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基于多策略离散粒子群算法的MPRM电路延时与面积优化

更新时间:2020-09-17 06:12:27 大小:429K 上传用户:IC老兵查看TA发布的资源 标签:电路延时 下载积分:1分 评价赚积分 (如何评价?) 打赏 收藏 评论(0) 举报

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针对大规模混合极性Reed-Muller(Mixed Polarity Reed-Muller,MPRM)逻辑电路的延时与面积优化,提出一种基于多策略离散粒子群优化(Multi-Strategy Discrete Particle Swarm Optimization,MSDPSO)的极性搜索方法.在MSDPSO算法中,对粒子进行团队划分,每个团队既执行不同策略,又相互联系,并行完成探索与开发的双重任务.同时在进化过程中采用高斯调整来激活寻优能力较差的粒子.结合MSDPSO算法和列表极性转换技术,对大规模MPRM电路进行延时与面积极性搜索.最后对PLA格式的MCNC Benchmark电路进行算法性能测试,结果验证了MSDPSO算法的有效性.与离散粒子群优化(Discrete Particle Swarm Optimization,DPSO)算法的优化结果相比较,MSDPSO算法获取的电路延时平均缩短8.43%,面积平均节省38.36%.

In order to improve the delay and area design of large-scale MPRM circuits, the multi-strategy discrete par- ticle swarm optimization(MSDPSO) is proposed. In MSDPSO, the particles were divided into several teams with different strategy, and each team cooperated with others to promote the exploration and exploitation of the particle population. Meanwhile, the Gaussian adjustment was adopted to activate the worse individuals. Combined with MSDPSO and tabular tech- nique, the best polarity of delay and area was searched f...

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基于多策略离散粒子群算法的MPRM电路延时与面积优化.pdf 429K

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