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引用次数: 0
摘要
在超大规模集成电路(VLSI)中,放置是将所有电子功能物理放置在一块硅上的过程,这样可以实现最小的布线和最小的硅占用面积。本文讨论了并行和并行技术在建筑布局和平面规划问题中的可行性。先前工作(A. Al Mohanadi, 1989)中描述的分层技术在一台加工机上依次执行。按顺序处理每一层次结构的布局问题。这种技术需要大量的CPU时间来完成,但是通过使用并行处理方法可以同时解决几个放置问题
Concurrent placement algorithm and floorplanning based on Occam and the transputer technology
In VLSI (very large scale integration), placement is the process of physically placing all electronic functions on a piece of silicon such that minimum wiring and minimum area occupied on silicon are achieved. The paper discusses the feasibility of employing the concurrency and parallel techniques in the placement and floorplanning problem. The hierarchical technique described in the previous work (A. Al Mohanadi, 1989) is carried out sequentially on one processing machine. The placement problem is dealt with sequentially for each level of hierarchy. This technique requires significant CPU time to complete but several placement problems would be solved simultaneously through the use of the parallel processing approach.<>
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