mbsoas2price

Price given option-adjusted spread

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Syntax

Price = mbsoas2price(ZeroCurve,OAS,Settle,Maturity,IssueDate,GrossRate)
Price = mbsoas2price(___,CouponRate,Delay,Interpolation,PrepaySpeed,PrepayMatrix)

Description

example

Price = mbsoas2price(ZeroCurve,OAS,Settle,Maturity,IssueDate,GrossRate) computes the clean price of a pass-through security for each $100 face value of outstanding principal.

example

Price = mbsoas2price(___,CouponRate,Delay,Interpolation,PrepaySpeed,PrepayMatrix) specifies options using one or more optional arguments in addition to the input arguments in the previous syntax.

Examples

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Open Live Script

Given an option-adjusted spread, a spot curve, and a prepayment assumption, compute theoretical price of a mortgage pool. First, create the bonds matrix: 

Bonds = [datenum('11/21/2002')  0        100  0  2  1;
         datenum('02/20/2003')  0        100  0  2  1;
         datenum('07/31/2004')  0.03     100  2  3  1;
         datenum('08/15/2007')  0.035    100  2  3  1;
         datenum('08/15/2012')  0.04875  100  2  3  1;
         datenum('02/15/2031')  0.05375  100  2  3  1];

Choose a settlement date. 

Settle = datenum('20-Aug-2002');

Assume the following clean prices for the bonds: 

Prices =  [ 98.97467;
            98.58044;
           100.10534;
            98.18054;
           101.38136;
            99.25411];

Use the following formula to compute spot compounding for the bonds: 

SpotCompounding = 2*ones(size(Prices));

Compute the zero curve. 

[ZeroRatesP, CurveDatesP] = zbtprice(Bonds, Prices, Settle);
ZeroCurve = [CurveDatesP, ZeroRatesP, SpotCompounding]
ZeroCurve = 6×3
105 ×

    7.3154    0.0000    0.0000
    7.3163    0.0000    0.0000
    7.3216    0.0000    0.0000
    7.3327    0.0000    0.0000
    7.3510    0.0000    0.0000
    7.4185    0.0000    0.0000

Assign the following parameters: 

OAS           = [26.0502; 28.6348; 31.2222];
Maturity      = datenum('02-Jan-2030');
IssueDate     = datenum('02-Jan-2000');
GrossRate     = 0.08125;
CouponRate    = 0.075;
Delay         = 14;
Interpolation = 1;
PrepaySpeed   = [0 50 100];

Calculate the theoretical price from the option-adjusted spread. 

Price = mbsoas2price(ZeroCurve, OAS, Settle, Maturity, ... 
IssueDate, GrossRate, CouponRate, Delay, Interpolation, ... 
PrepaySpeed)
Price = 3×1

  124.7133
  120.9534
  118.0698

Input Arguments

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Zero curve, specified as a three-column matrix, where:

  • Column 1 is serial date numbers.

  • Column 2 is spot rates with maturities corresponding to the dates in Column 1, in decimal (for example, 0.075).

  • Column 3 is the compounding value of the rates in Column 2. (This is the agency spot rate on the settlement date.) Allowable compounding values are: 1 (annual), 2 (semiannual, 3 (three times per year), 4 (quarterly), 6 (bimonthly), 12 (monthly), and -1 (continuous).

For example:

[datenum('1-Jan-2003')  0.0154  12;
 datenum('1-Jan-2004')  0.0250  12;
 ......
 datenum('1-Jan-2020')  0.0675   2];

Data Types: double | char | cell

Option-adjusted spreads, in basis points, specified as an NMBS-by-1 vector.

Data Types: double

Settlement date, specified as an NMBS-by-1 vector using serial date numbers or a cell array of date character vectors. Settle must be earlier than Maturity.

Data Types: double | char | cell

Maturity date, specified as an NMBS-by-1 vector using serial date numbers or a cell array of date character vectors.

Data Types: double | char | cell

Issue date, specified as an NMBS-by-1 vector using serial date numbers or a cell array of date character vectors.

Data Types: double | char | cell

Gross coupon rate (including fees), specified as an NMBS-by-1 vector of decimal values.

Data Types: double

(Optional) Net coupon rate, specified as an NMBS-by-1 vector of decimal values.

Data Types: double

(Optional) Delay (in days) between payment from homeowner and receipt by bondholder, specified as an NMBS-by-1 vector.

Data Types: double

(Optional) Interpolation method to compute the corresponding spot rates for the bond's cash flow, specified as an NMBS-by-1 vector. Available methods are (0) nearest, (1) linear, and (2) cubic spline. For more information on the supported interpolation methods, see interp1.

Data Types: double

(Optional) Speed relative to PSA standard, specified as an NMBS-by-1 vector. The PSA standard is 100.

Note

Set the PrepaySpeed to [] if you input a customized PrepayMatrix.

Data Types: double

(Optional) Customized prepayment vector, specified as a NaN-padded matrix of size max(TermRemaining)-by-NMBS. Each column corresponds to each mortgage-backed security, and each row corresponds to each month after settlement.

Note

Use PrepayMatrix only when PrepaySpeed is unspecified.

Data Types: double

Output Arguments

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Clean price of passthrough per $100 face of principal outstanding, returned as a NMBS-by-1 vector.

References

[1] PSA Uniform Practices, SF-49

See Also

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Topics

Introduced before R2006a

Financial Instruments Toolbox Documentation

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