Neuromorphic Computing: A Post-Moore's Law Complementary Architecture

Catherine D. Schuman, J. Douglas Birdwell, Mark E. Dean, James S. Plank, and Garrett S. Rose

November, 2016

International Workshop on Post-Moore's Era Supercomputing (PMES)

https://sites.google.com/site/2016pmes/

Abstract

We describe our approach to post-Moore's law computing with three neuromorphic computing models that share a RISC philosophy, featuring simple components combined with a flexible and programmable structure. We envision these to be leveraged as co-processors, or as data filters to provide in situ data analysis in supercompting environments.

Citation Information

Text


author     C. D. Schuman and J. D. Birdwell and M. E. Dean and J. S. Plank and G. S. Rose
title      Neuromorphic Computing: A Post-Moore's Law Complementary Architecture
booktitle  International Workshop on Post-Moore's Era Supercomputing (PMES)
month      November
year       2016
address    Salt Lake City, UT
where      https://sites.google.com/site/2016pmes/

Bibtex


@INPROCEEDINGS{sbd:16:nc,
    author = "C. D. Schuman and J. D. Birdwell and M. E. Dean and J. S. Plank and G. S. Rose",
    title = "Neuromorphic Computing: A Post-{M}oore's {L}aw Complementary Architecture",
    booktitle = "International Workshop on Post-Moore's Era Supercomputing (PMES)",
    month = "November",
    year = "2016",
    address = "Salt Lake City, UT",
    where = "https://sites.google.com/site/2016pmes/"
}