each contract’s market value = $93.25(1000) = $93,250 # of contracts = $1,000,000/$93,250 = 10.72 or 10 contracts. (Round down because convexity offsets the remainder.)

  3. Cross-hedging Interest Rate Risk with Futures Situation 2: A futures or forward contract is not available for the asset or liability you wish to hedge. In this situation, we need to cross-hedge. This mean to hedge with a futures contract on a similar asset. In general, for an effective hedge, we want the change in the value of the spot commodity (our asset) to be equal to minus the change in the value of the futures. The amount of futures needed per unit of spot is; h = hedge ratio = -DSpot price / DFutures price - this means if the spot and futures price move together (opposite), sell (buy) futures to hedge.

  4. Hedging Your Corporate Bond with Treasury Futures You can estimate your bond’s price change as (1) and the price change of the Treasury futures bond as (2) Pc, (PT)= Price of Corporate (Treasury) bond Durc, (DurT) = Duration of Corporate (Treasury) bond Yoc, (YoT) = old yield of Corporate (Treasury) bond Ync , (YoT) = new yield of Corporate (Treasury) bond Note: We ignore convexity here but it could be added.

  5. Hedge Ratio To get the hedge ratio, divide equation (1) by (2) to get where and h = the units (dollars) of futures to be sold per unit (dollar) of spot. It assumes a parallel shift in yield curve. NOTE: This hedges only interest rate risk - default risk is ignored. If default risk and interest rate risk are negatively correlated (because GNP increase -> r increase but default decreases), then less hedging may be required.

  6. Basis Risk • Whenever we cross-hedge, we are subject to basis risk. The basis is the difference between the futures price and the spot price. Basis risk arises when the futures price does not change one-for-one with the hedged-asset’s spot price. • Basis risk for hedging corporate bonds using Treasury futures comes from the middle term in the previous equation. • YC / YT • We know the durations and the yields of the corporate bond and the Treasury bond. But when Treasury yields change by 1%, corporate yields often change by more than 1%. If we run a regression of past corporate yield changes on Treasury yield changes we can estimate the relationship between them.

  7. Example Suppose you own $1,000,000 of a 30-year B-rated corporate bond with a duration of 14 and a yield of 12%. You plan to hedge its interest rate risk with the one-year futures contracts on 30-year U.S. Treasuries priced at 93-08. The bond deliverable on the Treasury futures has a duration of 16 and a 6% yield. Assume that we run the following regression: (B-Rated Corporate Yield) = 6.5 + 1.45(Treasury Yield) This result means that for every 1% change in Treasury yields, B-rated corporate yields change by 1.45%. We use this result to get our hedge ratio: h = (14/16) (1.45) (1.06/1.12) = 1.2

  8. To get the number of futures contracts to sell, first get the value of Treasury futures required for the hedge: Value of futures = $1,000,000 (1.20) = $1,200,000. Value of each futures contract = 93.25 ($100,000) = $93,250 # of contracts to sell = $1,200,000/$93,250 =12.86 or 12. This same approach can be used to “macro-hedge” a portfolio of bonds once we know the market-value weighted average duration of the portfolio. If we are short some bonds, their weight is a negative and the net value of the portfolio is reduced by the market value of the shorted bonds.

  9. Macro-Hedging - Hedging a Duration Gap Macro-hedging involves hedging the net risk of a portfolio or balance sheet. Recall that the change in a firm’s equity is: DEquity = -[DA - kDL]A(Yn - Yo)/(1 + Yo) A typical function financial firms, especially banks, is to provide liquidity by taking short-term deposits and investing in long-term assets such as loans. The firm’s equity serves as a cushion to absorb interest rate risk. For example, a small business deposits money in a bank and requires a long-term fixed-rate loan for new plant. The bank is exposed if interest rates rise after the loan is made. The bank could require its customers to make deposits in long-term fixed rate CDs or it can lay off is duration gap risk in the futures market.

  10. Hedging a Duration Gap To find the number of contracts (NF) required to hedge the duration gap, define the change in the value of the futures as DF = (-DF) (NF) (PF) (Yn - Yo)/(1 + Yo) where PFis the price of on futures contract. DEquity = -[DA - kDL]A(Yn - Yo)/(1 + Yo) Set these two equal so: DEquity = DF Assuming that (Yn - Yo)/(1 + Yo) is the same for both gives: -[DA - kDL]A = (-DF) (NF) (PF) And solving for NF gives NF = [DA - kDL]A / (DF)(PF)

  11. Example - Ch. 24 - Prob. 17. Tree Bank has assets of $150 million with duration 6, liabilities of $135 million with duration 4 and equity of $15 million. Market interest rates are 10%. How do you hedge the balance sheet with Tbond futures priced are $95 per $100 face value (each contract $100,000 face value) for the underlying 20 year, 8% coupon bond? A. Because DA > kDL we need to sell futures to hedge. B. To get the number of contracts needed for the hedge, we need DF . The underlying bond has a yield of 95 = 8[PVA20,?] + 100[PV20,?] Solving for the yield (?) gives Y = 8.525% Assuming semi-annual coupons, the semi-annual DF is

  12. NF = [6 - (.9)4]150 / (20.10/2)(.095) = 377.06 C. Show you are hedged for rate changes of 1% and -.5%. For a 1% increase. DEquity = -[6 - (.9)4]150(.01)/(1.01) = -3,272,272 DFutures Value = -10.05(0.01/1.08525)(95,000)(377) = -3,316,662 Since you sold futures your net position is Net = -3,272,272 - (-3,316,662) = 43,935

  13. For a .5% decrease. DEquity = -[6 - (.9)4]150(-.005)/(1.01) = 1,636,363 DFutures Value = -10.05(-0.005/1.08525)(95,000)(377) = 1,658,331 Since you sold futures your net position is Net = 1,636,363 - (-1,658,331) = -21,967 D. If we use $1,000,000 face value Tbills with a price of 98 per 100 face value and .25 duration. How many contracts? NF = [6 - (.9)4]150 / (.25)(.98) = 1469 E. We may use Tbill futures because they are more liquid. Problems - more basis risk and transactions costs.

  14. Hedging Credit Risk with Credit Futures or Forwards Financial firms that make loans can explicitly or implicitly suffer losses because a borrower’s credit quality declines after the loan is made - this is credit risk. Systematic credit risk (an economy-wide decline in credit quality) can be hedge with credit spread futures. Firm-specific credit risk (a decline in credit quality for a single borrower) requires a specialized forward contract. Below we consider how to hedge with specialized forwards, however, the process is the same using futures for systematic credit risk.

  15. Systematic Changes in Yield Spread Over Time

  16. Typical Situation of a Credit Spread Forward in Steps 1. As an example, consider a borrower with a $100 million loan outstanding who also has a benchmark A-rated bond outstanding. 2. Suppose the lender wishes to avoid a fall in loan value from an increase in required yield due to a drop in credit rating. 3. The lender approaches, for example, an insurance company willing to buy a credit spread forward covering the $100 million loan. 4. Assume when the forward is constructed, the yield spread between the borrower’s bond and the comparable duration Tbond is 2%. If the spread widens (narrows), the insurance company (lender) pays the lender (insurance company) to offset its loss (gain).

  17. Calculating Gains and Losses on Credit Spread Forwards The credit spread forward’s value is set equal to the estimated change in the value of the loan, which is: (SF - ST)(MD)(A) where SF is the borrower’s bond yield spread observed when the forward is constructed, STis the spread at the maturity date of the forward, MD is the loan’s modified duration and A is the value of the loan. Example: Suppose that the yield spread for the $100 million loan borrower’s bonds fall to 1% from 2 %. If the loan’s modified duration is 10, and the lender has sold credit futures to an insurance company, who pays who and how much? Credit Futures Value = (.02 - .01)(10)(100) = 10 The lender pays the insurance company $10 million.

  18. Using Catastrophe Futures to Hedge Casualty Risk 1. Suppose you are an insurance company insuring $10 million in home value. 2. There are catastrophe futures contracts for home insurance that sell at a price of 0.90 and each contract has a face value of $25,000. The 0.90 price represents the average loss ratio expected for all insurance firms over the life of the contract. The loss ratio is the ratio of country-wide insurance premiums to payments to homeowners for home damage. 3. You are worried that this year will bring many hurricanes and the loss ratio will be 1.20. 4. How do you hedge with futures? Note: Futures may not be available on CBOT but options are. Forwards may be available from private sources.

  19. 5. You need to buy catastrophe futures. 6. How many? # contracts = 10,000,000/25,000 = 400 7. What happens if the loss ratio ends up at 1.20 at the maturity date? Your gain = (1.20 - .90)(25,000)(400) = 3,000,000 8. What happens if the loss ratio ends up at 0.80 at the maturity date? Your lose = (.80 - .90)(25,000)(400) = 1,000,000 Question: The CBOT is considering offering medical claims futures similar to catastrophe futures. What problem may occur with them that can’t occur with catastrophe futures?

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