A framework for ODE-based multimodel biochemical simulations on an FPGAs

Author

Osana, Yasunori ; Fukushima, Tomonori ; Yoshimi, Masato ; Iwaoka, Yow ; Amano, Hideharu ; Funahashi, Akira ; Hiroi, Noriko ; Kitano, Hiroaki ; Shibata, Yuichiro ; Iwanaga, Naoki

Author_Institution

Keio Univ., Yokohama, Japan

fYear

2005

fDate

24-26 Aug. 2005

Firstpage

574

Lastpage

577

Abstract

Today, mathematical modeling and simulation of biochemical pathways take a major role in biological researches. However, modern microprocessors cannot provide enough throughputs to explore the large parameter space of target pathways. To address this problem, ReCSiP (a reconfigurable cell simulation platform), an FPGA-based biochemical simulator is proposed. It´s an ODE-based simulator, which solves the rate-law functions. The framework proposed in this paper, enables to simulate pathways consisting many different types of chemical reactions by connecting the rate-law modules (solvers) on an FPGA. It provides the solver-to-solver communication mechanism on an FPGA and automatic configuration software to generate the circuit.

Keywords

biology computing; field programmable gate arrays; ReCSiP; automatic configuration software; biochemical pathways; biochemical simulator; biological researches; chemical reactions; field programmable gate arrays; microprocessors; multimodel biochemical simulations; rate-law functions; reconfigurable cell simulation platform; Biological system modeling; Circuit simulation; Computational modeling; Field programmable gate arrays; Kinetic theory; Libraries; Mathematical model; Microprocessors; Symbiosis; Throughput;

fLanguage

English

Publisher

ieee

Conference_Titel

Field Programmable Logic and Applications, 2005. International Conference on

Print_ISBN

0-7803-9362-7

Type

conf

DOI

10.1109/FPL.2005.1515788

Filename

1515788