DocumentCode
2634555
Title
Supply Voltage Noise Aware ATPG for Transition Delay Faults
Author
Ahmed, Nisar ; Tehranipoor, Mohammad ; Jayaram, Vinay
Author_Institution
Dept. of Electr. & Comput. Eng., Connecticut Univ., Storrs, CT
fYear
2007
fDate
6-10 May 2007
Firstpage
179
Lastpage
186
Abstract
The sensitivity of very deep submicron designs to supply voltage noise is increasing due to higher path delay variations and reduced noise margins with supply noise scaling. The supply noise of delay test during at-speed launch and capture is significantly larger compared to normal circuit operation since larger number of transitions occur within a short time frame. Our simulations have shown that for identical switching activity, a pattern with a short switching time frame window will surge more current from the power network, thereby causing higher IR-drop. In this paper, the authors propose a novel method to measure the average power of at-speed test patterns, referred to as switching cycle average power (SCAP). The authors present a case study of the IR-drop effects on design performance during at-speed test. A new practical framework is proposed to generate supply noise tolerant delay test patterns. The proposed framework uses existing commercial ATPG tools and a wrapper is added around them. The results demonstrate that the new patterns generated using our framework will significantly reduce the supply noise
Keywords
automatic test pattern generation; delays; ATPG; automatic test pattern generation; delay test patterns; supply voltage noise; switching cycle average power; transition delay faults; Automatic test pattern generation; Circuit faults; Circuit noise; Circuit simulation; Circuit testing; Delay effects; Noise generators; Noise reduction; Surges; Voltage;
fLanguage
English
Publisher
ieee
Conference_Titel
VLSI Test Symposium, 2007. 25th IEEE
Conference_Location
Berkeley, CA
ISSN
1093-0167
Print_ISBN
0-7695-2812-0
Type
conf
DOI
10.1109/VTS.2007.77
Filename
4209909
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