Clock Gating and Negative Edge Triggering for Energy Recovery Clock

Energy recovery clocking has been demonstrated as an effective method for reducing the clock power. In this method the conventional square wave clock signal is replaced by a sinusoidal clock generated by a resonant circuit. Such a modification in clock signal prevents application of existing clock gating solutions. In this paper, we propose a clock gating solution for energy recovery clocking by gating the flip-flops. Applying our clock gating to the energy recovery clocked flip-flops reduces their power by 1000times in the idle mode with negligible power and delay overhead in the active mode. Applying the proposed clock gating technique to a system of 1000 flip-flops with idle mode probability and data switching activity of 50%, reduces the total power by 47%. We also propose a negative edge triggering solution for the energy recovery clocked flip-flops.