For FPGA-based scientific simulation systems, hardware design technique that can reduce required amount of hardware resources is a key issue, since the size of simulation target is often limited by the size of the FPGA. Focusing on FPGA-based biochemical simulation, this paper proposes hardware design methodology which finds and combines common datapath for similar rate law functions appeared in simulation target models, so as to generate area-effective pipelined hardware modules. In addition, similarity-based clustering techniques of rate law functions are also presented in order to alleviate negative effects on performance for combined pipelines. Empirical evaluation with a practical biochemical model reveals that our method enables the s...
In this paper we present a hardware realization of a simplified blood-pressure regulation mechanism....
Abstract — This paper shows how a general form of algorithms consisting of a loop with loop dependen...
Pattern matching in bio-informatics is a discipline in sturdy growth, and has a great need for searc...
In order to simulate large scale biological models with a reconfigurable FPGA-based biochemical simu...
This paper discusses design methodology of high-throughput arithmetic pipeline modules for an FPGA-b...
This paper introduces a scalable FPGA implementation of a stochastic simulation algorithm (SSA) call...
Simulation of chemical systems allows bio-chemists to under-stand how the interactions of individual...
Stochastic simulation of biochemical reaction networks are widely focused by life scientists to repr...
Modeling and simulation of a cellular system on computers are now becoming an essential process in b...
An original Very High Speed Integrated Circuit Hardware Description Language (VHDL) code generation ...
Emulation of a large system on a multi-FPGA platform not only involves partitioning the system into ...
This thesis explores the use of reconfigurable hardware in modeling chemical species reacting in a s...
An original VHDL code generation tool that can be used to automate Metabolic P (MP) system implement...
Boolean models are a powerful abstraction for the qualitative modeling of gene regulatory networks. ...
Stochastic simulation of large-scale biochemical reaction networks, with thousands of reactions, is ...
In this paper we present a hardware realization of a simplified blood-pressure regulation mechanism....
Abstract — This paper shows how a general form of algorithms consisting of a loop with loop dependen...
Pattern matching in bio-informatics is a discipline in sturdy growth, and has a great need for searc...
In order to simulate large scale biological models with a reconfigurable FPGA-based biochemical simu...
This paper discusses design methodology of high-throughput arithmetic pipeline modules for an FPGA-b...
This paper introduces a scalable FPGA implementation of a stochastic simulation algorithm (SSA) call...
Simulation of chemical systems allows bio-chemists to under-stand how the interactions of individual...
Stochastic simulation of biochemical reaction networks are widely focused by life scientists to repr...
Modeling and simulation of a cellular system on computers are now becoming an essential process in b...
An original Very High Speed Integrated Circuit Hardware Description Language (VHDL) code generation ...
Emulation of a large system on a multi-FPGA platform not only involves partitioning the system into ...
This thesis explores the use of reconfigurable hardware in modeling chemical species reacting in a s...
An original VHDL code generation tool that can be used to automate Metabolic P (MP) system implement...
Boolean models are a powerful abstraction for the qualitative modeling of gene regulatory networks. ...
Stochastic simulation of large-scale biochemical reaction networks, with thousands of reactions, is ...
In this paper we present a hardware realization of a simplified blood-pressure regulation mechanism....
Abstract — This paper shows how a general form of algorithms consisting of a loop with loop dependen...
Pattern matching in bio-informatics is a discipline in sturdy growth, and has a great need for searc...