使用PDE方法对图形处理单元上的多资产美式期权定价

2010 IEEE Workshop on High Performance Computational Finance Pub Date : 2010-12-20 DOI:10.1109/WHPCF.2010.5671831

D. Dang, C. Christara, K. Jackson

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引用次数: 8

摘要

我们通过偏微分方程(PDE)方法在图形处理单元(gpu)上开发了多资产美式期权的高效并行定价方法。自由边界引起的线性互补问题用惩罚法处理。考虑了均匀网格上的有限差分法对偏微分方程进行空间离散，而经典的有限差分法如Crank-Nicolson法对偏微分方程进行时间离散。每个时间步的离散非线性惩罚方程采用惩罚迭代求解。采用一种基于gpu的并行交替方向隐式近似分解技术，对每次惩罚迭代产生的线性代数方程组进行求解。通过对三种资产的美式期权进行定价，验证了并行数值方法的有效性和准确性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Pricing multi-asset American options on Graphics Processing Units using a PDE approach

We develop highly efficient parallel pricing methods on Graphics Processing Units (GPUs) for multi-asset American options via a Partial Differential Equation (PDE) approach. The linear complementarity problem arising due to the free boundary is handled by a penalty method. Finite difference methods on uniform grids are considered for the space discretization of the PDE, while classical finite differences, such as Crank-Nicolson, are used for the time discretization. The discrete nonlinear penalized equations at each timestep are solved using a penalty iteration. A GPU-based parallel Alternating Direction Implicit Approximate Factorization technique is employed for the solution of the linear algebraic system arising from each penalty iteration. We demonstrate the efficiency and accuracy of the parallel numerical methods by pricing American options written on three assets.

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2010 IEEE Workshop on High Performance Computational Finance

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