论文信息 - A 16-bit carry-lookahead adder using reversible energy recovery logic for ultra-low-energy systems

A 16-bit carry-lookahead adder using reversible energy recovery logic for ultra-low-energy systems

In this paper, we describe an energy-efficient carry-lookahead adder using reversible energy recovery logic (RERL), which is a new dual-rail reversible adiabatic logic. We also describe an eight-phase, clocked power generator that requires an off-chip inductor. For the energy-efficient design of reversible logic, we explain how to control the overhead of reversibility with a self-energy-recovery circuit. A test chip was implemented with a 0.8 /spl mu/m CMOS technology, which included two 16-bit carry-lookahead adders to allow fair comparison: an RERL one and a static CMOS one. Experimental results showed that the RERL adder had substantial advantages in energy consumption over the static CMOS one at low operating frequencies. We also confirmed that we could minimize the energy consumption in the RERL circuit by reducing the operating frequency until adiabatic and leakage losses were equal.

Soo-Ik Chae | Joonho Lim | Dong-Gyu Kim

[1] R. Merkle. Reversible electronic logic using switches , 1993 .

[2] Deog-Kyoon Jeong,et al. An efficient charge recovery logic circuit , 1996, IEEE J. Solid State Circuits.

[3] Vojin G. Oklobdzija,et al. Clocked CMOS Adiabatic Logic with Single AC Power Supply , 1995, ESSCIRC '95: Twenty-first European Solid-State Circuits Conference.

[4] Massoud Pedram,et al. Low power design methodologies , 1996 .

[5] Joonho Lim,et al. Reversible energy recovery logic circuit without non-adiabatic energy loss , 1998 .

[6] Charles H. Bennett,et al. The thermodynamics of computation—a review , 1982 .

[7] John S. Denker,et al. 2nd order adiabatic computation with 2N-2P and 2N-2N2P logic circuits , 1995, ISLPED '95.

[8] Saed G. Younis,et al. Asymptotically zero energy computing using split-level charge recovery logic , 1994 .

[9] Priyadarsan Patra. Approaches to design of circuits for low-power computation , 1996 .

[10] Nestoras Tzartzanis,et al. Low-power digital systems based on adiabatic-switching principles , 1994, IEEE Trans. Very Large Scale Integr. Syst..