Controllability of Static CMOS Circuits for Timing Characterization |
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| Authors: | Ramyanshu Datta Ravi Gupta Antony Sebastine Jacob A Abraham Manuel d’Abreu |
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| Institution: | (1) The University of Texas at Austin, Austin, TX, USA;(2) Freescale Semiconductors, Austin, TX, USA;(3) ARM Corporation, Austin, TX, USA;(4) SanDisk Corporation, Milpitas, CA, USA |
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| Abstract: | Timing violations, also known as delay faults, are a major source of defective silicon in modern Integrated Circuits (ICs),
designed in Deep Sub-micron (DSM) technologies, making it imperative to perform delay fault testing in these ICs. However,
DSM ICs, also suffer from limited controllability and observability, which impedes easy and efficient testing for such ICs.
In this paper, we present a novel Design for Testability (DFT) scheme to enhance controllability for delay fault testing.
Existing DFT techniques for delay fault testing either have very high overhead, or increase the complexity of test generation
significantly. The DFT technique presented in this paper, exploits the characteristics of CMOS circuit family and reduces
the problem of delay fault testing of scan based sequential static CMOS circuits to delay fault testing of combinational circuits
with complete access to all inputs. The scheme has low overhead, and also provides significant reduction in power dissipation
during scan operation.
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| Keywords: | Delay fault testing Design for test Scan design |
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