Home // International Journal On Advances in Systems and Measurements, volume 3, numbers 1 and 2, 2010 // View article
Authors:
Julien Vial
Arnaud Virazel
Alberto Bosio
Luigi Dilillo
Patrick Girard
Serge Pravossoudovtich
Keywords: system-on-chip; logic cores; manufacturing defects; yield ramp-up; fault-tolerance; TMR; test of tolerant architecture.
Abstract:
Manufacturing processes in the nanoscale era are less reliable leading to lower yields. As memories are the most important contributor to SoC (System-on-Chip) yield, fault tolerance techniques based on redundancy are generally used to improved memory yield. Conversely, logic cores embedded in SoC usually do not have these important features and manufacturing defects affecting these cores decrease the yield of the entire SoC. Therefore, meaningful techniques for SoC yield improvement must also consider logic cores. In this paper, we propose and investigate the use of TMR (Triple Modular Redundancy) architectures for logic cores to increase the overall SoC yield. We also propose to improve the defect tolerance capabilities of TMR architectures by partitioning logic cores and adding voters on logic core’s cuts. Results show that this improvement of the TMR architecture is very fruitful to improve its tolerance capability with a low overhead in term of silicon area. Results obtained on SoC examples (ISCAS’85 and ITC’99 benchmark circuits as logic cores merged with memory cores with different rates) demonstrate the interest of using TMR architectures for logic cores for SoC yield enhancement.
Pages: 1 to 10
Copyright: Copyright (c) to authors, 2010. Used with permission.
Publication date: September 5, 2010
Published in: journal
ISSN: 1942-261x