Energy recovering static memory

This paper proposes an energy-recovering (a.k.a. adiabatic) static RAM with a novel driver that reduces power dissipation by efficiently recovering energy from the bit/word line capacitors. Powered by a single-phase sinusoidal power-clock, our SRAM delivers read and write operations with single-cycle latency. To that end, a precharge-low scheme is employed along with a modified sense amplifier design that achieves high efficiency at differential voltages near V_SS. A simple control circuit is used to maintain driver operation in synchrony with the power-clock waveform. Feedback circuitry from the driver output to the control circuit ensures that out driver remains efficient, independent of the access pattern. Our energy recovering SRAM functions correctly while achieving substantial energy savings over a wide range of supply voltages and operating frequencies. Hspice simulations of a simple full-custom adiabatic 256×256 SRAM, that includes the energy recovering bit/word line drivers, the cell array, and the sense amplifiers, show over 2.6x energy savings at 3V, 300MHz in comparison with its conventional counterpart.