MSV-Driven Floorplanning
Power consumption has become a crucial problem in modern circuit design. Multiple supply voltage (MSV) design is introduced to provide higher flexibility in controlling the power and performance tradeoff. One important requirement of MSV design is that timing constraints of the circuit must be satis...
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Veröffentlicht in: | IEEE transactions on computer-aided design of integrated circuits and systems 2011-08, Vol.30 (8), p.1152-1162 |
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Sprache: | eng |
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Zusammenfassung: | Power consumption has become a crucial problem in modern circuit design. Multiple supply voltage (MSV) design is introduced to provide higher flexibility in controlling the power and performance tradeoff. One important requirement of MSV design is that timing constraints of the circuit must be satisfied after voltage assignment of the cells. In this article, we develop two algorithms to solve the voltage assignment problem under timing constraints, namely, min-cost flow (MCF) and value-oriented branch-and-bound (VOBB). In the MCF algorithm, the voltage assignment problem is formulated as a convex cost dual network flow problem, and can be solved optimally in polynomial time under certain conditions by calling a MCF solver. The VOBB algorithm, which is a VOBB-based searching method, solves the voltage assignment problem optimally in general cases by employing the MCF algorithm and a linear programming solver as subroutines. At last, we propose a MSV-driven floorplanning framework that optimizes power consumption and physical layout of a circuit simultaneously during the floorplanning stage, by embedding the MCF algorithm into a simulated annealing-based floorplanner and applying the VOBB algorithm as a postprocessing step. We compared our approach with the latest works on this problem, and the experimental results show that, using our approach, significant improvement on power saving can be achieved in much less running time, which confirms the effectiveness and efficiency of our method. |
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ISSN: | 0278-0070 1937-4151 |
DOI: | 10.1109/TCAD.2011.2131890 |