HCI-Tolerant NoC router microarchitecture

Author

Ancajas, Dean Michael ; Nickerson, James McCabe ; Chakraborty, Koushik ; Roy, Sandip

Author_Institution

USU BRIDGE Lab., Utah State Univ., Logan, UT, USA

fYear

2013

fDate

May 29 2013-June 7 2013

Firstpage

1

Lastpage

10

Abstract

The trend towards massive parallel computing has necessitated the need for an On-Chip communication framework that can scale well with the increasing number of cores. At the same time, technology scaling has made transistors susceptible to a multitude of reliability issues (NBTI, HCI, TDDB). In this work, we propose an HCI-Tolerant microarchitecture for an NoC Router by manipulating the switching activity around the circuit. We find that most of the switching activity (the primary cause of HCI degradation) are only concentrated in a few parts of the circuit, severely degrading some portions more than others. Our techniques increase the lifetime of an NoC router by balancing this switching activity. Compared to an NoC without any reliability techniques, our best schemes improve the switching activity distribution, clock cycle degradation, system performance and energy delay product per flit by 19%, 26%, 11% and 17%, respectively, on an average.

Keywords

circuit reliability; circuit switching; hot carriers; network routing; network-on-chip; HCI tolerant microarchitecture; NoC Router; clock cycle degradation; energy delay product; on chip communication framework; parallel computing; reliability techniques; switching activity distribution; system performance; technology scaling; Aging; Degradation; Human computer interaction; Logic gates; Switches; Switching circuits; Transistors;

fLanguage

English

Publisher

ieee

Conference_Titel

Design Automation Conference (DAC), 2013 50th ACM/EDAC/IEEE

Conference_Location

Austin, TX

ISSN

0738-100X

Type

conf

Filename

6560633