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Title: Option Contracts


1
Option Contracts
2
DEFINITIONS
  • Call The option holder has the right to buy
    the underlying instrument at the calls
    exercise (strike) price
  • Put The option holder has the right to sell
    the underlying instrument at the puts exercise
    (strike) price

3
WRITTEN OPTIONS UNDER FAS 133
  • A written option is sold by an "option writer"
    who sells options collateralized by a portfolio
    of securities or other performance bonds.
    Typically a written option is more than a mere
    "right" in that it requires contractual
    performance based upon another party's right to
    force performance. The issue with most written
    options is not whether they are covered by FAS
    133 rules.  The issue is whether they will be
    allowed to be designated as cash flow hedges. 
    Written options are referred to at various points
    in FAS 133. For example, see Paragraphs 20c, 28c,
    91-92 (Example 6), 199, and 396-401.. For rules
    regarding written options see Paragraphs 396-401
    on Pages 179-181 of FAS 133.  Exposure Draft
    162-B would not allow hedge accounting for
    written options.  FAS 133 relaxed the rules for
    written options under certain circumstances
    explained in Paragraphs 396-401. 
  • Note that written options may only hedge recorded
    assets and liabilities. 
  • They may not be used to hedge forecasted purchase
    and sales transactions.

4
PURCHASED OPTIONS UNDER FAS 133
  • Purchased options are widely used for hedging
  • and present some of the biggest challenges for
  • hedge accounting rules.
  • The major problem is that purchased option values
    are often highly volatile relative to value
    changes in the hedged item. Traditional Delta
    effectiveness tests fail for hedge accounting for
    full value.

5
OPTION PARTICIPANTS
Call Buyer Pays premium Has the right to
buy Put Buyer Pays premium Has the right to sell
Call Seller Collects premium Has obligation
to sell, if assigned Put Seller Collects
premium Has obligation to buy, if assigned
6
IDENTIFYING OPTIONS
  • Call or put
  • Strike price (exercise price)
  • Expiration date
  • Underlying instrument

7
Option Strategies
  • http//www.optionetics.com/education/strategies/st
    rategies.asp
  • Bullish Strategies
  • Calls
  • Covered Calls
  • Vertical Spread
  • Bull Call Spread
  • Bull Put Spread
  • Bearish Strategies
  • Buying Puts
  • Covered Puts Bear
  • Call Spread
  • Bear Put Spread

8
Delta Hedging
http//biz.yahoo.com/glossary/bfglosd.html Delta
hedge where delta d(Option)/d(spot) Hedge
Ratio A dynamic hedging strategy using options
with continuous adjustment of the number of
options used, as a function of the delta of the
option. Delta neutral The value of the
portfolio is not affected by changes in the value
of the asset on which the options are written.
9
Dynamic Hedging
http//biz.yahoo.com/glossary/bfglosd.html
Dynamic hedging A strategy that involves
rebalancing hedge positions as market conditions
change a strategy that seeks to insure the value
of a portfolio using a synthetic put option.
10
SPOT/FORWARD PRICES
Price
Forward
Spot
Time
11
TIME VALUE / VOLATILITY VALUE
  • Time value is the option premium less intrinsic
    value
  • Intrinsic value is the beneficial difference
    between the strike price and the price of the
    underlying
  • Volatility value is the option premium less the
    minimum value
  • Minimum value is present value of the beneficial
    difference between the strike price and the price
    of the underlying

12
FEATURES OF OPTIONS
Option Value Intrinsic Value Time Value
  • Intrinsic Value Difference between the strike
    price and the underlying price, if
    beneficial otherwise zero
  • Time Value Sensitive to time and
    volatility equals zero at expiration

13
Sub-paragraph b(c) of Paragraph 63 of FAS 133
  • c. If the effectiveness of a hedge with a forward
    or futures contract is assessed based on changes
    in fair value attributable to changes in spot
    prices, the change in the fair value of the
    contract related to the changes in the difference
    between the spot price and the forward or futures
    price would be excluded from the assessment of
    hedge effectiveness.

14
Sub-paragraph b(a) of Paragraph 63 of FAS 133
  • a. If the effectiveness of a hedge with an option
    contract is assessed based on changes in the
    option's intrinsic value, the change in the time
    value of the contract would be excluded from the
    assessment of hedge effectiveness.

15
Sub-paragraph b(b) of Paragraph 63 of FAS 133
  • b. If the effectiveness of a hedge with an option
    contract is assessed based on changes in the
    option's minimum value, that is, its intrinsic
    value plus the effect of discounting, the change
    in the volatility value of the contract would be
    excluded from the assessment of hedge
    effectiveness.

16
THE IMPACT OF VOLATILITY
A
B
Price
Price
P
P
Time
Time
17
Minimum Value
Option Value Risk Free Value Volatility Value
  • If the underlying is the price of corn, then the
    minimum value of an option on corn is either zero
    or the current spot price of corn minus the
    discounted risk-free present value of the strike
    price.  In other words if the option cannot be
    exercised early, discount the present value of
    the strike price from the date of expiration and
    compare it with the current spot price.  If the
    difference is positive, this is the minimum
    value.  It can hypothetically be the minimum
    value of an American option, but in an efficient
    market the current price of an American option
    will not sell below its risk free present value.

18
INTRINSIC VALUE / MINIMUM VALUE
Option Price
Minimum Value
Strike Price
Intrinsic Value
Underlying Price
19
Minimum (Risk Free) Versus Intrinsic
ValueEuropean Call Option
  • X Exercise (Strike) Price in n periods after
    current time
  • P Current Price (Underlying) of Commodity
  • I P-Xgt0 is the intrinsic value using the
    current spot price if the option is in the money
  • M is the minimum value at the current time
  • MgtI if the intrinsic value I is greater than
    zeroValue of Option exceeds minimum M due to
    volatility value

20
Minimum (Risk Free) Versus Intrinsic
ValueArbitrate for European Call Option
  • X 20 Exercise (Strike) Price and Minimum Value
    M 10.741
  • n 1 year with risk-free rate r 0.08
  • P (Low) 10 with PV(Low) 9.259
  • P 20 such that the intrinsic value now is I
    P-X 10.
  • Borrow P(Low), and Buy at 20 9.25910.741
    PV(Low)M
  • If the ultimate price is low at 10 after one
    year, pay off loan at P(Low)10 by selling the
    commodity at 10.
  • If we also sold an option for M10.741,
    ultimately our profit would be zero from the
    stock purchase and option sale.
  • If the actual option value is anything other than
    M10.741, it would be possible to arbitrage a
    risk free gain or loss.

21
INTRINSIC VALUE / MINIMUM VALUE
Option Price
Minimum Value
Strike Price
Intrinsic Value
Underlying Price
22
Minimum Versus Intrinsic ValueAmerican Call
Option
  • X Exercise (Strike) Price in n periods after
    current time
  • P Current Price (Underlying) of Commodity
  • I P-Xgt0 is the intrinsic value using the
    current spot price if the option is in the money
  • M 0 is the minimum value since option can be
    exercised at any time if the
    options value is less than intrinsic value
    I.Value of option exceeds M and I due to
    volatility value

23
Whats Wrong With the Black-Scholes ModelWhen
Valuing Options?
  • The Black-Scholes Model works pretty well for
    options on stocks. It does not work well for
    interest rate and some commodity options.
  • The main problem for interest rates is the
    assumption that short-term interest rates are
    constant.
  • The assumption of constant variance is always a
    worry when using this model to value any type of
    option.
  • The assumption of normality is always a worry
    when using this model for valuing options of any
    type.

24
LONG OPTION HEDGES
  • Fair value hedges
  • Mark-to-market of the option will generally be
    smaller than exposures contribution to earnings
  • Cash flow hedges
  • Changes in intrinsic values of options go to
    other comprehensive income to the extent
    effective
  • Remaining changes in option prices goes to
    current income

Bounded by the magnitude of the exposures
price changes
25
GENERAL RECOMMENDATIONS
  • For most static option hedges Exclude time
    value from hedge effectiveness considerations
  • For most fair value hedges Exclude forward
    points from hedge effectiveness considerations
  • For non-interest rate cash flow hedges Assess
    effectiveness based on comparisons of forward
    prices
  • For options Consider the FAS Paragraph 167
    alternative for minimum value hedging.

26
THE RISK BEING HEDGED
  • For non-interest rate exposures
  • Entities must identify their firm-specific
    exposures as hedged items
  • Differences between firm-specific prices and
    hedging instruments underlying variables will
    foster income volatility
  • Pre-qualifying hedge effectiveness documentation
    is required for all cross-hedges

27
Selected IAS 39 Paragraph Excerpts
  • 146.  80ltDeltalt125 Guideline.
  • 147. Assessing hedge effectiveness will depend on
    its risk management strategy.
  • 148. Sometimes the hedging instrument will offset
    the hedged risk only partially.
  • 149. The hedge must relate to a specific
    identified and designated risk, and not merely to
    overall enterprise business risks, and must
    ultimately affect the enterprise's net profit or
    loss.
  • 150. An equity method investment cannot be a
    hedged item in a fair value hedge because the
    equity method recognizes the investor's share of
    the associate's accrued net profit or loss,
    rather than fair value changes, in net profit or
    loss. If it were a hedged item, it would be
    adjusted for both fair value changes and profit
    and loss accruals - which would result in double
    counting because the fair value changes include
    the profit and loss accruals. For a similar
    reason, an investment in a consolidated
    subsidiary cannot be a hedged item in a fair
    value hedge because consolidation recognizes the
    parent's share of the subsidiary's accrued net
    profit or loss, rather than fair value changes,
    in net profit or loss. A hedge of a net
    investment in a foreign subsidiary is different.
    There is no double counting because it is a hedge
    of the foreign currency exposure, not a fair
    value hedge of the change in the value of the
    investment.
  • 151. This Standard does not specify a single
    method for assessing hedge effectiveness.
  • 152. In assessing the effectiveness of a hedge,
    an enterprise will generally need to consider the
    time value of money.

28
FAS Effectiveness Testing --- http//www.qrm.com/p
roducts/mb/Rmbupdate.htm
  • Dollar Offset (DO) calculates the ratio of dollar
    change in profit/loss for hedge and hedged item
  • Relative Dollar Offset (RDO) calculates the ratio
    of dollar change in net position to the initial
    MTM value of hedged item
  • Variability Reduction Measure (VarRM) calculates
    the ratio of the squared dollar changes in net
    position to the squared dollar changes in hedged
    item
  • Ordinary Least Square (OLS) measures the linear
    relationship between the dollar changes in hedged
    item and hedge. OLS calculates the coefficient of
    determination (R2) and the slope coefficient (ß)
    for effectiveness measure and accounts for the
    historical performance
  • Least Absolute Deviation (LAD) is similar to OLS,
    but employs median regression analysis to
    calculate R2 and ß.

29
Regression Versus Offset Effectiveness Tests
30
The Dictionary of Financial Risk Management
defines dynamic hedging as follows ---
http//snipurl.com/DynamicHedging
  • Dynamic Hedging A technique of portfolio
    insurance or position risk management in which an
    option-like return pattern is created by
    increasing or reducing the position in the
    underlying (or forwards, futures or short-term
    options in the underlying) to simulate the Delta
    change in value of an option position. For
    example, a short stock futures index position may
    be increased or decreased to create a synthetic
    put on a portfolio, producing a portfolio
    insurance-type return pattern. Dynamic hedging
    relies on liquid and reasonably continuous
    markets with low to moderate transaction costs.
    See Continuous Markets, Delta Hedge, Delta/Gamma
    Hedge, Portfolio Insurance.

31
Dynamic HedgingParagraph 144 of IAS 39 Reads as
Follows
  • 144. There is normally a single fair value
    measure for a hedging instrument in its entirety,
    and the factors that cause changes in fair value
    are co-dependent. Thus a hedging relationship is
    designated by an enterprise for a hedging
    instrument in its entirety. The only exceptions
    permitted are (a) splitting the intrinsic value
    and the time value of an option and designating
    only the change in the intrinsic value of an
    option as the hedging instrument, while the
    remaining component of the option (its time
    value) is excluded and (b) splitting the interest
    element and the spot price on a forward. Those
    exceptions recognize that the intrinsic value of
    the option and the premium on the forward
    generally can be measured separately. A dynamic
    hedging strategy that assesses both the intrinsic
    and the time value of an option can qualify for
    hedge accounting.

32
New Example
  • New Example Coming Up

33
Example 9, Para 162, FAS 133 Appendix BCash Flow
Hedge Using Intrinsic Value
  • XYZ specified that hedge effectiveness will be
    measured based on changes in intrinsic value
  • The American call option purchased at 1/1/X1 has
    a four-month term
  • The call premium is 9.25, the strike rate is
    125, and the option is currently at-the-money
  • See 133ex09a.xls at http//www.cs.trinity.edu/rj
    ensen/
  • Also seehttp//www.trinity.edu/rjensen/caseans/In
    trinsicValue.htm

34
Example 9 from FAS 133 Paragraph 162With 100
Delta Effectiveness
  • Forecasted Transaction Option
    Option
  • Entry
    Time Intrinsic
  • Date Value
    Value Value
  • Jan. 01 125.00
    9.25 Premium 0
  • 0.00 Intrinsic Value
  • 9.25 Time Value


35
Example 9 from FAS 133 Paragraph 162January 31
  • Forecasted Transaction Option
    Option
  • Entry
    Time Intrinsic
  • Date Value
    Value Value
  • Jan. 01 125.00
    9.25 0

  • Debit Credit Balance
  • Jan. 01 Call option 9.25
    9.25
  • Cash
    9.25 (9.25)
  • For cash flow hedges, adjust hedging derivative
    to fair value and offset to OCI to the extent of
    hedge effectiveness.

36
Example 9 from FAS 133 Paragraph 162With 100
Delta Effectiveness
  • Forecasted Transaction Option
    Option Total
  • Entry
    Time Intrinsic Option
  • Date Value
    Value Value Value
  • Jan. 01 125.00
    9.25 Premium 0 9.25
  • Jan. 31 127.25
    7.50 2.25 9.75
  • 2.25 Change in Hedged
    Intrinsic Value
  • 2.25 Change in Hedge Contract
    Intrinsic Value Delta 1.00 or
    100 based on intrinsic value
  • Delta 0.44 44
    (9.75-9.25)/ (127.25-125.00)


37
Example 9 from FAS 133 Paragraph 162January 31
  • Forecasted Transaction Option
    Option
  • Entry
    Time Intrinsic
  • Date Value
    Value Value
  • Jan. 01 125.00
    9.25 0
  • Jan. 31 127.25
    7.50 2.25

  • Debit Credit Balance
  • Jan. 31 Call option 0.50
    9.75
  • PL 1.75
    1.75
  • OCI
    2.25 (2.25)
  • For cash flow hedges, adjust hedging derivative
    to fair value and offset to OCI to the extent of
    hedge effectiveness.

38
Example 9 from FAS 133 Paragraph 162February 28
  • Forecasted Transaction Option
    Option
  • Entry
    Time Intrinsic
  • Date Value
    Value Value
  • Jan. 31 127.25
    7.50 2.25
  • Feb. 28 125.50
    5.50 0.50

  • Debit Credit Balance
  • Feb. 28 OCI 1.75
    (0.50)
  • PL 2.00
    3.75
    Call option 3.75 6.00
  • For cash flow hedges, adjust hedging derivative
    to fair value and offset to OCI to the extent of
    hedge effectiveness.

39
Example 9 from FAS 133 Paragraph 162March 31
  • Forecasted Transaction Option
    Option Total
  • Entry
    Time Intrinsic Option
  • Date Value
    Value Value Value
  • Feb. 28 125.50
    5.50 0.50 6.00
  • Mar. 31 124.25
    3.00 0.00 3.00

  • Debit Credit Balance
  • Mar. 31 OCI 0.50
    0 PL
    2.50 6.25
    Call option 3.00
    3.00
  • For cash flow hedges, adjust hedging derivative
    to fair value and offset to OCI to the extent of
    hedge effectiveness.

40
Example 9 from FAS 133 Paragraph 162April 30
  • Forecasted Transaction Option
    Option Total
  • Entry
    Time Intrinsic Option
  • Date Value
    Value Value Value
  • Jan. 01 125.00
    9.25 0.00 9.25
  • Mar. 31 124.25
    3.00 0.00 3.00
  • Apr. 30 130.75
    0.00 5.75 5.75

  • Debit Credit Balance
  • Apr. 30 Call option 2.75
    5.75 PL
    3.00 9.25
    OCI 5.75
    5.75

41
Example 9 from FAS 133 Paragraph 162With No
Basis Adjustment Under FAS 133

  • Debit Credit Balance
  • Apr. 30 Cash 5.75
    -3.50
  • Call option
    5.75 0
  • Apr. 30 OCI No basis adjustment yet
    PL No basis
    adjustment yet
  • Apr. 30 Inventory 130.75
    130.75
  • Cash
    130.75 -134.25 Cash -9.25
    Premium 5.75 Call Option - 130.75 -134.25

42
Example 9 from FAS 133 Paragraph 162With No
Basis Adjustment Under FAS 133

  • Debit Credit Balance
  • May 14 Cash 234.25
    100.00
  • PL (or Sales)
    234.25 -225.00
  • May 14 PL (or CGS) 130.75
    - 94.25
  • Inventory
    130.75 0
  • May 14 OCI 5.75
    0
  • PL
    5.75 -100.00

43
Example 9 from FAS 133 Paragraph 162With Basis
Adjustment Under IAS 39

  • Debit Credit
  • Apr. 30 Cash 5.75
    Call option
    5.75
  • Apr. 30 OCI 5.75
    PL
    5.75
  • Apr. 30 Inventory 130.75
    Cash
    130.75

44
FUTURES /FORWARDS vs. OPTIONS
Futures / Forwards
Long Options
Unlimited risk/reward Limited risk/unlimited
reward No initial payment Initial payment
of premium Offsets risk and opportunity
Offsets risk/allows opportunity
45
FUTURES vs. OPTIONS
Long Calls
Futures
Long Puts
Long
Bullish
Bearish
Short
Bearish
Bullish
Speculators
unlimited gain
unlimited gain
unlimited gain
limited risk
limited risk
unlimited risk
Lock in a price
Protect against
Protect against
rising price
falling price
Hedgers
Long
Buy price
Short Sell price
(for a premium)
(for a premium)
46
OPTION VALUATION PRACTICES
  • Actively traded, liquid contracts
  • Use market data
  • Where no market is available
  • Requires marking-to-model
  • Valuations will differ depending on the
    particular model used, and the inputs to the
    model
  • Market values should reflect present values of
    expected future cash flows

47
Why Discounted Cash FlowDoes Not Work Well for
Valuing Options
American
Can exercise anytime up to,
and including expiration date
European
Can exercise only on
expiration date, but may be able to sell the
option at current value
Risk
Risk varies over time making DCF valuation
ineffective
48
GENERAL FEATURES OF OPTIONS ON FUTURES
Option prices move in variable proportion to
futures prices

Deep In-the-money . . . .
High proportion






(almost one-to-one) . . . .

































Low proportion
Deep Out-of-the-money
(almost zero-to-one)
49
GENERAL FEATURES OFOPTIONS ON FUTURES
  • Deltas increase as options move (deeper)
    in-the-money
  • Deltas are bounded between a minimum of zero and
    a maximum absolute value of one
  • Time value is greatest for at-the-money options

50
MEAN AND STANDARD DEVIATION
3 S.D.
2 S.D.
1 S.D.
Mean
51
STANDARD DEVIATION
  • 1 standard deviation is the range associated with
    a probability of 68.3
  • 2 standard deviations is the range associated
    with a probability of 95.4
  • 3 standard deviations is the range associated
    with a probability of 99.7

52
NORMAL DISTRIBUTIONS
Frequency
High volatility
Low volatility
Returns
53
STANDARD DEVIATIONAn Example
If the standard deviation is 10, that means...
Expected Price Change within 10 (1s.d.) within
20 (2s.d.) within 30 (3s.d.)
Probability 68.3 95.4 99.7
54
CALCULATING HISTORICAL VOLATILITY
?? ?
T
VOL SD

Where
VOL

Annualized volatility

SD

Standard deviation of periodic price






changes (closing prices)

T

Number of trading periods per year

55
VOLATILITY EXAMPLE
24 Annual Volatility
Daily SD (24 ? ?254) ? (24 ? 16) ? 1.5
68.3 probability that overnight change ? /-
1.5 95.4 probability that overnight change ?
/- 3.0 99.7 probability that overnight change
? /- 4.5
56
IMPLIED VOLATILITIES
  • Derived from current options prices
  • Reflect probability distributions of forthcoming
    price changes (i.e., the annualized standard
    deviations)
  • Typically differ (significantly) from historical
    volatilities
  • Generally differ across strike prices and
    maturities

57
OPTION PRICE DETERMINANTS
Premium f (IV, time, vol , r)

e
  • Intrinsic value (IV)
  • Time to expiration (time)
  • Expected volatility (vol )
  • Interest rates (r)

e
The implied volatility of a similar option is
the best input for expected volatility
58
SWAPS vs. CAPS/FLOORS
Effective
Effective
Rate
Rate
Floor
Cap
Swap
Swap
Spot
Spot
Rate
Rate
R
R
(R - P
R
)
(R P
R
)
Floor
Swap
Cap
Swap
59
BUILDING CAPS
  • A cap is a series of individual options
    (caplets), each relating to a specific
    rate-setting date
  • The price of a cap is the sum of caplet prices
  • Option horizons (times to expiration) increase
    for successive rate-setting dates
  • All else equal, longer-dated caplets are more
    expensive than shorter dated caplets
  • Normal yield curves (i.e., expectations of rising
    interest rates) inflate longer dated caplets, and
    vice versa

60
FORWARD RATES
10.00
7 Strike Yield
8.00
6.00
4.00
2.00
0.00
4
8
12
16
20
24
28
32
36
40
Quarters
61
INTEREST RATE CAPS
Cap Levels
8
9
10
Premiums
2-Year
3-Year
4-Year
62
TWO YEAR COLLARBuy Caps at 8 or 9 Sell Floor
at 7.00
Collar Levels
9 / 7
8 / 7
Cap Premium
1.88
1.06
Floor Premium
0.58
0.58
Net Cost
1.30
0.48
63
TWO YEAR CORRIDORBuy Caps at 8 or 9 Sell caps
at 10.00
Corridor Levels
8 / 10
9 / 10
Long Cap Premium
1.88
1.06
Short Cap Premium
0.62
0.62
Net Cost
1.26
0.44
64
QUASI-INSURANCEExamples
Corridor Fixes outcomes within a range of prices
Collar Constrains outcomes at price extremes
Hedged
Hedged
Spot
Spot
S
S
S
S
1
1
2
2
65
New Example
  • New Example Coming Up

66
CASE 7 - Cash Flow Hedge of Forecasted Treasury
Note Purchase
  • On 1/1/X1, XYZ forecasts a 12/31/X1 purchase of
    100 million 5-year 6 Treasury notes to be
    classified AFS
  • At 1/1/X1 the 1-year forward rate for 5-year
    Treasury notes is 6
  • XYZ wants to lock in at least the 6 yield for
    the 100 million Treasury note purchase
  • XYZs hedge strategy is to purchase a call option
    on 100 million of the 5-year Treasury notes that
    have a 6 1-year forward rate

67
CASE 7 - Cash Flow Hedge of ForecastedTreasury
Note Purchase
  • XYZ specified that hedge effectiveness will be
    measured based on the total price change of the
    Treasury notes and the intrinsic value of the
    option (zero at 1/1/X1)
  • The American call option purchased at 1/1/X1 has
    a 1-year term
  • The call premium is 1.4 million, the strike rate
    is 6, and the option is currently at-the-money

68
CASE 7 - Cash Flow Hedge of ForecastedTreasury
Note Purchase
  • On 1/1/X1, the following activity is recorded
  • Call option asset 1,400,000
  • Cash 1,400,000
  • To record the option purchase

69
CASE 7 - Cash Flow Hedge of ForecastedTreasury
Note Purchase
  • At 6/30/X1, the 12/31X1 forward 5-year Treasury
    rate has declined 100 basis points from 6 to 5
    and the market price is 104.376. The following
    entry is recorded to reflect the increase in the
    call options intrinsic value.
  • Call option asset 4,376,000
  • OCI 4,376,000
  • To record the call options intrinsic value
    (assuming a price of 104.376, calculated as
    500,000 annuity received for 10 semiannual
    periods discounted at
  • 5 4,376,000).

70
CASE 7 - Cash Flow Hedge of ForecastedTreasury
Note Purchase
  • (continued)
  • At 6/30/X1, XYZ also determines that the call
    options time value has decreased
  • Earnings 800,000
  • Call option asset 800,000
  • To record call options time value decrease

71
CASE 7 - Cash Flow Hedge of ForecastedTreasury
Note Purchase
  • At 12/31/X1, XYZ exercises the option and takes
    delivery of the Treasury notes
  • Earnings 600,000
  • Call option asset
    600,000
  • To write off option time value balance
  • Treasury notes 100,000,000
  • Cash 100,000,000
  • Treasury notes (premium) 4,376,000
  • Call option asset 4,376,000
  • To record exercise of option

72
CASE 7 - Cash Flow Hedge of ForecastedTreasury
Note Purchase
  • The 12/31/X1 OCI balance of 4,376,000 is
    reclassified into earnings over the life of the
    bond. The interest method is used to calculate
    the periodic amount reclassified into earnings.
  • The 4,376,000 Treasury note premium is amortized
    over the life of the bond and offsets the above
    OCI impact.
  • On a cash flow and earnings basis, XYZ succeeded
    in locking in a minimum 6 return on the Treasury
    notes as if these were purchased at par.

73
CASE 7 - Cash Flow Hedge of ForecastedTreasury
Note Purchase
  • XYZ demonstrates that the hedge was effective as
    follows
  • Price of a 6 bond purchased in a
  • 5 rate environment 104,376,000
  • Less call option proceeds (4,376,000)
  • Net price 100,000,000

74
CASE 7 - Cash Flow Hedge of ForecastedTreasury
Note Purchase
  • If XYZ sold the 100 million bond on 6/30/X2, the
    remaining OCI balance is reclassified into
    earnings because the hedged item no longer
    affects earnings.

75
New Example
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76
CASE 8 Fair Value Hedge of AFS Security
  • XYZ owns 1,000 shares of ABC worth 100 each
    (100,000)
  • XYZ wants to hedge downside price risk
  • On 1/1/X1, XYZ purchases an at-the-money put
    option on 1,000 ABC shares expiring in 6 months
    exercise price is 100 option premium is 15,000
  • Effectiveness is measured by comparing decreases
    in fair value of investment with intrinsic value
    of option

77
CASE 8Fair Value Hedge of AFS Security
Value at Value at Gain/ 1/1/X1
3/31/X1 (Loss) ABC Shares 100,000
98,000 ( 2,000) Put Option Intrinsic value
0 2,000 2,000 Time value
15,000 8,000 (7,000) Total
15,000 10,000 ( 5,000)
Note The time value of the option includes the
volatility value and the effects of discounting.
78
CASE 8Fair Value Hedge of AFS Security
  • Journal entry at 1/1/X1
  • Option Contract 15,000
  • Cash 15,000
  • To record payment of option premium
  • No journal entry for hedged item

79
CASE 8Fair Value Hedge of AFS Security
  • Journal entries at 3/31/X1
  • Earnings 2,000
  • Investment in ABC 2,000
  • To record loss on investment in ABC
  • Earnings (time value) 7,000
  • Option contract 5,000
  • Earnings (intrinsic value) 2,000
  • To record activity up to 3/31/X1
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