并行逻辑仿真的锥体聚类原理

Proceedings. 10th IEEE International Symposium on Modeling, Analysis and Simulation of Computer and Telecommunications Systems Pub Date : 2002-10-11 DOI:10.1109/MASCOT.2002.1167064

K. Hering, R. Reilein, S. Trautmann

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引用次数: 4

摘要

遵循复制工作原理的并行化可以显著加快微处理器结构的功能逻辑仿真。该方法的成功应用很大程度上取决于电路模型的划分。我们开发了一种分层分区策略，以预分区和主分区为核心阶段，表现为自下而上的锥形聚类。锥体可以看作是组合逻辑的特殊区域，它有能力直接影响所考虑的电路模型的存储或输出元件。我们描述并比较了三种基于并行逻辑仿真形式化模型的圆锥聚类技术。本文给出了IBM处理器结构的实验结果，其大小从几十万到几百万个基本元件不等，混合了寄存器转移和门电平。

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Cone clustering principles for parallel logic simulation

Parallelization following the replicated worker principle can significantly accelerate functional logic simulation of microprocessor structures. Successful application of this method strongly depends on circuit model partitioning. We have developed a hierarchical partitioning strategy with prepartitioning and main partitioning as core phases that appear as bottom-up cone clustering. Cones can be seen as special areas of combinational logic which have the ability to directly influence storing or output elements of a circuit model under consideration. We describe and compare three of our cone clustering techniques which are based on a formal model of parallel logic simulation. Experimental results are given with respect to IBM processor structures ranging in their size from several hundred thousand to several million basic elements at a mixture of register-transfer- and gate level.

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Proceedings. 10th IEEE International Symposium on Modeling, Analysis and Simulation of Computer and Telecommunications Systems

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