Super-Fast Computation for the Three-Asset Equity-Linked Securities Using the Finite Difference Method

• Main Authors: Chaeyoung Lee, Jisang Lyu, Eunchae Park, Wonjin Lee, Sangkwon Kim, Darae Jeong, Junseok Kim
• Format: Article
• Language: English
• Published: MDPI AG 2020-02-01
• Series: Mathematics
• Subjects: super-fast computation; equity-linked securities; black–scholes equations; finite difference method
• Online Access: https://www.mdpi.com/2227-7390/8/3/307
• ISSN: 2227-7390

In this article, we propose a super-fast computational algorithm for three-asset equity-linked securities (ELS) using the finite difference method (FDM). ELS is a very popular investment product in South Korea. There are one-, two-, and three-asset ELS. The three-asset ELS is the most popular financial product among them. FDM has been used for pricing the one- and two-asset ELS because it is accurate. However, the three-asset ELS is still priced using the Monte Carlo simulation (MCS) due to the curse of dimensionality for FDM. To overcome the limitation of dimension for FDM, we propose a systematic non-uniform grid with an explicit Euler scheme and an optimal implementation of the algorithm. The computational time is less than 6 s. We perform standard ELS option pricing and compare the results from the fast FDM with the ones from MCS. The computational results confirm the superiority and practicality of the proposed algorithm.