Low-power dual-supply clock networks with clock gating and frequency doubling

Hoi-Jin Lee; Jong-Woo Kim; Tae Hee Han; Jae Cheol Son; Jeong-Taek Kong; Bai-Sun Kong

doi:10.1587/elex.9.502

LETTER

Low-power dual-supply clock networks with clock gating and frequency doubling

Hoi-Jin Lee, Jong-Woo Kim, Tae Hee Han, Jae Cheol Son, Jeong-Taek Kong, Bai-Sun Kong

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Keywords: dual supply, clock gating, level converting, clock distribution

JOURNAL FREE ACCESS

2012 Volume 9 Issue 6 Pages 502-508

DOI https://doi.org/10.1587/elex.9.502

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Abstract

Low-power dual-supply clock networks based on novel level-converting clock gating cells are presented. The proposed clock networks achieve a substantial power saving with mitigated timing constraints on gated clocks. They also allow pulse-based flip-flops used at leaf clock nodes to work with no pulse generators, resulting in more power saving and area reduction. The proposed dual-supply clock networks were designed in a 32nm CMOS technology. The evaluation results indicated that the proposed clock-gating cells have up to 24.8% smaller power with 74.3% reduced latency and 17.5% reduced area. They also indicate that the power consumption of the proposed clock networks was reduced by up to 30.3%.

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