This paper discusses design methodology of high-throughput arithmetic pipeline modules for an FPGA-based biochemical simulator. Since limitation of data-input bandwidth caused by port constraints often has a negative impact on pipeline scheduling results, we propose a priority assignment method of input data which enables efficient arithmetic pipeline scheduling under given input port constraints. Evaluation results with frequently used rate-law functions in biochemical models revealed that the proposed method achieved shorter latency compared to ASAP and ALAP scheduling with random input orders, reducing hardware costs by 17.57% and by 27.43% on average, respectively.The original publication is available at www.springerlink.co
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In today's heterogenous computing world, field-programmable gate arrays (FPGA) represent the energy-...
We present Golden Gate, an FPGA-based simulation tool that decouples the timing of an FPGA host plat...
We present Golden Gate, an FPGA-based simulation tool that decouples the timing of an FPGA host plat...
This paper discusses design methodology of high-throughput arithmetic pipeline modules for an FPGA-b...
For FPGA-based scientific simulation systems, hardware design technique that can reduce required amo...
Modeling and simulation of a cellular system on computers are now becoming an essential process in b...
In order to simulate large scale biological models with a reconfigurable FPGA-based biochemical simu...
We present a high-level synthesis framework to synthesize optimized hardware on FPGAs from algorithm...
Traditional techniques for pipeline scheduling in high-level synthe-sis for FPGAs assume an additive...
Emulation of a large system on a multi-FPGA platform not only involves partitioning the system into ...
Simulation of chemical systems allows bio-chemists to under-stand how the interactions of individual...
This paper introduces a scalable FPGA implementation of a stochastic simulation algorithm (SSA) call...
Stochastic simulation of large-scale biochemical reaction networks, with thousands of reactions, is ...
This thesis explores the use of reconfigurable hardware in modeling chemical species reacting in a s...
Stochastic simulation of biochemical reaction networks are widely focused by life scientists to repr...
In today's heterogenous computing world, field-programmable gate arrays (FPGA) represent the energy-...
We present Golden Gate, an FPGA-based simulation tool that decouples the timing of an FPGA host plat...
We present Golden Gate, an FPGA-based simulation tool that decouples the timing of an FPGA host plat...