graduate school of business global risk management: a
TRANSCRIPT
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GRADUATE SCHOOL OF BUSINESS
Global Risk Management: A Quantitative Guide
Credit Risk Management
Ren-Raw ChenFordham University
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• Bankruptcy
• Rating migration
• Spread change
Types of Credit Risk
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• Bankruptcy
– ~ default
– US Treasuries interests as risk-free rates
Types of Credit Risk
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• Bankruptcy
• Rating migration
– AAA ~ D
– represent likelihood of bankruptcy
– rating change price changes (stocks & bonds)
– upgrade prices rise; downgrade fall
– credit analysts (vs. equity analysts)
– downgrade price drop risk
Types of Credit Risk
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• Bankruptcy
• Rating migration
• Spread change
– ratings change infrequently
– spreads are traded (via bonds)
– higher spreads lower bond prices risk
– spread risk is market risk
– higher spreads ultimately lead to downgrade
Types of Credit Risk
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• Probability of default (PD)
• Recovery (or LGD, loss given default)
– Equity investors
• Almost nothing
– Bond investors
• Recovery
• Secured – 80~90% (due to drop in value)
• Senior unsecured – 40%
• Junior unsecured – 15%
– Jump to default risk (now popular)
Bankruptcy
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• One step before bankruptcy
• Rating announcements carry information
• BBB or higher vs. BB or lower
– buy and sell pressure
– due to pension fund regulation
• Large literature (details later)
Migration
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Migration
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• Day to day risk
– market risk
– hedgeable
• CVA
– CDS
– Correlation risk
Spreads
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The Market
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The Market
Source: http://viableopposition.blogspot.com/
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The Market
Source: Federal Reserve Board
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The Market
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The Market
Source: FDIC
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The Market
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• For bankruptcy– accounting
• Altman Z
• Ohlson O
– finance• reduced-form
– Jarrow-Turnbull 1995, Duffie-Singleton 1997
• structural– Black-Scholes-Merton, Geske 1977, Leland 1990
• Hybrid– Black-Cox 1976, CreditGrades
Model
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• For migration
– Markov chain
• Jarrow-Lando-Turnbull
• weak link to default
• no link to spread
• For spread
– Black-Scholes
• no link to default
• no link to migration
Model
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• Two building blocks
– PD (probability of default)
– LGD (loss given default)
• = 1 – recovery
• = exposure at default (note: exposure = notional)
• Measures
– EL, UL, EAD, JTD, etc.
Measures of Credit Risk
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• Measures
– EL/UL (expected loss; unexpected loss)
– EAD (exposure at default)
– JTD (jump to default)
– spread01 (1 bp spread moves)
– spread duration
– …, etc.
Measures of Credit Risk
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• Traditional assets
– bonds: corporate, municipal, sovereign
– securitized assets: CMBS, ABS, …, etc.
• Modern derivatives
– CDS (credit default swap)
– FTD/NTD (first-to-default/nth-to-default)
– CDO (collateralized debt obligation)
– …, etc.
Instruments to Transfer Credit Risk
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Credit Default Swap (CDS)
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Credit Default Swap (CDS)
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• source BBA
Credit Default Swap (CDS)
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• source BBA
Credit Default Swap (CDS)
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Credit Default Swap (CDS)
Spread
Default occurs
Principal+accrued interest-recovery
T0
Seller
Buyer
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• A swap example:
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Credit Default Swap (CDS)
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Credit Default Swap (CDS)
Spread
Default occurs
Principal+accrued interest-recovery
T0
Seller
Buyer
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Credit Default Swap (CDS)
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• Back-of-the-envelope formula
Credit Default Swap (CDS)
p
1 p− pay spread (s) if survive
receive 1 - R
if default
(1 ) (1 )
1
p R p s s
sp
R
− = − ≈
=−
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• pi: default prob; Qi: survival prob
Credit Default Swap (CDS)
recovery
recovery
3p
4p
coupon +
principal
1p
2p
coupon
coupon
coupon
recovery
recovery
11 p−
21 p−
31 p−
41 p−
1Q
2Q
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• Quotes (Disney 12/23/2005)
Credit Default Swap (CDS)
term sprd
1 9
2 13
3 20
5 33
7 47
10 61
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Credit Default Swap (CDS)
1p
1 11Q p= − spread = 0.0009 if survive
1 - recovery rate = 0.6 if default
( )
1
1 1
1
1
10.6 0.0009
1.05 1.05
0.9985
14.99 basis points
Q Q
Q e λ
λ
−
−× ×=
= =
=
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Credit Default Swap (CDS)
spread =
0.0013
1 0.0015p = 2p
21 p−1 0.9985Q =
spread =
0.0013
1 - recovery =
0.6 1 - recovery =
0.6
2Q
2
2
2
2
2
2 22
1
2 1
1
prem leg =
0.00130.0013 0.9985
1.05 1.050.9985 0.60.0015 0.6
1.05 1.05 def leg
sub in 1 10.9985
hence, 0.9956
hence, 28.65 basis points
Q
p
Q Qp
Q
Q Q e λ
λ
−
××+ =
× ××+ =
= − = −
= =
=
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Credit Default Swap (CDS)
CDS Bootstrapping
Market Risk-free Fwd. Surv.Pr. Def.Pr.
Term Spread P(t) lambda(t) Q(t) -dQ(t)
1 0.0009 0.9512 0.0015 0.9985 0.0015
2 0.0013 0.9048 0.0029 0.9956 0.0029
3 0.002 0.8607 0.0059 0.9898 0.0058
4 0.7788 0.0092 0.9808 0.0091
5 0.0033 0.7788 0.0092 0.9718 0.009
smoothing
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• Bilateral financial contracts
• Allow the transfer of credit risk from one party to another. Using these products, investors may hedge themselves against credit risk
• Related to some risk or volatility
• Do not require initial investment
• Credit event: bankruptcy, failure to pay, restructuring etc.
Credit Default Swap (CDS)
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• Two parties: protection buyer, protection seller
• Do not require either of the parties to actually hold the reference asset
• Two ways of settlement: cash and physical
• An over-the-counter contract that provides insurance against credit risk.
Credit Default Swap (CDS)
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• The protection buyer pays a fixed fee or premium, often termed as the “spread” to the seller for a period of time.
• When a credit event occur at some point before the contract's maturity, the protection seller pay compensation to the buyer of protection, thus insulating the buyer from a financial loss.
Credit Default Swap (CDS)
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• CDS can be viewed as a put option: if one default event occurs, the bond can be put back to the seller at the principal.
• CDS is similar to an insurance contract, providing buyers with protection against specific risks.
Credit Default Swap (CDS)
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• CDS benefits
– a short positioning vehicle not available in the cash market
– access to maturity exposures not available in the cash market
– does not require an initial cash outlay
– access to credit risk not available in the cash market due to a limited supply of the underlying bonds
Credit Default Swap (CDS)
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– ability to effectively “exit” credit positions in periods of low liquidity
– off-balance sheet instruments which offer flexibility in terms of leverage
– provide important anonymity when shorting an underlying credit
Credit Default Swap (CDS)
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The CDS Big Bang: an exampleConsider a CDS contract on Bank of America with notional value of10M dollars. The quoted 5Y CDS spread is 326 basis points. Aprotection buyer needs to
•Before the Big Bang: pay $326,000 per year
•After the Big Bang:
– fixed 100: pay $990,254 upfront plus $100,000 per year
– fixed 500: receive $756,788 upfront and pay $500,000
1Y 2Y
…
1Y 2Y
…
1Y 2Y
…
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• CDS is a perfect match/hedge for the corporate floater
– CDS spread is LIBOR spread
• Perfectly matched cash flows under default
• Perfectly matched cash flows under survival
• CDS is a close fit for the corporate fixed
– CDS spread is close approximation to T yield spread
• Not so perfectly matched cash flows in either case
CDS vs. Bond
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• pi: default prob; Qi: survival prob
CDS vs. Bond
1 - recovery
1 - recovery
3p
4p
spread
1p
2p
spread
spread
spread
1 - recovery
1 - recovery
11 p−
21 p−
31 p−
41 p−
1Q
2Q
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• Black-Scholes-Merton model
Structural Models
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• Black-Scholes-Merton model
– the Black-Scholes model (1973) is for option
– Black and Scholes recognize:
• equity (E) = call (C); stock (S) = asset (A)
– as a result, debt = covered call
Structural Models
0
S K C S K
S K C
≥ = −
< = 0
A K E A K
A K E
≥ = −
< =
A K D K
A K D A
≥ =
< =
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• Merton (1974) took it and did a wide variety of analyses of credit risk
• Stephen Kealhofer, Michael McQuownand Oldrich Vasicek founded KMV in 1988
– later acquired by Moody’s in 2002
– use the Merton model to provide quantitative ratings – first in the world!!!
• Merton model = KMV model
Structural Models
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• KMV (Black-Scholes-Merton) method
Structural Models
0
50
100
150
200
250
300
350
400
0 4 8 12 16 20 24 28 32 36 40 44 48 52
Weeks
DD
PD
T
t
T
T T
T
A K
E A K
D K
>
⇓
= − =
0
T
T
T T
A K
E
D A
<
⇓
= =
tA
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• Equity vs. Asset
Structural Models
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• KMV
Structural Models
Asset Value
Risk-free Debt
Value Risky Debt
Value
Loss Given Default
Asset Value
Asset Value
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• Equity is a call option (Black-Scholes)
• where
Structural Models
( )1 2
1
( ) ( ) ( ) ( )
[ ( )/ ( )] ( )
r T t
E A
E t A t N d e KN d
A t E t N dσ σ
− −= −
=
2
2
1 2
ln ( ) ln ( ½ )( )A
A
A
A t K r T td
T t
d d T t
σ
σ
σ
− + − −=
−
= + −
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• KMV
– K 1-year debt (=STD+0.5×LTD); σA asset vol; σE equity vol; r risk-free rate; T-t time horizon; E equity value; A asset value; N(.) normal probability;
• Note
• PD
Structural Models
( )1 2( ) ( ) ( ) ( )[1 ( )] ( )
Recovery value Survival value
r T tD t A t E t A t N d e KN d− −= − = − +���������� ���������
1 2
2
( )
1 ( )
Q N d
p N d
=
= −
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• KMV
– DD = d2
– Expected recovery
Structural Models
1
[ ( ) | ]
( )(1 ( ))
R AT A K
A t N d
= <
= −
E
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• Multiple debts
– Geske
• discrete time
• flexible capital structure
– Leland
• continuous time
• steady state capital structure
Structural Models
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• Geske (2-pd)
– Equity value (market cap)
– K1 debt value
– K2 debt value
Structural Models
1( )0,1 0 1 1 1( ) ( )r T tD AN y e K N y− −
+ −= − +
2 1( ) ( )0 0 1 2 2 1 2 1 1( , ; ) ( , ; ) ( )r T t r T tE AM h h e K M h h e K N hρ ρ− − − −
+ + − − −= − −
1
2
0,2 0 0,1 0
( )0 1 1 2 1 1 1
( )2 1 2
( ( ) ( , ; )) ( ( ) ( ))
( , ; )
r T t
r T t
D A D E
A N y M h h e K N y N h
e K M h h
ρ
ρ
− −+ + + − −
− −− −
= − −
= − − −
+
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• Geske
– Total liabilities
– Survival probabilities (and PDs)
Structural Models
1 2
0,1 0,2 0 1 2
( ) ( )1 1 2 1 2
[1 ( , ; )]
Recovery
( ) ( , ; )1st Yr Survival 2nd Yr Survival
r T t r T t
D D A M h h
e K N h e K M h h
ρ
ρ
+ +
− − − −− − −
+ = −
+ +
��������������
������������ ���������������
1 2
1
1 1
2 1 2
1 1
2
( )
( , ; )
1
Q Q
Q
Q N h
Q M h h
p Q
p
ρ
−
− −
−
=
=
= −
=
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• Geske
– default barrier is A <> sum of all debts:
(K1 + D12)
Structural Models
12 1( )D A12 1( )D A
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• Geske
Structural Models
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First to Default (FTD)
• Joint default
( | ) ( ) or( )
( | ) ( )
p A B p Bp A B
p B A p A
∩ =
( ) ( | ) ( )
( )
10%
p A B p B A p A
p A
∩ =
=
=
A
B
0 80% 0 80%
1 10% 10% 20%
90% 10% 100%
0 1
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First to Default (FTD)
( ) ( | ) ( )
( )
10%
p A B p B A p A
p A
∩ =
=
=
( ) 10%( | ) 100%
( ) 10%
p A Bp B A
p A
∩= = =
( ) 10%( | ) 50%
( ) 20%
p A Bp A B
p B
∩= = = A only 50% depends on B
Default correlation = 0.6667 (highest possible)
B completely depends on A
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First to Default (FTD)
A
B
0 70% 10% 80%
1 20% 0% 20%
90% 10% 100%
0 1
( ) ( | ) ( )
( )
0%
p A B p B A p A
p A
∩ =
=
=
( ) 0%( | ) 0%
( ) 10%
p A Bp B A
p A
∩= = =
( ) 0%( | ) 0%
( ) 20%
p A Bp A B
p B
∩= = =
B opposite of A
A opposite of B
Default correlation = -0.1667 (lowest possible)
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• Default correlation reaches 1 as pA=pB
• Default correlation reaches –1 as pA+pB=1
• Multi-party becomes more complex
First to Default (FTD)
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• In the event of perfect dependency, i.e. p(B|A)=1, the basket valuation is:
First to Default (FTD)
1[ ( ) ( ) ( | ) ( )]
11
( )1
V p A p B p B A p Ar
p Br
= + −+
=+
![Page 63: GRADUATE SCHOOL OF BUSINESS Global Risk Management: A](https://reader036.vdocument.in/reader036/viewer/2022081421/62a1b8817680b302de61f726/html5/thumbnails/63.jpg)
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• In the event of perfectly negative dependency, i.e. p(B|A)=0, the basket valuation becomes:
First to Default (FTD)
1[ ( ) ( ) ( | ) ( )]
11
[ ( ) ( )]1
V p A p B p B A p Ar
p A p Br
= + −+
= ++
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Collateral Debt Obligation (CDO)
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• Types
– cash CDO (real bonds)
– synthetic CDO (CDS)
• by action
– cash-flow CDO (boxed)
– market-value CDO (non-boxed)
• by sponsor
– arbitrage CDO (active)
– balance-sheet CDO (passive)
Collateral Debt Obligation (CDO)
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– http://thismatter.com/money/bonds/types/cdo.htm
Collateral Debt Obligation (CDO)
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• Waterfall
Collateral Debt Obligation (CDO)
Tranche loss
Equity
tranche
Mezzanine tranche
Senior tranche
Total loss
1K
2K
0K
3K
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• Valuation
– loss distribution
Collateral Debt Obligation (CDO) Tranche
loss
Equity tranche
Mezzanine tranche
Senior tranche
Total loss
1K
2K
0K
3K
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• Risky bond + CDS = risk-free bond
– hence, risky bond = risk-free bond - CDS
– i.e. risky bond = long risk-free bond and short CDS (provide protection)
– e.g. $100 mil risky bonds = $100 mil Treasury and $100 mil CDS (which has no value)
– Treasury is collateral
• if no collateral, then no treasury
Synthetic CDO
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Synthetic CDO
POOL
A
B
Z
CDS
CDS
CDS
$1,250
million
$1,250
million
default
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$1,250
million
$6 million
$4 million
LOSS
WDFA
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• CDX
– a CDX CDO is a CDO with 125 credit default swaps (8% each) with US$10 million notional
– 0-3%, 3-7%, 7-10%, 10-15%, and 15-30%.
– very liquid (more liquid than single name CDS)
Collateral Debt Obligation (CDO)
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• Copula (how to correlate defaults)
– Gaussian copula (solve the dependency problem)
– Key equations
Collateral Debt Obligation (CDO)
ˆ ˆ1i M ix W Wρ ρ= + −
� ( ) � ( )
� ( )
( )
( )1
|
1
1
ˆ( )
1
ˆ Pr | Pr 1
Pr i
i
i
i f i i M i i
f K
i
K f
N p f
p x K W f f W K
W
N
N
ρ
ρ
ρ
ρ
ρ
ρ
ρ ρ
−
−
−
−
−
−
−
= < = = + − <
<=
=
=
![Page 74: GRADUATE SCHOOL OF BUSINESS Global Risk Management: A](https://reader036.vdocument.in/reader036/viewer/2022081421/62a1b8817680b302de61f726/html5/thumbnails/74.jpg)
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• Vasicek (approx.) Model
– Conditional binomial model
– Equations
Collateral Debt Obligation (CDO)
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• Vasicek (approx.) Model
– Vasicek (approx.) Model
Collateral Debt Obligation (CDO)
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• Moody’s binomial model
– BET (binomial expansion technique)
– N names, K independent names (smaller K, higher correlation; K=N, total independence)
Collateral Debt Obligation (CDO)
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• Loss distribution from coupla
– Fourier inversion
– Recursive algorithm
Collateral Debt Obligation (CDO)
prob(rho=0)
-0.02
0
0.02
0.04
0.06
0.08
0.1
0.12
0.14
0.16
0 3 6 9 12 15 18 21 24 27 30 33 36 39 42 45 48 51 54 57 60
Loss
prob(rho=0.5)
0
0.02
0.04
0.06
0.08
0.1
0.12
0.14
0.16
0.18
0 3 6 9 12 15 18 21 24 27 30 33 36 39 42 45 48 51 54 57 60
Loss
prob(rho=0.9)
-0.1
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0 3 6 9 12 15 18 21 24 27 30 33 36 39 42 45 48 51 54 57 60
Loss
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• Model ranks
– nTD (best, most complete)
– Coupla (simplified, good enough)
– Vasicek (one spread for all)
– Moody’s BET (no explicit correlation, subjective)
Collateral Debt Obligation (CDO)
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• Problems identified with such a loss distribution
– thin tranches (100 tranche CDO)
– CDO^2, CDO^3, ...
– mezzanine tranches difficult to price
Collateral Debt Obligation (CDO)
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• Tranche expected loss
Collateral Debt Obligation (CDO)
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• Tranche spread
Collateral Debt Obligation (CDO)
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• A Cat analogy
– Cats have nine lives (JPM)
Collateral Debt Obligation (CDO)
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• Early warning signal
• Quantitative rating
• KMV-Moodys
• Altman’s Z
• Olhson’s O
Default Prediction
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• Basics
– default firms (left)
– survival firms (right)
– models compute DDs
– good model (right) vs. bad model (left)
Default Prediction
DD
Default Survival
DD
Default Survival
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• ROC (Receiver Operating Characteristic)
– used in medical research
– false positive and false negative (vaccine)
– now used in default model testing
Default Prediction
ROC Curve
0
0.2
0.4
0.6
0.8
1
0 0.2 0.4 0.6 0.8 1
True Positive
True Negative
False Negative
False Positive
ROC Curve
0
0.2
0.4
0.6
0.8
1
0 0.2 0.4 0.6 0.8 1
More Powerful Model
Less Powerful Model
Model with no power
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• Steps
– collect all default firms (not many)
– collect all survival firms (many)
– calculate DDs for all firms
– sort them by DD (horizontal axis)
– for each DD bucket, compute % default
– plot ROC
– compute area
Default Prediction
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• Questions
– two samples are not in proportion
• one extremely few and one extremely many
– hard to decide what to include
• too many survival firms
– hard to get default data
• some defaults happened long ago
Default Prediction
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• Basic intuition (single name)
EL and UL
Default => 1 R−
No default => 0
p
1 p−
EL (1 )p R= −
UL (1 )(1 )p p R= − −
UL highest when p = 0.5
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• Portfolios
– difficult to measure accurately
– use standard deviation
EL and UL
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• CECL (current expected credit losses)
– fair value accounting
– June 2016
– replaces ALLL (allowance for loan and lease losses)
– no specific methodology (IRB)
EL and UL
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• Skewed loss distribution
• Term structure of CVaR (Basel II)
– no more Gaussian, no more scalability
– highly dependent on models
• Difficulties to use models on banks
– Banks are highly levered
– Case study of Lehman (CCIS 2014)
Credit VaR
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• Became important after the crisis
• quantifies counterparty risk
• trading desk (transfer pricing)
• DVA – CVA to the counterparty
– worsening credit (DVA falls) helps NI
– correlation of credit and other products
CVA
Ironic?!
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• An old method: exposure (call option)
CVA
Exposure
Moneyness of Deal
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• Valuation
– = CDS protection value
• An example (IRS)• A pays fixed 4%
• B is BBB rated; CDS spread is 200 bps
• A needs to hedge for B’s default
• A books the trade at 6% -- true cost
• IRS matches with CDS
CVA
Receives floating
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• A different example (bond)• A buys a Treasury bond from B ($100 face)
• B CDS spread is 200 basis points
• PV 5 years of 200 bps is, say 6.2% ($6.2)
• cost to A is $106.2
• Complexities
– correlation among counter parties
– correlation between assets and counter parties
CVA
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• EAD (exposure at default)
– exp’ted recoveries fr counterparties
– exp’ted exposures fr CPs (IRS values)
– correlations among defaults
• Similar to FTD/NTD
CVA
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CVA
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• CVA - DVA
CVA
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• Wrong Way Risk (WWR)
– In general, the exposure with a CP is not independent of the CP’s credit quality
– Wrong Way Risk is cases where the exposure increases when the credit quality of the CP deteriorates – i.e. exposure tend to be high when PDs are high
CVA
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• WWR
– Negative correlation between PD and LDG (source: Altman)
CVA
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• Two types of WWR– General WWR: the CP’s credit quality is for
correlated with macroeconomic factors which also affect the value of the derivatives (e.g. correlation between declining corporate credit quality and high (or low) interest rates causing higher exposures –such as long IRS)
– Specific WWR: CP’s exposure is highly correlated with CP’s PD. (e.g. a company writing put options on its own stock, derivatives collateralized by own shares)
CVA
rates high, expo high, CP quality low
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• WWR quantification is still an open challenge other than the self referencing specific WWR due to:
– Difficulty to separate statistical noise from systematic correlation
– Challenge of dynamic forward looking adjustment to historical calibration
CVA
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• CVA is based upon a set of exposures X (vector) which are random
• X are functions of a set of CP-specificand macro risk factors y (vector)
• y can be modeled as (e.g. PCA):
• This is a common modeling structure.
CVA Sensitivity and Hedging
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• CVA Sensitivity is straight forward by definition:
• CCDS (contingent CDS)
– CVA securitized
– perfect hedge of CVA
CVA Sensitivity and Hedging
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• Meaningful hedging and P&L explain: a long way to go– Common hedges on the street
• Counterparty credit spread delta, FX delta, IR delta, FX vega
– In progress and outstanding • IR Vega, FX/IR Gamma, Cross Gamma - WWR
– Additional note • CVA hedging and P&L explain gap, Debt/Liability DVA management
• Direction of CVA desk’s roles and performance factors – real PnL, VaR capital mitigation, counterparty risk capital mitigation
• Difficulty to draw clear line between hedging to limit risk and hedging for profit
CVA
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• Practical challenges
– Path dependent impact: early exercise, Barrier, Bermudan
– Recalibration noise: bucketed FX Vega/IR Delta/IR Vega
– IR Vega and cross gamma for meaningful hedging/P&L explain.
CVA
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• xVA
– CVA
– DVA
– FVA (funding)
– MVA (margin)
CVA
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• Pillar 1: Capital Adequacy• Min. of 8% (but now credit, market &
operational)
• Pillar 2: Supervisory Review• Supervisors responsible for ensuring banks have
sound internal processes to assess capital adequacy
• Pillar 3: Market Discipline• Enhanced disclosure by banks
• Sets out disclosure requirements
Basel II
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Reg(ulatory) Capital
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• Risk Weighted Assets are computed by:
– RWA = Banking Book RWA + Trading Book RWA
– Banking Book RWA = Position * Risk Weighting
• Trading Book RWA = Market Risk Capital / 8%
Reg(ulatory) Capital
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• Risk funding
– Black-Scholes world falls apart (risk-free funding)
• Borrowing and lending rates are functions of credit risk
• Counterparty charges
• Liquidity charges
– If borrowing cost is risky, then …
• Law of one price is broken (no unique pricing)
• Challenge to valuation
Other Topics
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• Variable margins
– Like futures contracts
• Futures-style margining
– No up front
– Margin is like a fee
– Pay/withdraw as we go
• Everything is a futures
– Off balancesheet
– Constant margin calls …
Other Topics