Finite Difference Method for the Multi-Asset Black–Scholes Equations
Sangkwon Kim, Darae Jeong, Chaeyoung Lee, Junseok Kim
Abstract
In this paper, we briefly review the finite difference method (FDM) for the Black–Scholes (BS) equations for pricing derivative securities and provide the MATLAB codes in the Appendix for the one-, two-, and three-dimensional numerical implementation. The BS equation is discretized non-uniformly in space and implicitly in time. The two- and three-dimensional equations are solved using the operator splitting method. In the numerical tests, we show characteristic examples for option pricing. The computational results are in good agreement with the closed-form solutions to the BS equations.
Topics & Concepts
DiscretizationFinite difference methodBlack–Scholes modelFinite differenceMATLABMathematicsDerivative (finance)Valuation of optionsNumerical analysisApplied mathematicsOperator splittingSpace (punctuation)Mathematical analysisComputer scienceFinanceEconomicsEconometricsVolatility (finance)Operating systemDifferential Equations and Numerical MethodsStochastic processes and financial applicationsNumerical methods for differential equations