An Integrated Approach to Data Path Synthesis for Behavioral-level Power Optimization

This paper presents an integrated approach to data path synthesis which solves three important design problems: scheduling, allocation, and hardware partitioning with power minimization as a key design objective. Based on the rules of thumbs introduced in prior work on synthesis for low power we der...

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Veröffentlicht in:	VLSI Design 2000-01, Vol.2000 (4), p.381-396
Hauptverfasser:	Park, Chaeryung, Kim, Taewhan, Liu, C. L.
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Sprache:	eng
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creator	Park, Chaeryung Kim, Taewhan Liu, C. L.
description	This paper presents an integrated approach to data path synthesis which solves three important design problems: scheduling, allocation, and hardware partitioning with power minimization as a key design objective. Based on the rules of thumbs introduced in prior work on synthesis for low power we derive an integer programming formulation for solving the problems. We then, based on the formulation, develop an efficient algorithm which performs scheduling, allocation and hardware partitioning simultaneously so that the effects of them on power consumption are exploited more fully and effectively. Our experimentation results show that the algorithm is quite effective, producing designs with significant savings in power consumption.
doi_str_mv	10.1155/2000/76384
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title	An Integrated Approach to Data Path Synthesis for Behavioral-level Power Optimization
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