Clock gating approaches by IOEX graphs and cluster efficiency plots
Clock Gating has been the most widely used method to reduce dynamic power for digital designs. Increasingly the need to assess the quality of a clock gating implementation has resulted in generation of various benchmarking criteria. These criteria however fail to provide a feel to the designer about...
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Published in | 2010 Design, Automation & Test in Europe Conference & Exhibition (DATE 2010) pp. 638 - 641 |
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Main Authors | , |
Format | Conference Proceeding |
Language | English |
Published |
IEEE
01.03.2010
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Subjects | |
Online Access | Get full text |
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Summary: | Clock Gating has been the most widely used method to reduce dynamic power for digital designs. Increasingly the need to assess the quality of a clock gating implementation has resulted in generation of various benchmarking criteria. These criteria however fail to provide a feel to the designer about quality of a current implementation and the scope available for further clock gating. Prior work has also reported various datapath based clock gating techniques to optimize for dynamic power. In this paper we present a new approach to analyze this problem through the IO Exclusivity (IOEX) graphs and Cluster Efficiency (CE) plots. The IOEX graph captures the datapath activity across the sequential elements normalized to the source clock. This exercise produces sequential elemental clusters or modules, which are amenable to clock gating. A CE plot then provides a visual insight into these fine grained implementations to aid the designer to further gate the given cluster. This additional gating can then be implemented either at synthesis or at the layout stages, depending on the design cycle time. Results from 65nm designs show that up to 20% dynamic power savings can be achieved with our approach over and above the industry standard low power synthesis solutions. |
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ISBN: | 1424470544 9781424470549 |
ISSN: | 1530-1591 1558-1101 |
DOI: | 10.1109/DATE.2010.5457128 |