A Fast, Reliable and Wide-voltage-range In-memory Computing Architecture
Simon, William Andrew; Galicia, Juan-Martin; Levisse, Alexandre Sébastien Julien; Zapater Sancho, Marina; Atienza Alonso, David
2019
Download
Formats
Format
BibTeX
MARC
MARCXML
DublinCore
EndNote
NLM
RefWorks
RIS

Files

Abstract

In-Memory Computing (IMC) solutions, and particularly bitline computing in SRAM, appear promising as they mitigate one of the most energy consuming aspects in computation: data movement. In this work we propose a fast (2.4Ghz for bitwise operations and 2.4/1.5Ghz for 32/64bit additions respectively), reliable (no read disturb issues) and wide voltage range (from 0.6 to 1V) 6T SRAM-based IMC architecture using local bitlines and a fast carry adder pitched below the memory subarray. We verify the proposed architecture through layout and variability aware simulations in 28nm bulk high performances technology PDK.

Details

Title A Fast, Reliable and Wide-voltage-range In-memory Computing Architecture
Author(s) Simon, William Andrew ; Galicia, Juan-Martin ; Levisse, Alexandre Sébastien Julien ; Zapater Sancho, Marina ; Atienza Alonso, David
Published in Proceedings of The 2019 56Th Acm/Edac/Ieee Design Automation Conference (Dac)
Pagination 6
Conference IEEE/ACM Design Automation Conference (DAC), Las Vegas, Nevada, USA., june 2-6, 2019
Date 2019-06-02
Publisher New York, Association for Computing Machinery
Keywords
DOI https://doi.org/10.1145/3316781.3317741
Other identifier(s) View record in Web of Science
Laboratories ESL
Record Appears in Scientific production and competences > STI - School of Engineering > IEM - Institut d'Electricité et de Microtechnique > ESL - Embedded Systems Laboratory
Peer-reviewed publications
Conference Papers
Work produced at EPFL
Published
Record creation date 2019-04-03

Actions

Preview