基于二部加权匹配的数据路径分配

27th ACM/IEEE Design Automation Conference Pub Date : 1990-06-24 DOI:10.1109/DAC.1990.114907

Chu-Yi Huang, Yen-Shen Chen, Y. Lin, Y. Hsu

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引用次数: 190

摘要

提出了一种数据路径分配问题的图论方法。该问题分解为三个子问题:(1)寄存器分配，(2)操作分配，(3)连接分配。将前两个子问题建模为两个二部加权匹配问题，并采用匈牙利方法求解。第三个子问题用贪心法求解。结果表明，在解决一个问题的同时考虑另一个问题，无论(1)和(2)的执行顺序如何，都可以得到同样令人满意的结果。实现了LYRA和ARYL两个程序，分别按不同顺序求解子任务。对于寄存器分配，该方法首先保证了寄存器的最小使用，同时能够考虑到互连成本。研究表明，二部加权匹配算法确实是解决数据路径分配问题的一个很好的方法

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Data path allocation based on bipartite weighted matching

Proposes a graph-theoretic approach for the data path allocation problem. The problem is decomposed into three subproblems: (1) register allocation, (2) operation assignment, and (3) connection allocation. The first two subproblems are modeled as two bipartite weighted matching problems and solved using the Hungarian method. The third subproblem is solved using a greedy method. It is shown that, by taking the other into consideration while solving one, equally satisfactory results can be obtained, regardless of the order in which (1) and (2) are performed. Two programs, LYRA and ARYL, are implemented which solve the subtasks in different orders. For register allocation, the approach is the first one to guarantee minimal use of registers while being able to take the interconnection cost into account. This research has demonstrated that the bipartite weighted matching algorithm is indeed a good solution for the data path allocation problem.<>

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27th ACM/IEEE Design Automation Conference

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