N. Badereddine scite author profile

N. Badereddine

3Publications

62Citation Statements Received

27Citation Statements Given

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Affiliations

Montpellier Laboratory of Informatics, Robotics and Microelectronics, University of Montpellier

Publications

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Minimizing peak power consumption during scan testing: test pattern modification with X filling heuristics

Badereddine

Girard

Pravossoudovitch

et al. 2006

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Scan architectures, though widely used in modern designs, are expensive in power consumption. In this paper, we discuss the issues of excessive peak power consumption during scan testing. We show that taking care of high current levels during the test cycle (i.e. between launch and capture) is highly relevant to avoid noise phenomena such as IR-drop or ground bounce. We propose a solution based on power-aware assignment of don't care bits in deterministic test patterns. For ISCAS'89 and ITC'99 benchmark circuits, this approach reduces peak power during the test cycle up to 89% compared to a random filling solution.

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A Selective Scan Slice Encoding Technique for Test Data Volume and Test Power Reduction

et al. 2008

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Analysis of resistive-bridging defects in SRAM core-cells: A comparative study from 90nm down to 40nm technology nodes

Fonseca

Dilillo

Bosio

et al. 2010

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AbstractÑIn this paper, we present a comparative study on the effects of resistive-bridging defects in the SRAM core-cells, considering different technology nodes. In particular, we analyze industrial designs of SRAM core-cell at the following technology nodes: 90nm, 65nm and 40nm. We have performed an extensive number of simulations, varying the resistive value of defects, the power supply voltage, the memory size and the temperature. Experimental results show malfunctions not only within the defective core-cell, but also in other core-cells (defect-free) of the memory array.

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N. Badereddine

Minimizing peak power consumption during scan testing: test pattern modification with X filling heuristics

A Selective Scan Slice Encoding Technique for Test Data Volume and Test Power Reduction

Analysis of resistive-bridging defects in SRAM core-cells: A comparative study from 90nm down to 40nm technology nodes

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