论文信息 - Efficient Multiple-Valued Signed-Digit Full Adder Based on NDR MOS Structures and its Application to an N-bit Current-Mode Constant-Time Adder

Efficient Multiple-Valued Signed-Digit Full Adder Based on NDR MOS Structures and its Application to an N-bit Current-Mode Constant-Time Adder

In this article, we present an efficient implementation for the current-mode radix-2 Signed-Digit Full Adder (SDFA). It is based on negative-differential-resistance (NDR) MOS structures. Simulations have been carried out using a 0.13-mu m SOI CMOS technology. Since it uses Dynamic Current-Mode Logic (DyCML) comparators and features a dual-rail structure, the NDR-MOS SDFA shows a higher speed and lower power consumption than previously reported implementations. It can be used to design an N-bit constant-time adder with a 227-ps delay and a power consumption of 33 mu W per digit at 2-GHz clock frequency. The 64-bit version exhibits higher performance than a state-of-the-art fully optimized 64-bit carry-select adder implemented on the same technology.

David Bol | Denis Flandre | Jean-Didier Legat | Ilham Hassoune | David Levacq

[1] Eby G. Friedman,et al. Clock distribution networks in synchronous digital integrated circuits , 2001, Proc. IEEE.

[2] Denis Flandre,et al. Power-delay product minimization in high-performance 64-bit carry-select adders , 2004, IEEE Transactions on Very Large Scale Integration (VLSI) Systems.

[3] Pinaki Mazumder,et al. Multiple-Valued Signed-Digit Adder Using Negative Differential-Resistance Devices , 1998, IEEE Trans. Computers.

[4] Denis Flandre,et al. On the great potential of non-doped MOSFETs for analog applications in partially-depleted SOI CMOS process , 2005 .

[5] M. I. Elmasry,et al. Dynamic current mode logic (DyCML): a new low-power high-performance logic style , 2001, IEEE J. Solid State Circuits.

[6] D. Pederson,et al. Synthesis of Electronic Bistable Circuits , 1963 .

[7] Arjen K. Lenstra,et al. Selecting Cryptographic Key Sizes , 2000, Journal of Cryptology.

[8] R. C. Potter,et al. Dynamic hysteresis of the RTD folding circuit and its limitation on the A/D converter , 1992 .