Ultra-low Energy, High-Performance Dynamic Resistive Threshold Logic
Abstract
We propose dynamic resistive threshold-logic (DRTL) design based on non-volatile resistive memory. A threshold logic gate (TLG) performs summation of multiple inputs multiplied by a fixed set of weights and compares the sum with a threshold. DRTL employs resistive memory elements to implement the weights and the thresholds, while a compact dynamic CMOS latch is used for the comparison operation. The resulting DRTL gate acts as a low-power, configurable dynamic logic unit and can be used to build fully pipelined, high-performance programmable computing blocks. Multiple stages in such a DRTL design can be connected using energy-efficient low swing programmable interconnect networks based on resistive switches. Owing to memory-based compact logic and interconnect design and highspeed dynamic-pipelined operation, DRTL can achieve more than two orders of magnitude improvement in energy-delay product as compared to look-up table based CMOS FPGA.
Cite
@article{arxiv.1308.4672,
title = {Ultra-low Energy, High-Performance Dynamic Resistive Threshold Logic},
author = {Mrigank Sharad and Deliang Fan and Kaushik Roy},
journal= {arXiv preprint arXiv:1308.4672},
year = {2013}
}
Comments
arXiv admin note: text overlap with arXiv:1308.4169