Open AccessA New Ultra Low-Power and Noise Tolerant Circuit Technique for CMOS Domino Logic
Author(s) -
Preetisudha Meher,
Kamalakanta Mahapatra
Publication year - 2013
Publication title -
international journal of computer and communication technology
Language(s) - English
Resource type - Journals
eISSN - 2231-0371
pISSN - 0975-7449
DOI - 10.47893/ijcct.2013.1191
Subject(s) - domino logic , pass transistor logic , dynamic logic (digital electronics) , logic family , electronic engineering , noise margin , cmos , computer science , logic gate , asynchronous circuit , domino , power–delay product , noise (video) , logic optimization , logic level , electrical engineering , inverter , transistor , logic synthesis , engineering , electronic circuit , voltage , synchronous circuit , adder , clock signal , artificial intelligence , image (mathematics) , chemistry , biochemistry , catalysis
Dynamic logic style is used in high performance circuit design because of its fast speed and less transistors requirement as compared to CMOS logic style. But it is not widely accepted for all types of circuit implementations due to its less noise tolerance and charge sharing problems. A small noise at the input of the dynamic logic can change the desired output. Domino logic uses one static CMOS inverter at the output of dynamic node which is more noise immune and consuming very less power as compared to other proposed circuit. In this paper we have proposed a novel circuit for domino logic which has less noise at the output node and has very less power-delay product (PDP) as compared to previous reported articles. Low PDP is achieved by using semi-dynamic logic buffer and also reducing leakage current when PDN is not conducting.
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