Paper Info
Title
Stateful logic pipeline architecture
Abstract
Recently, researchers have demonstrated that memristive switches can be used to implement logic and latches as well as memory and programmable interconnects. In this paper, we propose a novel stateful logic pipeline architecture based on memristive switches. CMOS control switches are used to isolate stateful logic units so that multiple operations can be executed in parallel. Since basic operation of the stateful logic, namely material implication, cannot fan out, a new AND basic operation which can duplicate output is proposed. The basic unit of the proposed architecture is designed to execute multiple basic operations concurrently in a step so that each basic unit implements a large fan-in OR or NOR gate. Due to the fine grain ultra-deep constant-throughput pipeline properties, design paradigm shifts are required. We address some of the issues, in particular logic representation using Staged OR-NOR Graphs (SONGs), and data synchronization with data forwarding.
Year
DOI
Venue
2011
10.1109/ISCAS.2011.5938111
ISCAS
Keywords
Field
DocType
switches,cannot fan out stateful logic operation,material implication stateful logic operation,data forwarding,fan-in or gate,fan-in nor gate,data synchronization,and basic stateful logic operation,paradigm shifts design,logic pipeline architecture,memory interconnection,staged or-nor graph,fine-grain ultradeep constant-throughput pipeline property,programmable interconnection,cmos logic circuits,latch,stateful logic unit isolation,flip-flops,nor circuits,memristive switch,cmos control switch,song,pipelines,computer architecture,logic gates,synchronization,logic gate,cmos integrated circuits,paradigm shift,multiplication operator,control system,control systems
Logic gate,Pass transistor logic,Computer science,NOR gate,Electronic engineering,CMOS,Stateful firewall,Control system,Logic family,Fan-out,Embedded system
Conference
ISSN
ISBN
Citations 
0271-4302 E-ISBN : 978-1-4244-9472-9
978-1-4244-9472-9
8
PageRank 
References 
Authors
1.90
3
3
Name
Order
Citations
PageRank
Kyosun Kim118718.28
Sang-Ho Shin242041.46
Sung-Mo Steve Kang31198213.14