Pipeline Scheduling with Input Port Constraints for an FPGA-Based Biochemical Simulator

机译：基于FPGA的生化模拟器具有输入端口约束的管线调度

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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.

机译：本文讨论了基于FPGA的生化模拟器的高通量算术流水线模块的设计方法。由于端口约束导致的数据输入带宽限制通常会对流水线调度结果产生负面影响，因此我们提出了一种输入数据优先级分配方法，该方法可以在给定的输入端口约束下实现高效的算术流水线调度。生化模型中经常使用的速率律函数的评估结果表明，与随机输入订单的ASAP和ALAP调度相比，该方法实现了更短的延迟，分别平均降低了硬件成本17.75％和27.43％。

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来源
《Reconfigurable computing : Architectures, tools and applications》|2009年|P.368-373|共6页
会议地点 Karlsruhe(DE);Karlsruhe(DE)
作者
Tomoya Ishimori; rnHideki Yamada; rnYuichiro Shibata; rnYasunori Osana; rnMasato Yoshimi; rnYuri Nishikawa; rnHideharu Amano; rnAkira Funahashi; rnNoriko Hiroi; rnKiyoshi Oguri;
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作者单位

Department of Computer and Information Sciences, Nagasaki University;

rnDepartment of Computer and Information Sciences, Nagasaki University;

rnDepartment of Computer and Information Sciences, Nagasaki University;

rnDepartment of Computer and Information Science, Seikei University;

rnDepartment of Information and Computer Science, Keio University;

rnDepartment of Information and Computer Science, Keio University;

rnDepartment of Information and Computer Science, Keio University;

rnDepartment of Biosciences and Informatics, Keio University;

rn;

rnDepartment of Computer and Information Sciences, Nagasaki University;

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原文格式 PDF
正文语种 eng
中图分类计算技术、计算机技术;
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专利

1. ReCSiP: An FPGA-Based General-Purpose Biochemical Simulator [J] . Yasunori Osana, Masato Yoshimi, Yow Iwaoka, Electronics and Communications in Japan . 2007,第7期

机译：ReCSiP：基于FPGA的通用生化模拟器
2. ACTIVITY BASED SCHEDULING SIMULATOR FOR PRODUCT TRANSPORT USING PIPELINE NETWORKS [J] . Danilo Shibata, Daniel Alfenas, Ricardo Guiraldelli, Proceedings of the Workshop on Principles of Advanced and Distributed Simulation . 2012,第CDaROM期

机译：管道网络的基于活动的产品运输调度仿真器
3. Pipeline-scheduling Simulator for Educational Purpose [J] . José M. Chaves-González, Miguel A. Vega-Rodríguez, Juan A. Gómez-Pulido, Journal of Universal Computer Science . 2007,第7期

机译：用于教育目的的管道调度模拟器
4. Pipeline Scheduling with Input Port Constraints for an FPGA-Based Biochemical Simulator [C] . Tomoya Ishimori, Hideki Yamada, Yuichiro Shibata, International Workshop of Applied Reconfigurable Computing . 2009

机译：管道调度与基于FPGA的生物化学模拟器的输入端口约束
5. Study on chemical vessels scheduling problem in a port in a port, using mip, cp, and priority job scheduling heuristics [D] . Cankaya, Mehmet Burak. 2017

机译：港口港口化化学船舶调度问题的研究，使用MIP，CP和优先职位调度启发式
6. An FPGA-Based Massively Parallel Neuromorphic Cortex Simulator [O] . Runchun M. Wang, Chetan S. Thakur, André van Schaik 2018

机译：基于FPGA的大规模并行神经形态皮质模拟器
7. Pipeline scheduling with input port constraints for an FPGA-based biochemical simulator [O] . Ishimori Tomoya, Yamada Hideki, Shibata Yuichiro, 2009

机译：基于FpGa的生化模拟器的输入端口约束的流水线调度

Pipeline Scheduling with Input Port Constraints for an FPGA-Based Biochemical Simulator

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