This paper proposes an energy-recovering (aka adiabatic) static RAM with a novel driver that reduces power dissipation by efficiently recovering energy from ...

This paper proposes an energy-recovering (a.k.a. adiabatic) static RAM with a novel driver that reduces power dissipation by efficiently recovering energy ...

ABSTRACT. This paper proposes an energy-recovering (a.k.a. adiabatic) static. RAM with a novel driver that reduces power dissipation by effi-.

This paper proposes an energy-recovering static RAM with a novel driver that reduces power dissipation by efficiently recovering energy from the bit/word ...

This paper proposes an energy-recovering (a.k.a. adiabatic) static RAM with a novel driver that reduces power dissipation by efficiently recovering energy ...

This paper proposes an energy-recovering (a.k.a. adiabatic) static RAM with a novel driver that reduces power dissipation by efficiently recovering energy ...

This paper concen- trates on reducing the power required by the memory core by applying energy recovery principles. In the recovered energy SRAM core of gure 1, ...

A Static Random Access Memory (SRAM) Core which operates on the principles of energy recovery, and can be implemented without compromising greatly on area ...

In this paper we present a Static Random Access Memory (SRAM) Core which operates on the principles of energy recovery, and can be implemented without ...

A static memory element, using positive feedback, need not be refreshed, while a semistatic memory element is a dynamic memory element in which the charge is ...