Title :
Clustering for Processing Rate Optimization
Author :
Lin, Chuan ; Wang, Jia ; Zhou, Hai
Author_Institution :
Logic Synthesis Group, Magma Design Autom. Inc, Santa Clara, CA
Abstract :
Clustering (or partitioning) is a crucial step between logic synthesis and physical design in the layout of a large scale design. A design verified at the logic synthesis level may have timing closure problems at post-layout stages due to the emergence of multiple-clock-period interconnects. Consequently, a tradeoff between clock frequency and throughput may be needed to meet the design requirements. In this paper, we find that the processing rate, defined as the product of frequency and throughput, of a sequential system is upper bounded by the reciprocal of its maximum cycle ratio, which is only dependent on the clustering. We formulate the problem of processing rate optimization as seeking an optimal clustering with the minimal maximum-cycle-ratio in a general graph, and present an iterative algorithm to solve it. Experimental results validate the efficiency of our algorithm
Keywords :
VLSI; circuit optimisation; integrated circuit interconnections; integrated circuit layout; iterative methods; logic partitioning; circuit optimization; clock frequency; logic synthesis; multiple-clock-period interconnects; partitioning; physical design; processing rate optimization; rate optimization clustering; sequential system; throughput; Clocks; Delay; Flip-flops; Frequency; Integrated circuit interconnections; Large-scale systems; Logic design; Pipeline processing; Throughput; Timing; Algorithms; circuit optimization; clustering methods; design automation; integrated circuit interconnections;
Journal_Title :
Very Large Scale Integration (VLSI) Systems, IEEE Transactions on
DOI :
10.1109/TVLSI.2006.886399
