Paper Info
Title
Hybrid CMOS-MQCA Logic Architectures using Multi-Layer Spintronic Devices
Abstract
We present a novel hybrid CMOS-MQCA architecture using multi-layer Spintronic devices as computing elements. A feasibility study is presented with 22nm CMOS where new approaches for spin transfer torque induced clocking and read-out scheme for variability-tolerance are introduced. A first-of-its-kind Spintronic device model enables circuit simulation using existing CAD infrastructure. Approximately 70% reduction in energy consumption is observed when compared against conventional field-induced clocking scheme.
Year
Venue
Keywords
2011
Clinical Orthopaedics and Related Research
an- tiferro coupling,index terms— magnetic quantum cellular automata,spin transfer torque induced,variability,standard cell,verilog-a,spintronic,generic regular hybrid.,mtj,clocking current,magnetoresistance,mqca,non destructive,nonvolatile,tmr,magneto- static,switch- ing current,spin valves,low power,read out,multi layer,gmr,ferro coupling,differential output,controlled cell,novel,cmos,feasibility study,indexing terms,quantum cellular automata
Field
DocType
Volume
CAD,Multi layer,Computer science,Spintronics,Electronic engineering,Theoretical computer science,CMOS,Spin-transfer torque,Energy consumption
Journal
abs/1102.4
Citations 
PageRank 
References 
0
0.34
3
Authors
4
Name
Order
Citations
PageRank
Jayita Das1113.04
Syed M. Alam217620.47
Srinath Rajaram300.68
Sanjukta Bhanja438237.57