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Implementing a Genetic Algorithm on a Parallel Custom Computing Machine

机译：在并行定制计算机上实现遗传算法

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Genetic algorithms (GAs) are a currently popular method for nonlinear optimization that can be used to provide a solution for the chip partitioning problem. Unfortunately, GAs usually require prohibitively large computation times on current workstations. This paper demonstrates the utility of the Armstrong III architecture by addressing the computational problems associated with partitioning large designs using GAs. An example GA is presented for chip partitioning that runs on Armstrong III. GA computation bottlenecks are identified and hardware implementation strategies are discussed. Results are presented that show the Armstrong III architecture can be adapted to execute a GA in significantly less time than current workstations.

机译：遗传算法（GA）是当前流行的非线性优化方法，可用于为芯片分配问题提供解决方案。不幸的是，GA在当前工作站上通常需要非常长的计算时间。本文通过解决与使用GA划分大型设计相关的计算问题，论证了Armstrong III架构的实用性。给出了用于在Armstrong III上运行的芯片分区的示例GA。确定了GA计算瓶颈，并讨论了硬件实现策略。结果表明，与当前工作站相比，阿姆斯特朗III架构可适应在短得多的时间内执行GA。

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《IEEE symposium on FPGAs for custom computing machines 》|1995年|180-187|共8页
会议地点 Napa Valley CA(US);Napa Valley CA(US)
作者
Nathan Sitkoff; Mike Wazlowski; Aaron Smith; Harvey Silverman;
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作者单位

Box D, Division of Engineering Brown University Providence RI, 02912;

Box D, Division of Engineering Brown University Providence RI, 02912;

Box D, Division of Engineering Brown University Providence RI, 02912;

Box D, Division of Engineering Brown University Providence RI, 02912;

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正文语种 eng
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1. A custom computing machine for genetic algorithms without pipeline stalls [J] . Osamu Kitaura, Hideaki Asada, Motoaki Matsuzaki, 計測自動制御学会論文集 . 1999 ,第11期

机译：用于遗传算法的定制计算机，无管道停顿
2. A custom computing machine for genetic algorithms without pipeline stalls [J] . Osamu Kitaura, Hideaki Asada, Motoaki Matsuzaki, 計測自動制御学会論文集 . 1999 ,第11期

机译：用于遗传算法的定制计算机，无管道停顿
3. A custom computing machine for genetic algorithms without pipeline stalls [J] . Osamu Kitaura, Hideaki Asada, Motoaki Matsuzaki, 計測自動制御学会論文集 . 1999 ,第11期

机译：用于没有管道摊位的遗传算法的定制计算机
4. Implementing a genetic algorithm on a parallel custom computing machine [C] . Sitkoff, N., Wazlowski, FPGAs for Custom Computing Machines, 1995. Proceedings. IEEE Symposium on . 1995

机译：在并行定制计算机上实现遗传算法
5. A genetic-algorithm-based approach for subtask matching and scheduling in heterogeneous computing environments and a comparative study of parallel genetic algorithms. [D] . Wang, Lee. 1997

机译：基于遗传算法的异构计算环境中子任务匹配和调度方法以及并行遗传算法的比较研究。
6. Bioinformatics algorithm based on a parallel implementation of a machine learning approach using transducers [O] . Abiel Roche-Lima, Ruppa K. Thulasiram -1

机译：生物信息学算法基于并行实现使用换能装置的机器学习方法
7. Genetic Algorithms In Software and In Hardware - A Performance Analysis Of Workstation and Custom Computing Machine Implementations [O] . Paul Graham, Brent Nelson 1996

机译：软件和硬件中的遗传算法 - 工作站和定制计算机实现的性能分析
8. Generalization and Parallelization of Messy Genetic Algorithms and Communicationin Parallel Genetic Algorithms [R] . Merkle, L. D. 1992

机译：并行遗传算法中遗传算法和通信的泛化与并行化

Implementing a Genetic Algorithm on a Parallel Custom Computing Machine

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