Robust design methods for hardware accelerators for iterative algorithms in scientific computing

Author

Kinsman, Adam B. ; Nicolici, Nicola

Author_Institution

Dept. of Electr. & Comput. Eng., McMaster Univ., Hamilton, ON, Canada

fYear

2010

fDate

13-18 June 2010

Firstpage

254

Lastpage

257

Abstract

The ubiquity of embedded systems of increasing complexity in domains like scientific computing requires computation on models whose complexity has grown beyond what is economical to manage purely in software to requiring hardware acceleration - a key part of which is selecting numerical data representations (bit-width allocation). To address the shortcomings of existing techniques when applied to scientific computing dataflows, we propose a methodology for determining custom hybrid fixed/floating-point data representations for iterative scientific computing applications.

Keywords

data flow computing; data structures; embedded systems; iterative methods; mathematics computing; natural sciences computing; ubiquitous computing; bit-width allocation; embedded systems; hardware acceleration; hardware accelerators; hybrid fixed-floating-point data representations; iterative algorithms; iterative scientific computing applications; numerical data representations; robust design methods; scientific computing dataflows; Acceleration; Computational modeling; Design methodology; Embedded computing; Embedded software; Embedded system; Hardware; Iterative algorithms; Robustness; Scientific computing; Bit-width allocation; Satisfiability-Modulo Theory;

fLanguage

English

Publisher

ieee

Conference_Titel

Design Automation Conference (DAC), 2010 47th ACM/IEEE

Conference_Location

Anaheim, CA

ISSN

0738-100X

Print_ISBN

978-1-4244-6677-1

Type

conf

Filename

5523356