Chapter 8: The Structure of Forwards

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Chapter 8: The Structure of Forwards

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Title: Chapter 8: The Structure of Forwards

1
Chapter 8 The Structure of Forwards Futures
Markets

KEY CONCEPTS
Explanations of the Basics of Forward and Futures
Contracts
More EVIL is More Beautiful
Terms and Conditions of Futures Contracts
Margins, Daily Settlements, Price Limits and
Delivery
Futures Traders and Trading Styles
Reading Price Quotes

2
Futures Contracts

Chicago Board of Trade (CBOT)
Grains, Treasury bond futures
Chicago Mercantile Exchange (CME)
Foreign currencies, Stock Index futures,
livestock futures, Eurodollar futures
New York Mercantile Exchange (NYMEX)
Crude oil, gasoline, heating oil futures
Development of new contracts
Futures exchanges look to develop new contracts
that will generate significant trading volume

3
Futures

f0 100, f1 105, f2 103, f4 110

In Margin Account
5
-2
7
f1 105
f4 110
f0 100
f2 103
Long Futures Paid -1107-25 -100 -f0 to
Get One Underlying Asset
4
Contract's Terms (see p. 276-277)

1. Size (see p. 276)
2. Grade, Quotation Unit
3. Delivery Months, 3,6,9,12
3rd Friday is the Last Trading day
4. Minimum Price Change (e.g., 1/32 of 1 , ex.
.0003125x 100,000 31.25 for T-Bond
Futures)
5. Delivery Terms Delivery date(s), Delivery
Procedure, Expiration Months, Final Trading Day,
First Delivery day (see p. 277 288)
6. Daily Price Limits Trading Halts
7. Margin

5
Futures TradersCommission Brokers Locals

Hedger, Speculator, Spreader (Long One Short
One), Arbitrageur. by Trading Strategy
Trading Styles (Techniques)
Scalper Holds a Few Minutes
Day Trader Hold No More Than The Trading Day
Position Trader
Cost of Seats Fig 1(p.283), Seat can be leased
monthly _at_1-1.5of Seat price. CBT has 1402 Full
members
Forward Market Traders Banks Firms (Co.,
Investment Bankers, etc.,)

6
Order (same as options)

Stop Loss Order
Limit Orders
Good-Till-Canceled
Day Orders.

7
Trading Procedure (see Fig. 2, p. 285)

Buyer

Buyers Broker
Buyers Brokers Commission Broker
Margin
Exchange (Trade)
Margin
Clearinghouse (Record)
8
Margin (p. 286-287)

AInitial Margin m 3d (m the average of the
daily absolute changes in the dollar value of a
futures contract, d the standard deviation,
measured over some time period in the recent
past).
Initial margin is used to cover all likely
changes in the value of a futures contract.
B Maintenance Margin
Equity position must be gt Maintenance margin or
get a margin call must deposit new (i.e.,
variation margin)before the market opens on the
next trading day.
Ex. p. 287

Open Interest
Delivery Cash Settlement(p. 288)
Futures Price Quotation (see p.292-293)
T-Bond 100,000 (face Value in CBT), 50,000
(Face Value in MCE), Future Price (1/32) xFace
Value, Ex. 102 3/32 is 102,093.75 in CBT
T-Bill f utures price per 100 100 - (100-IMM
Index)x (90/360), Face value 1 MM, Ex. Dec.
94.95 by IMM, the Actual futures price
100-(100-94.95)(90/360) x1MM/100 987,375
(will be used Chapter 11)
Note IMM quotes based on a 90-day T-bill
w/360-day year.
1 MM Face Value, Interest Rate Is Discount Rate

10
.

1. Last Trading DateThe Business Day Prior to
the Date of Issue of T-bills in the Third week of
the Month
2. Delivery Day a) Any Business Day After the
Last Trading Date (During the Expiration Month)
.b) First Business Day of Month, c) Cash
settlement
4. If Seller elects to Deliver a 91 or 92 days
T-Bill, then
Replace 90 by 91 or 92 in the Formula in p. 373,
f 100 - (100-IMM Index)(90/360)

11
T-Bond Futures Based on 8 Coupon 15 Yrs'
Maturity T-Bond (Face Value 100,000)

Quoted in Dollar 1/32 of par value of 100.
Ex. 111-17 is 111 17/32 111.53125, or
111,531.25
Expiration March, June, Sept, Dec.
Last trading Day the Business Day Prior to the
Last seven days of the expiration month.
The First Delivery Day The First Business Day
of the Month
T-Notes Futures Same As T-Bond Except the
maturity from 0-2 years, 4-6 and 6.5-10 years
T-Bond or Notes

12
Other Futures

Agricultural Commodity Futures
Stock Indices Futures
Natural Resources Futures
Miscellaneous Commodities Futures
Foreign Currency Futures
T-Bills Euros Futures
T-Notes T-Bonds Futures
Index Futures (i.e., Equities Futures)
Managed Futures Futures Funds (Commodity Funds),
Private Pools, Specialized Contract
Hedge Funds
Option on Futures
Transaction Cost Commission, Bid-Ask Spread,
Delivery Cost
Regulation of Futures Markets

13
Chapter 9 Pinciples of Forward Futures Pricing

KEY CONCEPTS
Difference Between Price and Value of Forward and
Futures Contracts
Rationale for a Difference Between Forward and
Futures Prices
Cost of Carry Futures Pricing Model
Convenience Yield, Backwardation and Contango
Risk Premium/Controversy
Role of Coupon Interest/Dividends in Futures
Pricing
Put-Call Forward/Futures Parity
Pricing Options on Futures

14
Comparison of Forward and Futures Contracts

Forward Futures
Private contract between Traded on an exchange
two parties
Not standardized Standardized contract
Usually one specified Range of delivery dates
delivery date
Settled at end of contract Settled daily
Delivery or final cash Contract usually closed
out
settlement usually takes prior to maturity
place

15
Forward Price Futures Price

Price vs. Value
Is Price Value True for Futures or Forwards?
Ans. No, why?
Price Value (from efficient market)
F forward price today
f futures price today
Ft forward price written at time t
ft futures price written at time t
Vt value at time t of a forward contract
written today
(Ft - F)(1r)-(T-t) PV(Ft-F) _at_ time t
Ex. p.360

ft
f
t
0
T
F
Ft
16

Note
Value of Futures _at_ T vT fT - ST ? 0
Value of Futures _at_ t vt ft - ft-1 (before
marked-to-mkt)
vt ? 0 once marked-to-mkt

17
Forward and Futures Prices (p. 308-309)

(The effect of daily settlement on forward and
futures prices)
Example (A Two-Period Model)
A. One day prior to expiration
Buy a forward _at_ Ft and sell a future _at_ ft
The profit ? (-Ft fT) (ft - fT) ft - Ft
0-investment 0 risk _at_ t gt ft Ft

B. Two days prior to expiration (interest rate r
is constant for two periods)
Buy a forward _at_ F and sell (1r)-(T-t) futures _at_
f
At time t, the profit ? (f-ft)(1r)-(T-t)
invest in risk-free bonds. This close the futures
position. Now, sell a new futures _at_ ft
_at_ T, ?T (ft -fT) (f-ft)(1r)-(T-t)(1r)(T-t)
(fT-F)
f - F 0 ( 0 investment risk-free)
f gt (lt) F if futures prices interest rates are
positively (negatively) correlated (p. 370)

19
(No Transcript)
20
A Forward and Futures Pricing Model

Spot Prices, Risk Premiums, Cost of Cary
1. Risk Neutral
A. Buy Now () (Paid)
(1) Spot Price, S0
(2) Storage Cost, s
(3) Interest Foregone, iS0
B. Buy Later(Paid)
(1) Expected Future Spot Price E(ST).
In Equilibrium, A B, or
S0 s iS0 E(ST), I.e.,
S0E(ST)-s-iS0
(see p.311)

2. Risk Aversion(in terms of )
Add Risk Premium E(?) to A.
S0 s iS0 E(?) E(ST)
S0E(ST) -s - iS0 - E(?)
Cost of Carry ??s iS0

Under no margin, mark-to-the-market etc.
In Spot Market S0 E(ST) - ? - E(?) ,
where, ? Cost of Carry s(Storage cost) iS0
(Opp. Cost of Money), E(?) Risk
Premium(Insurance)
The Cost of Carry Futures Pricing Model
(Theoretical Fair Price) (p.312)
Consider buy a spot commodity _at_ S and sell a
futures contract _at_ f. At time T, Closing both
position and the profit ? is
(ST-S0-s-iS0) (f - ST) ? f-S0-?
(risk-free) 0 ?
Futures Price Spot Price Cost of Carry
Quasi Arbitrage Asset owner sell his Asset and
Buy a Futures if f lt S? to take the Arbitrage
Opp.
Arbitrage Opp. Exists if f ??S?

23
Definition Basis ? Cash price S - Futures Price
f

1. If Futures Prices f lt Cash Spot Prices S gt
Backwardation (or Inverted) Market
2. If futures Prices f gt Cash Prices Sgt Contango
Market
3. Convenience Yield c f S ? - c
Risk Premium Controversy (mixed in empirical
studies)
1. f E(ST) No Risk Premium
2. f lt E(fT) E(ST) S ? E(?) f E(?)
Example. p. 387
Normal Contango E(ST) lt f
Normal Backwardation f lt E(ST)

24
The Effect of Intermediate Cash Flows on Futures
Price

Long a Stock S and Short a Futures at f
S ST DT
0 f-fT f - ST
S DTf
S (DT f)(1r)-T
Or f S(1r)T - DT
Ex. S 100, DT 2, r 6, T .25,
then f 100(1.06).25-2 99.47

25
In General

f S(1r)T - ?Dt(1r)(T-t) Future Spot Price
- FV(D)
S - PV(D)(1r)T S ?
For Continuous Dividends f Se(rc-?)T
S-PV(D)ercT
S ? (where ? is the dividend yield), rc
continuously compound risk-free rate.
Ex. S 85, ? 8, rc 10, T 90 day
0.246575yr, f 85e(0.1-.08)0.246575

26
Interest Rate Parity

FS(1r)T/(1?)T
SSpot Exchange Rate/
? Risk-Free Rate in US
rForeign Risk-Free Rate
FForward Exchange Rate/
(1 ?)FS(1r)
Deposit US in USs Bank ? Us Forward Rate to
Lock in and then Convert to Foreign Currency
Convert in to Foreign Currency and Deposit in
Foreign Bank.
EX. See P. 327
Arbitrage Opp. Exists If Parity is Violated
(P.328)

27
Pricing of Spreads (Different Expiration Dates)

f1 S ?1
f2 S ?2
f1 - f2 ?1 - ?2 Spread Basis (Ex. p.329

28
Put-Call Forward/Futures Parity

PC-SPV(E)
PCPV(E)-PV(f)
Or
P(S,E,T)C(S,E,T)PV(E-f)
Spot Price _at_ T vs. Exercise Price E for Options

29
Options On Futures Underlying Asset is Futures

Call Option On Futures
C(f,T,E)IVTV
IVCMax(0, f-E) for Call,
IVPMax(0, E-f) for Put
Lower Bound for American European Options (see
P. 331 332)
Ex . See p.333
Buy July call futures on Gold(100 ounces) w/E
300. Exercise Decision If July gold futures is
340 and the most recent price338. The Investor
receive a long Gold Futures Contract a Cash of
3,800 i.e., (338-300)x100. If Investor Decides
to close out the long futures for a gain of
(340-338)x100200. Total Payoff from the
Decision of Exercise is 4,000

30
Put-Call Parity of Options on Futures

P(f,T,E)C(f,T,E)PV(E-f)
Ex. See p. 335
Early Exercise of Call Put Options on Futures?
(Textbook Possible for Both Call Put)

31
B/S Option On Futures Pricing Model (p. 336)

C(f,T,E)PVfN(d1)-EN(d2)
Where
D1 ln(f/E)s2T/2
s vT
D2 D1- s vT

32
Chapter 10 Forward and Futures Hedging Strategies

KEY CONCEPTS
Why Hedge
Hedging concepts
Factors involved when constructing a hedge
Difference Between a Short Hedge and a Long
Hedge and When to Use Each Appropriate Hedging
Contract
to Use in a Given Situation
Optimal Hedge Ratios
Analysis of Specific Hedge

You will Get Rich Quick
33
Why Hedge?

The value of the firm may not be independent of
financial decisions because
Shareholders might be unaware of the firms
risks.
Shareholders might not be able to identify the
correct number of futures contracts necessary to
hedge.
Shareholders might have higher transaction costs
of hedging than the firm.
There may be tax advantages to a firm hedging.
Hedging reduces bankruptcy costs.
Managers may be reducing their own risk.
Hedging may send a positive signal to creditors.
Dealers hedge so as to make a market in
derivatives.

34
Why Hedge? (continued)

Reasons not to hedge
Hedging can give a misleading impression of the
amount of risk reduced
Hedging eliminates the opportunity to take
advantage of favorable market conditions
There is no such thing as a hedge. Any hedge is
an act of taking a position that an adverse
market movement will occur. This, itself, is a
form of speculation.

35
Hedging Concepts

Short Hedge and Long Hedge
Short (long) hedge implies a short (long)
position in futures
Short hedges can occur because
The hedger owns an asset and plans to sell it
later.
The hedger plans to issue a liability later
Long hedges can occur because
The hedger plans to purchase an asset later.
The hedger may be short an asset.
An anticipatory hedge is a hedge of a transaction
that is expected to occur in the future.
See Table 10.1, p. 348 for hedging situations.

36
Hedging Concepts (continued)

The Basis
Basis spot price - futures price.
Hedging and the Basis
P (short hedge) ST - S0 (from spot market) -
(fT - f0) (from futures market)
P (long hedge) -ST S0 (from spot market)
(fT - f0) (from futures market)
If hedge is closed prior to expiration,
P (short hedge) St - S0 - (ft - f0)
If hedge is held to expiration, St ST fT ft.

37
Basis
Spread
Spot

b0 ? S - f (initial basis)
bt ? St - ft (basis _at_ t)
bT? ST - fT (basis _at_ expiration)
Profit from Hedge Strategy ?
?T? Profit of long spot and short
future(i.e.,Short Hedge)
(ST - S) (f - fT) f - S - b0 (Buy _at_ S
and Sell _at_ f)
?T (Long Hedge) b0
Example Hedging and the Basis
Buy asset for 100, sell futures for 103. Hold
until expiration. Sell asset for 97, close
futures at 97. Or deliver asset and receive
103. Make 3 for sure.

futures
t
T
38
Example.

S 95, f 97, ST x, ?T (Short Hedge) 2
(why?)
?t (St - S) (f - ft) (St-ft) - (S-f)
?S-?f bt- b0.
bt - b Is Stochastic
?S gt ?f ??Strengthening Basis for Short Hedger
?S lt ?f ??Weakening basis for Short Hedger
Ex
_at_t, St 92, ft 90, Given S 95, f 97,
then ?t(Short Hedge) (92-90)-(95-97) 2-(-2)4

39
Hedging Concepts (continued)

The Basis (continued)
This is the change in the basis and illustrates
the principle of basis risk.
Hedging attempts to lock in the future price of
an asset today, which will be f0 (St - ft).
A perfect hedge is practically non-existent.
Short hedges benefit from a strengthening basis.
Everything we have said here reverses for a long
hedge.
See Table 10.2, p. 350 for hedging profitability
and the basis.

40
Hedging Concepts (continued p. 351)

The Basis (continued)
Example March 30. Spot gold 387.15. June
futures 388.60. Buy spot, sell futures. Note
b0 387.15 - 388.60 -1.45. If held to
expiration, profit should be change in basis or
1.45.
At expiration, let ST 408.50. Sell gold in
spot for 408.50, a profit of 21.35. Buy back
futures at 408.50, a profit of -19.90. Net gain
1.45 or 145 on 100 oz. of gold.

41
Hedging Concepts (continued)

The Basis (continued)
Example (continued)
Instead, close out prior to expiration when St
377.52 and ft 378.63. Profit on spot
-9.63. Profit on futures 9.97. Net gain .34
or 34 on 100 oz. Note that change in basis was
bt - b0 or -1.11 - (-1.45) .34.
Behavior of the Basis. See Figure 10.1, p. 352.

42
Two risks exist in Hedge

1. Cross Hedge (commodity is not the same as the
underlying commodity of futures)
2. Quantity Risk Size
Rules for Hedging Strategies
Rule 1. High Correlated
Rule 2. Expiration Date of Contract is Over and
Close to the Hedge Termination Date
Rule 3. If Positive Correlated gt One Long and
One Short , If Negative Correlated gt Both are
Long or Short, (Detail See 355, Table 4)
Rule 4. Hedge Ratio Nf such that some goal can
achieve
Portfolio consists of a long S and Nf of
Futures
? ?S Nf?f 0 gt Nf -?S/?f

43
Hedging Concepts (continued)

Contract Choice
Which futures commodity?
One that is most highly correlated with spot
A contract that is favorably priced
Which expiration?
The futures whose maturity is closest to but
after the hedge termination date subject to the
suggestion not to be in the contract in its
expiration month
See Table 10.3, p. 354 for example of recommended
contracts for T-bond hedge
Concept of rolling the hedge forward

44
Hedging Concepts (continued)

Contract Choice (continued)
Long or short?
A critical decision! No room for mistakes.
Three methods to answer the question. See Table
10.4, p. 355
worst case scenario method
current spot position method
anticipated future spot transaction method

45
Hedging Concepts (continued)

Margin Requirements and Marking to Market
low margin requirements on futures, but
cash will be required for margin calls

46
Hedging Concepts (continued)

Determination of the Hedge Ratio
Hedge ratio The number of futures contracts to
hedge a particular exposure
Naïve hedge ratio
Appropriate hedge ratio should be
Nf - DS/D f
Note that this ratio must be estimated.

47
Hedging Concepts (continued)

Minimum Variance Hedge Ratio
Profit from short hedge
P DS D fNf
Variance of profit from short hedge
sP2 sDS2 sDf2Nf2 2sDSDfNf
The optimal (variance minimizing) hedge ratio is
(see Appendix 10A)
Nf - sDSDf/sDf2
This is the beta from a regression of spot price
change on futures price change.

48
Hedging Concepts (continued)

Minimum Variance Hedge Ratio (continued)
Hedging effectiveness is
e (risk of unhedged position - risk of hedged
position)/risk of unhedged position
This is coefficient of determination from
regression.

49
Hedging Concepts (continued)

Price Sensitivity Hedge Ratio
This applies to hedges of interest sensitive
securities.
First we introduce the concept of duration. We
start with a bond priced at B
where CPt is the cash payment at time t and y is
the yield, or discount rate.

50
Hedging Concepts (continued)

Price Sensitivity Hedge Ratio
An approximation to the change in price for a
yield change is
with DURB being the bonds duration, which is a
weighted-average of the times to each cash
payment date on the bond, and ? represents the
change in the bond price or yield.
Duration has many weaknesses but is widely used
as a measure of the sensitivity of a bonds price
to its yield.

51
Hedging Concepts (continued)

Price Sensitivity Hedge Ratio
The hedge ratio is as follows (See Appendix 10A
for derivation.)
Note that DURS -(DS/S)(1 yS)/DyS and
DURf -(Df/f)(1 yf)/Dyf
Note the concepts of implied yield and implied
duration of a futures. Also, technically, the
hedge ratio will change continuously like an
options delta and, like delta, it will not
capture the risk of large moves.

52
Hedging Concepts (continued)

Price Sensitivity Hedge Ratio (continued)
Alternatively,
Nf -(Yield beta)PVBPS/PVBPf
where Yield beta is the beta from a regression of
spot yields on futures yields and
PVBPS, PVBPf is the present value of a basis
point change in the spot and futures prices.

53
Hedging Concepts (continued)

Stock Index Futures Hedging
Appropriate hedge ratio is
Nf -b(S/f)
This is the beta from the CAPM, provided the
futures contract is on the market index proxy.
Tailing the Hedge
With marking to market, the hedge is not precise
unless tailing is done. This shortens the hedge
ratio.

54
Hedge Ratio Determinations

A. Minimum Variance Hedge Ratio
B. Price Sensitivity Hedge Ratio
C. Stock Index Futures Hedge
D. Tailing a Hedge

55
A. Minimum Variance Hedge Ratio (p.357)

?2? ?2?S N2f ?2?f 2Nf??S?f Variance of
Profit ?
Minimizing ?2? gt Nf - ??S?f/ ?2?f -? in the
regression of ?S on ?f
Effectiveness of Hedge
e (?2?S - ?2?)/?2?S N2f ?2?f /?2?S
Consider ?S ? ??f ?, Then
The Effectiveness of the Minimum Variance Hedge
e (?2?S - ?2?)/?2?S R2 The Coefficient of
Determination in The Regression Analysis.

56
B. Price Sensitivity Hedge Ratio
Duration-Based Hedge Strategy(p.359)

Bond Pricing B ?PV(Ci) PV(Par) _at_ Yield y
Note Yield Curve is Derived from ys (IRR)
1 100 base points
Duraion D Weighted Average Maturity of Bond
D -(?B/B)/?y/(1y)
?B/B? -D?y/(1y/n), n of Interest
Payment/yr

57
Example Given

B ?PV(ci) PV(P)
D ?iPV(ci)/B, 3 years 10 Coupon Bond w/face
Value 100, y 12, paid semiannual
Time Payment PV(ci) Weight Time x Weight
0.5 5 4.717 0.0496 0.0248
1.0 5 4.450 0.0468 0.0468
1.5 5 4.198 0.0442 0.0663
2.0 5 3.960 0.0416 0.0832
2.5 5 3.736 0.0393 0.0983
3.0 105 74.021 0.7785 2.3355
Total 130 95.082 1.0000 2.6549 D

58
Price Sensitivity Hedge Ratio(p.359)

?H??r? ?S??r????f?f??r, Portfolio H S ?ff
(?S??ys???ys??r?????f??f??yf???yf??r?? 0
gt Nf - (?S??ys?/(?f??yf) if ?ys??r????yf??r
??or
Nf - (?S/?ys)/(?f/?yf)
In Terms of Duration
Ds -(?S/S)(1ys)/?ys
Nf - DsS/(1ys)/Dff/(1yf)

59
Stock Index Futures Hedge (p. 361)

From the Minimum Variance Hedge ?S rsS, ?f
rff
Nf - ?s(S/f), where ?s is obtained by
regression of
rs ?? ?srf ???(Mkt Model)
?
D. Tailing a Hedge (p.362)
The Effect of Mark-to-the-Market
is to reduce the hedge ratio below
the optimum.
N Nf(1r)-(Days to Expiration - 1)/365

60
Hedging Strategies Applications

1. Currency Hedges
2. Intermediate Long-term Interest Rate
Futures Hedges
3. Stock Market Hedges

61
3 Most Actively Traded Currency Futures

1. Euro with size of 125,000
2 British Pound with size of 62,500
3 Japanese Yen with size of 12,500,000
In US, Futures Prices Are Stated in .
EX. .8310 for is 12,500,000x.008310/
103,875/Futures

62
Long Currency Hedge A/P in

On 7/1, Car Dealer in US buys 20 British Car of
35,000/car, A/P on 11/1.

Date
Spot Mkt
Futures Mkt
7/1
fD1.278/, of Contract 20(35,000)/62,50011.
2 Buy 11 Currency Futures
1.319/, F1.306/ Forward Cost 20(35000)x1.30
6 914,200 Forward H
S1.442/, Total Cost in 700,000(1.442)1.00
9,400
fD1.4375/, Sell 11 Contracts
11/1
Cost 1,009,400-914,20095,200 for No hedge
than Forward 1,009,200-11(1.4375-1.2780x62,500
1,009,200-109,656.25 899,743.75 by Futures
Hedge
63
Short Hedge Convert to in the Future

On 6/29, CFO in UK will Transfer 10MM to NY on
9/28 (Forward Hedge)

Date
Spot Mkt
Forward Mkt
6/29
Sell 10MM Forward Currency _at_1.375/
S1.362/,F1.357/
11/1
S1.2375/
Exercise Forward Paid 10MM Get 13.75MM
Paid 10MM Get 12.375MM for No Hedge Paid
10MM Get 13.75MM by Forwards Hedge
64
Strip Hedge Rolling Strip Hedge
Strip On 1/2 Sell 15 March , 45 June, 20 Sep
and 10 Dec contracts. On 3/1 Buy 15 Futures On
6/1 Buy 45 Futures On 9/1 Buy 20 Futures On 12/1
Buy 10 Futures

On 1/2, ABC to Borrow at
3/1 15MM
6/1 45
9/1 20
12/1 10

Rolling Hedge Strip On 1/2 Sell 90 March
Futures On 3/1 Buy 90 March Futures and Sell 75
June Futures On 6/1 Buy 75 June Futures and Sell
30 Sep Futures On 9/1 Buy 30 Sep Futures and Sell
10 Dec Futures On 12/1 Buy 10 Dec Futures
65
2. Intermediate Long-term Interest Rate Futures
Hedge

Intermediate and Long-Term Interest Rate Futures
Hedges
First let us look at the T-note and bond
contracts
T-bonds must be a T-bond with at least 15 years
to maturity or first call date
T-note three contracts (2-, 5-, and 10-year)
A bond of any coupon can be delivered but the
standard is a 6 coupon. Adjustments, explained
in Chapter 11, are made to reflect other coupons.
Price is quoted in units and 32nds, relative to
100 par, e.g., 93 14/32 is 93.4375.
Contract size is 100,000 face value so price is
93,437.50

Ex. Hedging a Long Position in a Gov't Bond
(Table 7, p.368)
Hold 1MM of Gov't Bond Today. If bond prices ?
(interest rate ?), then futures on T-Bond will ?.
So, you should sell T-bond future today to Hedge
the Risk.

3/28
2/25
T-Bond f66,718.75,B95.6875 Sold 1MM Gov't
Bond get 956,875,(Loss 53,125 w/o Hedge)
B101,Ds 7.83, ys.1174.yf.1492 Df 7.2,
f70.5 gtNf -16.02, Sell 16 T-Bond Futures Today
_at_ 70,500
w/HedgeClosed out Futures Position
at 66,718.75, ?f70.5-66.718753.78125 per
100, ?f 16x?fx1000 60,500 T-bond futures
100,000/Contract Net 956,875
60,5001,017,375
67
Hedging a Future Purchase of a T-Notes (p. 369)

Same as the Hedging a future purchase of a
T-Bill.
Buy T-note futures to hedge (why?). Nf -?S/?f,
by regression on daily data find ? 10.5. So, Nf
11. (Table 10) Regression function ?S ?
??f ?? (different Nf)

Current Date
Futures Expiration Date
Purchasing Date
68
Ex. Hedging a Corporate Bond Issue (21 years
maturity)

Same as the Hedging a Future Commercial Paper
Issue
Sell T-bond futures (why?).
Nf -DsS(1yf)/Dff(1ys).
(Table 9, p. 370)

69
3. Stock Index Futures Hedge (f CME index250)

Note SP 500 Index CME 745.45 on 11/22/0x,
f 745.45250 186,362.5/Dec. index futures
Contract
Expiration March, June, Sept, Dec.
Last Trading Day The Thursday before the 3rd
Friday of Expiration Month
Ex. Stock Portfolio Hedge (Table 10, p 373)
Hold a portfolio. Sell the SP 500 futures to
hedge his portfolio. Nf -?sS/f.
Mkt Value weighted betas to get ?s , Portfolio
mkt value S, Index futures times 250 f.

70
Ex. Hedging a Takeover ( Table 11, p. 374,
hedging a future purchase of stocks).

Buy Nf SP 500 futures Contracts, Nf ?S/f,
????beta in CAPM

71
Chapter 11 Advanced Futures Strategies

KEY CONCEPTS
Cash and Carry Arbitrage
Implied Repo Rate
Delivery Option Imbedded in the T-Bond Futures
Contracts
Rationale for Spread Strategies
Stock Index Futures Arbitrage and Program Trading

72
Short-term Interest Rate Futures Strategies

T-Bill Cash Carry/Implied Repo
Implied Repo Rate ? f/S - 1 ?/S f - S ?
R (f/S)1/t -1 the return implied by the cost
of carry relationship between spot futures
prices

Sell a Futures Contracts f-ST Buy a Spot
ST Borrow S (use Spot as
-S(1r) Collateral) Net Cash 0 f-S(1r)0 r
is the repo
73
T-Bill and Euro Futures Price Determination

T-Bill f utures price per 100 100 - (100-IMM
Index)x (90/360), Face value 1 MM, Ex. Dec.
94.95 by IMM, the Actual futures price
100-(100-94.95)(90/360) x1MM/100 987,375
Note IMM quotes based on a 90-day T-bill
w/360-day year.
1 MM Face Value, Interest Rate Is Discount Rate

74
Euro Futures 1MM Face Value, Based on LIBOR

Interest Rate of Euro is Called LIBOR
Note T-bill is a discount instrument, and Euro
is an add-on instrument.
Ex. 10 quote rate on T-bill Euro (Spot
Market)
Pay 100-10(90/360)97.5 get 100 par in 90 days
Yield (100/97.5)365/90 -1 10.81 for T-bill.
Pay 97.5 get back 97.5(.1)(90/365)2.44 interest
97.5 principle
Yield (12.4/97.5)365/90 -1 10.36 for Euro

75
Euro Futures Price Same as T-bill Futures Price
Calculation

Futures price per 100 100 - (100-IMM Index)x
(90/360), Face value 1 MM, Ex. Dec. 94.46 by
IMM, the Actual futures price
100-(100-94.46)(90/360) x1MM/100 986,150
Note IMM quotes based on a 3-month LIBOR
w/360-day year.
Expiration months March, June, Sept, Dec.
Last Trading Date Second London Business Day
before the third Wed. of the Month
First Delivery Day Cash Settled on Last Trading
Day.

76
Ex. of Cash Carry Arbitrage ( no transaction
cost, Table 1, p.386)

On 9/26, T-bill maturing on 12/18 (i.e., 83 days
to maturity) has a discount rate of 5.19, which
implied a rate of return 5.44. The T-bill
maturing on 3/19 (i.e. 174 days to maturity) has
a discount rate of 5.35. The Dec. T-bill futures
is priced by IMM index of 94.8. (Table 1, p. 458)
Consider buy the March spot _at_5.35 pay price
100-5.35174/360 97.4142 and sell the Dec.
T-bill futures _at_ price 100-5.290/360
98.7Synthetic Short-term T-B
On Dec. 18, delivery the March T-bill for the
futures received 98.7. Paid S97.4142 and get
f98.7. The rate of return R 5.94 gt 5.44 the
return on the Dec. T-bill. There is an arbitrage
(why?)(98.7/97.4142)365/83-15.94
On 9/26, Sell T-Bill Mature on 12/18 and Buy
the March
Mature T-Bill Sell Dec. T-Bill Futuresgt
Arbitrage

9/26
12/18
3/19
83 days
Current date
174 days
T-Bill Spot 98.8034 100-5.1983/360
Yield5.44
March T-Bill Spot Price 97.4142
100-5.35174/360
Buy a T-B spot at 97.4142 Sell a Dec. Futures
at 98.7
Close out the Position, get 98.7, Yield 5.94
Buy a T-B (March) Sell a Dec. Futures to Create
a Synthetic Dec T-Bill
78
Euro Arbitrage (Cost of Carry relation is
Violated Between Euro Futures Spot) (Table 2,
p. 388)

EX On 9/16, a London bank needs either to issue
10MM of 180 day Euro CD _at_ 8.75 or to issue a
90-day CD _at_ 8.25 and selling a Euro futures
contract expiring in 3 months of IMM index of
91.37. (Table 2, p. 388)
If 180-day EuroCD is issued, then paid
10,437,500 10MM1.0875(180)/360, or 9.07
If 90-day CD is issued _at_ 8.25 and sell 10 Euro
futures _at_ 91.37, then need to pay 10MM
1.0825(90/360) on 12/16 and get 10978,425
from futures pay 10980,100 to close the futures
(loss 16,750). The firm needs to issue 10MM
x(1 .0825/4) 16,750 10,223,000 on 12/6 and
pays 10,233,000 (1.0796/4) 10,426,438 or
8.84 lt 9.07

79
Return on furures 2.1575 (100-91.37)/100/4

Synthetic 180-Day CD

3 months return on CD 2.0625
Owe 10,223,000x (17.96/4) 10,426,438 get
10MM the cost of debt 8.84
Owe 10MM(18.25/4) 10,206,250 New 90-day CD
Rate 7.96. IMM 92.04gt f 98.01. Issue new
90-day CD for 10,206,250 (978425- 980100)x10
Current Date 90- day CD Rate 8.25 Issue 90 day
CD for 10MM IMM 91.37/Dec Sell 10 Futures at
978,425 each
Annual Return from 90-day CD Furures 8.84
180 Days
180-day CD Rate 8.75. Owe 10MM(18.75x180/360) or
the cost of debt 9.07 gt 8.84
80
Conversion FactorDeliver a Different Coupon Rates

Ex. Find CF for delivery of the 6 5/8 of August
15, 2022, on the June 2001 T-bond future contract
On the june 1, 2001 the bond's remaining life is
21 yrs, 2 months. Rounding down to 0 (0,3,6,9).
CF0 (.06625/2)1-1.03-221/.03 1.03-221
1.074067
The Invoice price Settlement Price on position
day CF Accrued interest
If the settlement price on June is 104-02
104.0625 and the Accrued interest 3404.7,
then Invoice price 104,062.51.074067 3404
115,174.07
(Formula for CF see p.421)

81
Intermediate Long-Term Interest Rate Futures
Strategies

Conversion FactorDeliver a Different Coupon
Rates T
Ex. Find CF for delivery of the 6 5/8 of August
15, 2022, on the June 2001 T-bond future contract
On the june 1, 2001 the bond's remaining life is
21 yrs, 2 months. Rounding down to 0 (0,3,6,9).
CF0 (.06625/2)1-1.03-221/.03 1.03-221
1.074067
The Invoice price Settlement Price on position
day CF Accrued interest
If the settlement price on June is 104-02
104.0625 and the Accrued interest 3404.7,
then Invoice price 104,062.51.074067 3404
115,174.07
(Formula for CF see p.421)

The cheapest-to-deliver bond, among all
deliverable bonds, is the bond that is most
profitable to deliver, where profit is measured
by The FV of net cash flow by Selling a futures
Buying a Spot _at_ time t
f(CF) AIT - (BAIt)(1r)T-t - FV of Coupon at
T,
where, AIT is the accrued interest on the bond at
T, the delivery date, AIt is the accrued interest
on the bond at time t (i.e., today), r
risk-free rate, B bond price

83
ExampleGiven Current date 4/15, Delivery Date
6/11, Repo Rate 2.62, Future Price 112.65625

A 12.5 Coupon, Mature on 8/15/09, CF 1.4022

8/15
2/15
13313031303115 181 days
2/15
6/11
4/15
13311559
15311157
AIt 6.25x59/1812.04 on 4/15, AIT
6.25x(5957)/181 4.01 from 2/15 to 6/11. Bond
price is Quoted 160.125(ask price). The Invoice
Price f(CF) AIT112.65625(1.4122)4.01161.98
on 6/11 (BAIt)(1r)T-t (160.1252.04)(1.0262)57
/365162.82 f(CF) AIT - (BAIt)(1r)T-t161.98
-162.82 -.84
84
Example Continue

B 8.125 Coupon, Mature on 5/15/21, CF
1.0137,
B 116.21875, r 2.62

11/15
5/15
6/11
4/15
30 days
27days
184 Days
AIt 4.0625(181-30)/181 3.39 on 4/15 from 11/15
to 4/15 AIT 4.0625(27/184) 0.60 on 6/11 from
5/15 to 6/11 FV(4.0625)4.0625(1.0262)27/365
4.07 on 6/11 from 5/15-6/11 f(CF) AIT -
(BAIt)(1r)T-t - FV of Coupon at T
112.65625(1.0137)0.6 - (116.218753.39)
(1.0262)57/365-4.07 -1.22,??12.5 Coupon is
Cheapter-t-D Bond than 8.125
85
Rules (Determining the Quoted Futures Price)

1. Find the Cash Spot Price (Cheapest-to-deliver
Bond) from Quoted Price
2. Find Futures Price based on on f
S-PV(D)er(T-t)
3. Find Quoted Futures Price from the Cash
Futures Price
4. Divide the Quoted Futures Price by Conversion
Factor to
Allow the difference Between the C-t-D Bond
15Yrs 8

Coupon Payment
Current Time
Coupon Payment
Maturity Of Futures
Coupon Payment
60 Days
122 Days
36 Days
148 Days
Suppose C-t-D T-Bond is 12, Conversion Factor
1.4 Futures is 270 days to mature, Coupon Pay
Semiannual, Interest rate is 10 Current
Quoted Bond Price is 120
86
Example Continue

1. The Cash Price Quoted Bond Price Accured
Interest

120 6x60/180 121.978, The PV
(6) in 122 days (0.3342 yr) 5.803 2. The
Futures Price for 270 days (0.7397 yr) is
(121.978 - 5.803)e0.7397x0.1 125.094 At
Delivery, There are 148 Days of Accured Interest,
The Quoted Futures Price Under 12 Coupon is
3. 125.094-6x148/183 120.242 The Quoted
Futures Price under 8 should be
4. 120.242/1.4 85.887

87
Delivery Options

1. Wild Card Option if S5 lt f3CF note issue
notice of intention to deliver at 7pm to
clearinghouse
2.Quality (or Switching) Option(switching to
favorable B)
3. The-end-of-the-month Option (same as Wild
Card Option, there are 8 Business Days in the
expiration month)
4. Timing Option(in one month financing cost vs
coupon)
Implied Repo/Cost of Carry (T-B Futures)
f(CF) AIT received for Delivery
paid for B Cost of Carry (SAI)(1r)T
r (f(CF) AIT)/(SAI)1/T - 1

88
Implied Repo/Cost of Carry

Repo

Current Date
Expiration Date
Buy a Bond -(SAI) STAIT Borrow SAI
-(SAI)(1r)T Sell a T-Bond Futures
f(CF)AIT - (ST AIT)
Net Cash Flow 0 f(CF)AIT -(SAI)(1r)T 0
Investment 0 risk ??r (f(CF)AIT)/(SAI)1/T -1
8/15
66 Days
9/26
12/1
Ex. 12.5 Coupon
2/15

On 12/2/03, p.398. Given S141.5, AI 1.43
6.25(42/184), CF1.4662, f95.65625, AIT 3.669
6.25(108/184), r 3.89
89
T-Bond Futures Spread Long Short a T-B Futures
w/ Different Expiration Dates

Ex. to speculate r , if r will ??in short period
then Sell a shorter maturity futures Buy a
longer maturity futures (see Table 5, p. 399)?

T-Bond Futures Spread/Implied Repo Rate
t
T
Buy
Sell
_at_ Time t, Get T-Bond Pay ft(CFt)AIt ,Finance
By Repo Rate r. _at_ Time T, Deliver T-Bond Get
fT(CFT)AIT. 0 Net Cash Flow _at_ Time 0 t 0
risk at Time T ? (ft(CFt)AIt)(1r)T-t
fT(CFT)AIT, or r(fT(CFT)AIT)/(ft(CFt)AIt)
1/(T-t)-1. If r ? forward rate, then Arbitrage
Opportunity i.e. Over(under)priced futures
90
Ex. (T-Bond Futures Spread/ Implied Repo Rate)On
12/2/02, 16 1/4s T-Bond Maturing on 8/15/23 is
the C-T-D Bond, March-June Spread Given AI
.35, CFM1.029, CFJ1.0289, fM108.09375,
fJ108.09375, AIM .35, AIJ 1.9 gt(implied repo
rate from 13/7-6/5)r (108.09375(1.0289)1.9)/(
108.09375(1.4662).35 )365/90 -1 .00092 (ex.
P. 401)
8/15 9/26 12/1 2/15 3/1

Bond Mkt Timing w/Futures ?DS if r?, ?DS if r ?
To change the Duration from DS to DT is decided
by
Nf -(DS-DT)S(1yf)/Dff(1yS)
Ex. DS7.83, DT4, S1.01MM, yf14.92 Df7.2, f
70,500, yS 11.74, gt Nf -7.84 Sell 8
Futures See Table 6, p. 403

91
Stock Index Futures Strategies

Stock Index Arbitrage
when f Se(rc-?)T is Violated
Then Buy Low Sell High,
See Ex p. 404, Table 7
Program Trading
At least 1MM mkt
value At least 15
Stocks transaction

92
Speculating on Unsystematic Risk (Individual
Stock)

rS ?rM ?S, Or,??SrS S?rM S?S
?S S?(?M/M) S?S , M is the mkt index
Given, ? ?SNf ?f , and Nf -?(S/f), so no
systematic risk in Portfolio S Nf f (This is a
Hedge)
??? S?S
Stock Price Unsystemmtic Return
if ?M/M ?f/f
Ex. next page

93
Ex. Speculating on Unsystematic Risk Table 8, p.
410

On 12/1, Bay has a price at 26 and a beta of 1.2,
You expect Bay to ? by 10 by the end of Feb and
the SP 500 to ? 8. ? 1.2 ?1.2x8 9.6 on the
stock. To Hedge Selling SP 500 index futures

2/28
12/2
Stock price is 26.25 f 700, Buy 9 Futures to
Close out
Own 100,000 shares of Bay at 26, S
2,600,000 f765.3 March, Nf1.2(2,600,000)/765.3
x500 8.154, Sell 9 Futures
? from Stock 25,000 ? from Futures
65.3x 500x9 293,850, Total ? 318,850, Rate of
return 12.26
94
Stock Mkt Timing w/Futures (Adjust ? by Futures)

Buying or selling futures to ? or ? portfolio ?
Given Nf -?S(S/f), Portfilo P S Nf f , ?p
?SNf ?f ,
the return on the portfolio rp (?SNf ?f )/S
E(rp) E(rS)NfE(?f /S) r E(rM)-r?T, ?T
is the target ?
E(rS) r E(rM)-r?S and E(?f /f)
E(rM)-r ,
? ? Nf (?T??S)(S/f)
?from 0-beta risk hedge ratio Nf -?S(S/f) to
target ?T risk hedge ratio Nf (?T??S)(S/f)
Ex On 12/2 current ?.9, S 5MM. Portfolio
Manager likes to ? to 1.5 for 3 months, f765
Nf (1.5-.9)5MM/765x5007.843, Buy 8 SP 500
March index futures contracts Now

95
Put-Call-Futures Parity

Pe Ce (E-f)(1r)-T vs. Pe Ce -S
E(1r)-T

Expiration Date
Current Date
PV Buy a Put P E- ST 0 Buy a
Futures 0 ST-f ST -f E-f ST
-f Buy a Call C 0 ST -E Buy a Bond w/
PV(E-f) PV(E-f) E-f E-f E-f
ST -f
ST ??E
ST???E
96
Chapter 12 Option on the Futures

Key Concepts
Basic Characteristics of Options on Futures
Intrinsic Values, Lower Bounds Put-Call Parity
of Options on Futures
Why Both Calls Puts Might Be Exercised Early
Black Binomial Option on Futures Pricing Models
Trading Strategies for Options on Futures
Diffrence Between Options on the Spot Options
on Futures

97
Options on Futures

To give the buyer the right to buy (or sell) a
futures contract _at_ a fixed price (E) up to a
specified expiration date (T). (Commodity Options
or Futures Option)
Call Put
Intrinsic Value of an American Option on Futures
Max(0,f-E) for Call.
Max(0,E-f) for Put.
Ex.

98
Black Option on Futures Pricing Model

C(f,T,?2,E, r) e-rcTfN(d1) - EN(d2)
where, d1 ln(f/E) .5?2T/s?T
d2 d1 -s??
Ex
- .

99
Put-Call Parity

Ce(f,T,E) Pe(f,T,E) (f-E)(1r)-T
Ex. Pe(f,T,E) 7.45, f 320, E315, r 5.46,
T .25, then Ce(f,T,E) 7.45 5(1.0546)-.25
12.52

100
Chapter 14 Swaps Other Interest Rate Agreements

Key Concepts
Interest Rate Swaps (pricing, Apllications,
Termination)
Forward Rate Agreements Similarity to Swaps
Interest Rate Options Use Pricing
Caps, Floors, Collars Use Pricing
The Derivative Intermediary
The Nature of Credit Risk How It Is Managed
General Awareness of Accounting, Regulatory Tax
Issues

101
Basic Concepts

Swaps Privated Agreements Between 2 Parties to
Exchange Cash Flows In the Future According to a
Prearranged Formula Portfolio of Forwards
Contracts
Comparative Advantage Borrowing Fixed When it
Wants Floating or Vice Versa
Prime Rate (Reference Rate of Interest for
Domestic Financial Mkt)
LIBOR (Reference Rate for International Financial
Mkts)

102
Example

Borrowing Rate Fixed Floating
Company A 10 6-month LIBOR 0.3
Company B 11.2 6-month LIBOR 1
B pays 1.2 more than A in Fixed Only .7 in
Floating
B has Comparative Advantage in Floating Rate
Mkt, A has Comparative Advantage in Fixed Rate
Mkt
A Swap is Created

9.95
A
B
LIBOR1
LIBOR0.05
10
B Borrows _at_ LIBOR1 A Borrows _at_ Fixed 10 Then
Rnter a Swap to Ensure that A Ends Up Floating
Rate
A pays 10/year to Outside Lender, Receive
9.95/year from B, Pays LIBOR to B
103
Example

Company B Cash Flow
1. Pay LIBOR1 to Outside Lender
2. Receive LIBOR from A
3. Pays 9.95 to A
Company A Net Cash Flow with Swap
-109.95-(LIBOR) -(LIBOR0.05)
Without Swap, Company A Pays LIBOR0.3, Save
0.25
Company B Net Cash Flow with Swap
-(LIBOR1)-9.95LIBOR -10.95
Without Swap, Company A Pays 11.2, Save 0.25
The Total Gain 11.2-10 - (LIBOR1) -
(LIBOR 0.3 ) 0.5.

104
Role of Financial Intermediary (Net 0.1)

A Cash Flow (Net LIBOR0.1, Save 0.2 )
Pay 10 to outside Lenders
Receive 9.9/annum from Financial Intermediary
Pay LIBOR to Financial Intermediary

10.0
9.9
Financial Institution
A
B
LIBOR 1
10
LIBOR
LIBOR
B Cash Flow (Net 11, Save 0.2) Pay
LIBOR 1 to Outside Lenders Receive LIBOR
from Financial Intermediary Pay 10/annum to
Financial Intermediary
105
Swap Valuation

VF Value of Floating Payment P - PV(P).
Bond Sell at Par P Notional Principal
VR PV(Fixed Cash FLow) for Fixed Payment
Value of Swap VF - VR ,
VF (Floating Payment Discount at Euro Deposit
Rate, i.e, the PV of Receiving 1Euro at Date T)
VR (Fixed Payment Discount at T-Bill Price/,
i.e., the PV of Receiving for Sure 1 at Date T)

106

Spot Forward Rate
Term Structure of Interest Rate (Based on Pure
Discount Bond)
Bond Pricing B ?PV(Ci) PV(Par) _at_ Yield y
Note Yield Curve is Derived from ys
1 100 base points
Estimating the Term Structure (p.372)
(i.e., An Application of Forward Rates to Derive
the Spot Rate) Example. See p. 372-375

Spot Rates
Forward Rate
107
Example Estimating the Term Structure
S1
f1
f2
f3
Spot Rate S1
S2 (1S1 )(1 f1 )-1
S3 (1S2 )(1 f2 )-1
S4 (1S3)(1 f3)-1
Note fi is derived from the T-bill Futures
Price Si1 (1Si)(1fi) Annualize then - 1
108

T-Bill f utures price per 100 100 - (100-IMM
Index)x (90/360), Face value 1 MM, Ex. Dec.
94.95 by IMM, the Actual futures price
100-(100-94.95)(90/360) 98.7375, Yield
100/98.7375365/90 see p.373
Note IMM quotes based on a 90-day T-bill
w/360-day year.

109
1. Short-term Interest Rate Hedges

a. Anticipatory Hedge of a future purchase of a
T-Bill
T-Bills (IMM), size 1 million/contract
(90-day)
() f 100 - (100-IMM index)(90/360)
Ex. IMM index 92.06
f 100 - (7.94)/4 100-1.985 98.015
So, the futures price is 980,150/T-bill futures

110
Ex. Hedging a Future Purchase of a T-bill

If you are going to buy T-bill from spot market
in the future, then you should buy the T-bill
futures now (why?).
If interest rate decreases, then the price of
T-bill will increase gt To hedge future purchase
of T-Bill, BUY one (why one ?) T-Bill futures now
to capitalize the rising of the futures price due
to the interest rate decrease. Because if
r???futures price???gt???Losses (Table 6, p. 426)

Buy a T-Bill Pay f
Get the 1MMPar
Futures Expired
Now, Buy a Futures
Money
111
June

Example

2/15
Futures Expired
5/17
Given, forward discount 8.94 ??Implied forward
rate 9.6 IMM 91.32 ??f 97.83 Buy a Futures
at 97.83
T-Bill Expired Get 1MM
Close Out Date Given IMM92.54 ??new f98.135,
Net from futures -97.8398.135 0.305 Buy a
T-Bill _at_ discount 7.69 or S 98.056 ?Net Cost
of a T-Bill 98.056-.30597.751
?
w/Hedge, the Rate of Return 9.55 (100/97.751)3
65/91 -1 w/o Hedge, the Rate of Return 8.19
(100/98.056)365/91 -1
(Lock in the forward rate _at_ 9.6)
112
b. Anticipatory Hedge of a future 10MM
commercial paper Issue (Use Euro futures (IMM),
size1 MM)

Ex. Hedging a Future Commercial Paper Issue
If you need to issue 180 days commercial paper in
the future, then you should sell the futures
(why?) (Table 7, p. 429). Because issuing a
commercial paper sell spot, if r ?, spot ?,
Interest Rate Futures ?? Short Euro futures.
Hedging Strategy Use () to calculate the
futures price yield yf use spot mkt to
calculate the commercial paper's yield ys its
value. Find the hedge ratio using the Price
Sensitivity Hedge Ratio (why?) Nf -
DsS(1yf)/Dff(1ys) (p.429)

113
Ex. Hedge Future Commercial Paper Issue
4/6
7/20
Sept
Issue 10MM (180Days) C P _at_ Spot Rate
11.34 100-11.34(180/360) 94.33 per
100 (100/94.33)365/180- 1 .1257 if No Hedge
Futures Expired
Given IMM of Sept 88.23 gtf 97.0575 yf
(100/f)365/90 -1 .1288, Given 180-day C
P Implied forward Rate 10.37,
Price 100-10.37(180/360) ys (100/P)365/180-1 .1
14, Nf -19.8 Sell 20 Futures(Sept) Contracts
(Hedge)
(Lock in the forward rate _at_ 11.4)
IMM 87.47, f 96.8675, ?f 0.19/100 100/(94.3
3.38)365/180 -1 11.65 Cost of Fund if
Hedge Note 1000/(943.33.8)100/(94.33.38)
3.8 .19x20 (Contracts)
114
Ex. Hedging a Floating Loan(Lock in _at_ 10.68)
(3months floating loan)

Borrow 10MM from a bank with a floating rate
LIBOR 1 for two months. If LIBOR ?, then
futures ?. So, firm should sell the futures now.
Given f6 976,875gt yf 9.95, ys
.1122(110.68/12)12-1,
Nf - DsS(1yf)/ Dff(1ys)
-(1/12)10MM(1.0995)/ (1/4)(9.76875)(1.1122)
-3.37 and
Nf -(1/12)10089000(1.0995)/ (1/4)(9.76875)(1.1
122)
-3.4
Sell 6 futures with three to be closed out on
March and three on April.(see Table 8, p.431)

115

Example Heading a Floating Rate Loan (3 Months)

Futures Expired
3/2
4/6
5/4
2/3
IMM90.47 f97.6175, ?f.07, or 700/Futures x3
2,100 Total Liabil. 10MM(1 .1068/12)
10,089,000 - 2,100 10,086,900 New
LIBOR 10.09
IMM89.99, f 97.4975 ?f .19,
or 1900/Futures x35,700 Total
Liabil. 10086900(1 .11.09/12) 10,180,120 -
5,700 10,174,420 New LIBOR 10.79
Pay Total Debt 10,174,420(1 .1179/12) 10,274,3
84
LIBO(90days)9.68, Get 10MM Loan, Like to Lock
in the (1.1068/12)12 -1 .1122 ys IMM90.75,
f 97.6875, yf .0995,Nf -3.37 Sell 6
Euro Futures
Cost of Debt (10,274,384/10 MM)4 .1144 with
Hedge w/o Hedge 1 .1068/12)(1 .1109/12)(1.11
79/12)4.1178
116