Paper Info
Title
14.2 A physically unclonable function with BER <10−8 for robust chip authentication using oscillator collapse in 40nm CMOS
Abstract
Security is a key concern in today's mobile devices and a number of hardware implementations of security primitives have been proposed, including true random number generators, differential power attack avoidance, and chip-ID generators [1-4]. Recently, physically unclonable functions (PUFs) were proposed as a secure method for chip authentication in unsecure environments [5-7]. A PUF is a function that maps an input code ("challenge') to an output code (“response”) in a manner that is unique for every chip. PUFs are increasingly used for IC authentication to offer protection against identity theft, cloning, and counterfeit components [2-4].
Year
DOI
Venue
2015
10.1109/ISSCC.2015.7063022
international solid-state circuits conference
Keywords
Field
DocType
CMOS logic circuits,error statistics,integrated circuit design,mobile handsets,oscillators,BER,CMOS,IC authentication,PUF,bit error rate,chip authentication,chip-ID generators,counterfeit components,differential power attack avoidance,identity theft,mobile devices,oscillator collapse,physically unclonable function,random number generators,security primitives,size 40 nm
High-definition video,Authentication,Computer science,Identity theft,Chip,CMOS,Electronic engineering,Mobile device,Physical unclonable function,Random number generation,Embedded system
Conference
Citations 
PageRank 
References 
0
0.34
5
Authors
4
Name
Order
Citations
PageRank
Kuiyuan Yang114820.89
Qing Dong29512.29
David Blaauw38916823.47
Dennis Sylvester45295535.53