Paper Info
Title
A Model for Timing Errors in Processors with Parameter Variation
Abstract
Parameter variation in integrated circuits causes sections of a chip to be slower than others. To prevent any resulting timing errors, designers have traditionally designed for the worst case. Unfortunately, this approach has the potential to nullify much of the upcoming gains of shrinking technologies. To help understand this problem, we introduce a novel high-level and easy-to-apply model of how parameter variation affects timing errors in microprocessors. The model successfully predicts the probability of timing errors under different process and environmental conditions for both SRAM and logic units. Circuit designers can apply the model at design time to improve yield, and computer architects can use it to design processors that improve performance.
Year
DOI
Venue
2007
10.1109/ISQED.2007.16
ISQED
Keywords
Field
DocType
easy-to-apply model,circuit designer,computer architect,resulting timing error,parameter variation,different process,design time,timing errors,environmental condition,timing error,integrated circuit,random processes,high level synthesis,chip,processor design,integrated circuit design,logic,circuit design,computer architecture,process design,voltage,sram
Computer science,High-level synthesis,Stochastic process,Real-time computing,Static random-access memory,Electronic engineering,Integrated circuit design,Processor design,Process design,Integrated circuit,AND gate
Conference
ISBN
Citations 
PageRank 
0-7695-2795-7
6
0.51
References 
Authors
10
3
Name
Order
Citations
PageRank
Smruti R. Sarangi144741.94
Brian Greskamp222910.92
Josep Torrellas33838262.89