DocumentCode
2533755
Title
The Devolution of Synchronizers
Author
Beer, Sebastian ; Ginosar, R. ; Priel, M. ; Dobkin, R. ; Kolodny, A.
Author_Institution
Electr. Eng. Dept, Technion - Israel Inst. of Technol., Haifa, Israel
fYear
2010
fDate
3-6 May 2010
Firstpage
94
Lastpage
103
Abstract
Synchronizers play a key role in multi-clock domain systems on chip. Traditionally, improvement of synchronization parameters with scaling has been assumed. In particular, the resolution time constant (tau) has been expected to scale proportionally to the gate delay ´FO4´. Recent measurements, however, have yielded counter-examples showing a degradation of tau with scaling. In this paper we describe these measurements and validate them with circuit analysis and simulations, demonstrating the devolution of synchronization parameters. Measurements have been made on a 65nm circuit and on series of FPGA devices. The tau measured on the 65nm circuit was about 100ps, in contrast with expectations of less than 30ps. Three similar FPGA devices, fabricated in 130, 90 and 65nm processes, yielded values of 57, 51 and 73ps, respectively, showing a significant increase in 65nm relative to older generations. The analysis is validated by simulations that predict further increase of tau for future technologies.
Keywords
clocks; system-on-chip; FPGA devices; circuit analysis; circuit simulations; gate delay; multiclock domain systems on chip; resolution time constant; synchronization parameters; synchronizers devolution; Analytical models; Circuit analysis; Circuit simulation; Degradation; Delay effects; Field programmable gate arrays; Predictive models; Semiconductor device measurement; System-on-a-chip; mean time between failures (MTBF); metastability; synchronization; synchronizer degradation.; tau degradation effect; technology scaling;
fLanguage
English
Publisher
ieee
Conference_Titel
Asynchronous Circuits and Systems (ASYNC), 2010 IEEE Symposium on
Conference_Location
Grenoble
ISSN
1522-8681
Print_ISBN
978-0-7695-4032-0
Type
conf
DOI
10.1109/ASYNC.2010.22
Filename
5476982
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