Paper Info
Title
Spatial characterization of process variations via MOS transistor time constants in VLSI and WSI
Abstract
This paper is the first large-scale experimental characterization of spatial process variations for a parameter that is directly involved in timing issues: the MOS transistor time constant. This is achieved by measuring the oscillation period of highspeed (500 MHz) CMOS ring oscillators that are implemented at different locations on individual dies and over wafers. Novel phenomena are observed, improving our understanding of how process variations affect the performance of synchronous systems, particularly in clock distribution networks. We observed four components contributing to period variations: an environment-dependent component, a process-dependent component of lower spatial frequency, a random component analogous to white noise, and a component depending on the geometry of the power-supply distribution network.
Year
DOI
Venue
1999
10.1109/4.736658
IEEE Journal of Solid-state Circuits
Keywords
DocType
Volume
CMOS integrated circuits,MOS integrated circuits,VLSI,digital integrated circuits,high-speed integrated circuits,integrated circuit measurement,timing,wafer-scale integration,500 MHz,MOS transistor time constants,VLSI,WSI,clock distribution networks,environment-dependent component,high-speed CMOS ring oscillators,oscillation period measurement,power-supply distribution network geometry,process variations,process-dependent component,random component,spatial characterization,synchronous systems,timing issues
Journal
34
Issue
ISSN
Citations 
1
0018-9200
7
PageRank 
References 
Authors
1.23
5
3
Name
Order
Citations
PageRank
M. Nekili1183.42
Y. Savaria211926.71
G. Bois326431.37