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Futures & SWAPS Financial Derivatives. Shanghai Spring 2014 Week 3-4 FINC 5880. Futures Contract. A commitment today to transact in the future with the purpose to settle the price for future delivery of the underlying asset Highly standardized and exchange traded securities ( www.cme.com )
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Futures & SWAPSFinancial Derivatives Shanghai Spring 2014 Week 3-4 FINC 5880
Futures Contract • A commitment today to transact in the future with the purpose to settle the price for future delivery of the underlying asset • Highly standardized and exchange traded securities (www.cme.com) • Started in agriculture but developed towards all kinds of financial futures (stock indices, interest rates, currencies…) • Traded electronically (globex) • Traders in options post a good faith deposit at a Broker account (MARGIN) in order to guarantee contract performance
Future contracts contain • Delivery date of a commodity at maturity • The agreed price (to be paid at maturity) • The spec/grade of the commodity: • No 2 hard winter wheat or No 1 soft red wheat… • Means of delivery • The trader who takes the long position of the contract is said to buy a contract • The trader who takes the short position of the contract is said to sell the contract.
Futures (buy and sell) • Buying or selling a contract is only figurative no money changes hands at the start of the contract • The future price will only be paid at maturity of the contract • A price increase at maturity favors the buyer of the contract • A price decrease at maturity favors the seller of the contract • For every buyer there is a seller and the profit of the buyer is equal to the loss of the seller and vice versa (zero sum game)
Profit and Loss on contract • Profit to Long= Spot price at maturity-original future price • Profit to Short= Original future price-Spot price at maturity • Every long position is offset by a short one
Buy call option versus buying futures contract… • The buyer of the call can walk away (no obligation to exercise the option) • If the asset price drops the futures buyer is exposed to considerable losses! The call option buyer can loose no more than the premium of the option… • If Pt= price of future at maturity and Fo=Future price today • Long futures profit= Pt-Fo • Short futures profit= Fo-Pt
Clearing House (CH) • Trading done more and more over electronic platforms (EUREX) • The clearinghouse stands in between buyer and seller; the seller of the contract hold a short position with the CH the buyer a long position • The clearinghouse net position is always zero…since it takes a short and long position at the same time and for the same size and spec and maturity… • Almost all traders liquidate their positions before the end of maturity of the contract (just use the contract to hedge the price risk) • Before maturity open interest (contract outstanding) normally dries up quickly since all traders are reversing their positions…
Marking to Market…Margin • Futures contracts rarely result in actual delivery… • Margins required are normally 5-15% of the contract value so example: • If the current future price for wheat is $2.06/bushel (1 bushel= 35.24 Liters) then the value of the contract (5000 bushels standard) $ 10,300 if the margin required is 10% the Margin is $1,030 (per contract of 5000 bushels) • Futures on more volatile assets require a higher Margin %... • If the margin reaches a level below the Maintenance Margin a Margin call will follow (to protect the clearing house from any potential losses in the future)
Class assignment 1: Margins • Suppose the Maintenance Margin on a Wheat Futures contract is 5% (Initial Margin 10%) Current Future Price $2.06 • A standard wheat contract is 5000 bushels • How many $ cents does the wheat price need to fall to trigger a Margin call on the long position (buyer) ?
Convergence Property • A commodity available from two markets (spot or future) should have the same value (priced identically) • Thus the Future price at maturity=spot price at maturity • The future price and spot price converge at maturity…
Commodity versus financial • Delivery of Futures on commodities is in that commodity • Delivery of Futures on the Stock indices is in cash equal to the value of that index at maturity… • The S&P500 index calls for delivery of $250 times the index. So if S&P500=1200 that is a cash settlement of $300,000 in return for $250*futures price.
Regulating Body • CFTC=Commodities Futures Trading Commission maintains trading and authorizes trading in new contracts…
Example • You think crude oil prices will increase: • You buy oil futures • Each contract requires buying 1000 barrels (159 liters) • Current Future price (delivery Nov) $52.67 • For every $1 price increase of crude oil the long position (buyer) gains $1000 • For every $1 price drop the short position (seller) gains $1000 • If the spot price is $54.67 at maturity the long side of the contract will benefit $2000 • The short side will loose an identical amount…
Why buy futures? • You can make the same profit as on buying the underlying asset but your investment is only a fraction of the value of that asset (the margin 5-15%) • The lower the margin (investment) the higher the potential returns…
Class assignment 2: Calculate Return% • You buy oil at $52.67 and sell it in the spot market later for $54.67; your % return is? • You buy a future contract with initial margin 10% (1000 barrels) at $52.67 (spot today=future price today) at maturity the price has gone up $2 to $54.67;your % return is?
Class Assignment 3: Futures Oil Distributor • An oil distributor plans to sell 100,000 barrels of oil in Nov and hedges his price risk with selling 100 (1000 barrels each) futures contracts in November • The current price $52.67 • Assume the price of oil at maturity can only be $50.67, $52.67 or $54.67 per barrel ; • show that the futures contract offers a perfect hedge against the price risk!
Generalizing… • Total revenues from the sales of oil by the distributor (class assignment)= • Pt (per barrel) being the price at maturity • Plus the difference between the future price at moment of buying futures (Fo) and the price at maturity (Pt) • Thus Proceeds=Pt+(Fo-Pt)=Fo the position is perfectly hedged against any price movement in the future at the current future price….
Class Assignment 4: Futures Electricity Power Company • An Electricity Power Company plans to buy 100,000 barrels of oil in Nov; show that if the firm buys 100 futures contracts of oil Nov it can hedge its price risk totally… • The current price $52.67 • Assume the price of oil at maturity can only be $50.67, $52.67 or $54.67 per barrel
Cross Hedging • Hedging a position using futures contracts on another asset(s) • For instance: Hedging a position in an actively managed stock portfolio by using futures on the index (index futures)… • What are the sources of risk for an investor using such cross hedging? • (hint: what if the return on the market does not move perfectly with the return on the managed portfolio?)
Class Assignment 5:Future Pricing… • We follow the same reasoning of replication as what we did when we were looking at the valuation of options… • We create 2 strategies that have the same pay off…and thus their investments should be equal: • Strategy A: buy gold (price= -So) • sell gold at T (price ST) • Strategy B: enter long position (no investment today) • Sell at T: (ST-Fo) • At same time invest : -Fo/(1+Rf)^T • Growing in T to: Fo • Required: show that strategy A and B have the same pay off as a Futures contract and then derive from this Fo=Function(So)
Like with options… • Mispricing leads to arbitrage profits (risk-free) • You sell the side that is overpriced • You buy the side that is under priced • So you make risk free profit…
Class assignment 6: Futures Arbitrage (over pricing) • Assume that the Future contract 6 months (last slides) was mispriced at $413 instead of $412.15 • Recall that the spot of gold now is $400 • Recall that Rf=0.5% per month • Show that with a zero investment you can make a risk free profit of $0.85 (just the amount of the mispricing)
Class Assignment 8: Futures Arbitrage (under pricing) • If the 6 month future contract in last assignment were under priced at $411 instead $412.15 can you proof that you can make a risk free arbitrage profit of $1.15? • Spot gold $400 • Rf=0.5% per month…
Future value/Price • We have derived that the price of a future contract is: Fo=So(1+Rf)^T indicating the opportunity cost of investing in T Bills • If the underlying asset generates an income (dividend on stocks) then the future price changes in: Fo=So(1+Rf-d)^T in which d is the dividend yield on the stocks…
To see this consider: • Suppose the S&P500 index is at 1000 and an investor who holds $1000 in a mutual fund indexed to the S&P500 wishes to temporarily hedge her exposure to market risk. The indexed portfolio provides dividend of $20 over the year and all dividends are assumed to be paid end of year. Assume that the Futures price for year end delivery is $1010. The investor enters the short (selling) side of the contract. • Show the pay off if at maturity the stock in the mutual fund reaches $970,$990……$1050,$1070….
Swaps: Plain Interest Vanilla Swaps • You are manager of a large portfolio of $100 million par value of long term bonds with coupon rate 7%. However you believe looking forward that interest rates will rise and you want to benefit from this! You know it will be extremely expensive in terms of transaction costs to change the portfolio but you know you could SWAP your fixed interest income for a floating rate income if you can find a market party that have interest forecasts opposite to you. • A SWAP-dealer (bank) may advertise that it is willing to swap a cash flow based on the 6-month LIBOR rate for one based on a fixed rate of 7%. • The portfolio manager thus is expected to enter into a SWAP agreement with the dealer • The future will learn if the portfolio manager made the right decision • He has exchanged 7% interest on $100 Million for LIBOR*$100M • If LIBOR moves to 6.5% the decision to SWAP was wrong since the portfolio manager looses $0.5M interest income but if LIBOR moves up to 7.5% he will gain $0.5M
Swaps normally provide benefits for all…(win/win) • Assume companies A (triple A rated) and B (triple B rated) • Financing conditions: • Show that if companies A and B enter into a Swap that both can benefit • Company A currently is financed with fixed rate debt and company B with floating rate debt (LIBOR) • Note: the Swap dealer want a 0.05% fee… • Note: Company B is the weaker party and agreed to pay the fee of the dealer… • However assume that both companies will absorb 50% of the benefit from the Swap
Realize from this case…. • Company A and B have a very different rating and thus a different cost of debt • Company A and B MUST have opposite expectations of future interest rates otherwise they will not enter into the Swap • Company A want to Swap to floating rate and thus assumes interest rates will drop • Company B want to Swap to fixed rate debt and thus assumes interest rates to rise
SWAP DEAL… 7% 7%+0.05% LIBOR+0.25% 7% SWAP Dealer Company A Company B LIBOR-0.1% LIBOR-0.1%
Class Assignment: Plain Vanilla Interest Swap • Assume Companies A and B have the following financing conditions: • The dealer fee is 0.2% • A is initially fixed rate financed and want to SWAP to floating rate • B pays the SWAP dealer • A and B share the benefit of the SWAP 70:30 • Set up the SWAP and show this SWAP has a clear benefit for both A and B….
