Title :
Power Droop Testing
Author :
Polian, Ilia ; Czutro, Alejandro ; Kundu, Sandip ; Becker, Bernd
Author_Institution :
Albert-Ludwigs University, Freiburg
Abstract :
High-performance digital ICs manufactured in deep-submicron technologies tend to draw considerable amounts of power during operation. Power droop describes the impact of power consumption transients on the logic values of a circuit´s signal lines and, ultimately, on the correctness of the circuit´s operation. Although power droop could cause an IC to fail, such failures cannot be screened during testing, because conventional fault models do not cover them. In this article, we present a technique for screening such failures. We propose a heuristic method to generate test sequences that create worst-case power drop by accumulating high- and low-frequency effects. We employ a dynamically constrained version of the classical D-algorithm, which generates new constraints on the fly, for test generation. The obtained patterns can be used for manufacturing test and early silicon validation. We have implemented a prototype ATPG to demonstrate the feasibility of this approach.
Keywords :
automatic test pattern generation; integrated circuit manufacture; integrated circuit testing; circuit signal lines; classical D-algorithm; deep-submicron technologies; high-performance digital IC; power consumption transients; power droop testing; prototype ATPG; Circuit faults; Circuit testing; Energy consumption; Integrated circuit modeling; Integrated circuit testing; Logic circuits; Manufacturing; Power generation; Prototypes; Silicon; ATPG; D-algorithm; heuristic method; high-frequency effects; low-frequency effects; power droop; signal integrity errors;
Journal_Title :
Design & Test of Computers, IEEE
DOI :
10.1109/MDT.2007.77
