In this paper we introduce and evaluate Haar based codec assisted medium and long range data transport structures, e.g., bus segments, Network on Chip interconnects, able to deal with technology scaling related phenomena (e.g., increased susceptibility to proximity coupling noise and transmission delay variability), targeting energy savings at the expense of a reasonably small overhead, i.e., 1 extra wire, a 2-gate encoder, and a 2-gate decoder, for each and every pair of uncoded wires. For practical evaluation we employed a 45nm commercial CMOS technology and different random, uncorrelated workload profiles. For 5mm and 10mm long 8-bit buses (without repeaters), we obtain energy savings of 55% and 34%, and a transmission frequency increase of 35% and 41%, respectively, at the expense of less than 1% area overhead with respect to the reference system (i.e., 8-wire synchronous uncoded bus), which prove energy and delay effectiveness. We further augment our proposal with a Single Error Correction and Double Error Detection (SECDED) scheme particularly adapted to its structure, in order to cope with very deep sub-micron noise (e.g., supply voltage variations, electromagnetic interference) induced transmission errors. When compared to the reference system (not SECDED protected), for 10mm long buses, our Haar tailored SECDED approach consumes 27% less energy at the expense of 2% area overhead.
Original languageEnglish
Title of host publicationProceedings - 30th IEEE International System on Chip Conference, SOCC 2017
EditorsM. Alioto , H. Li, J. Becker, U. Schlichtmann, R. Sridhar
Place of PublicationPiscataway, NJ
PublisherIEEE
Pages375-380
Number of pages6
ISBN (Electronic)978-1-5386-4034-0
ISBN (Print)978-1-5386-4035-7
DOIs
Publication statusPublished - 2017
EventSOCC 2017: 30th IEEE International System on Chip Conference (SOCC) - Hotel Novotel , Munich, Germany
Duration: 5 Aug 20178 Sep 2017
Conference number: 30

Conference

ConferenceSOCC 2017
CountryGermany
CityMunich
Period5/08/178/09/17

    Research areas

  • Bus coding, Haar, dynamic power

ID: 37380521