Array-of-arrays architecture for parallel floating point multiplication

Author

Dhanesha, Hema ; Falakshahi, Katayoun ; Horowitz, Mark

Author_Institution

Center for Integrated Syst., Stanford Univ., CA, USA

fYear

1995

fDate

27-29 Mar 1995

Firstpage

150

Lastpage

157

Abstract

This paper presents a new architecture style for the design of a parallel floating point multiplier. The proposed architecture is a synergy of trees and arrays. Architectural models were designed to implement the 53-bit mantissa path of the IEEE standard 754 for floating point multiplication, and tested for functionality in Verilog. The design, which was done in dual-rail domino, simulated in HSpice with estimated capacitive load models in a 1 μm CMOS technology. Multiplication latency of 10 ns (23.3 FO4) at 4.3 V supply and 120°C can be achieved with the best topology of the array-of-arrays architecture. The estimated multiplier area is 3 mm×6 mm

Keywords

floating point arithmetic; multiplying circuits; parallel architectures; 1 micron; 10 ns; 120 C; 4.3 V; 53 bit; CMOS technology; HSpice simulation; IEEE standard 754; Verilog; array-of-arrays architecture; capacitive load model; dual-rail domino; latency; mantissa path; parallel floating point multiplication; synergy; trees; Adders; CMOS technology; Circuits; DH-HEMTs; Hardware design languages; Semiconductor device modeling; Testing; Tiles; Wires; Wiring;

fLanguage

English

Publisher

ieee

Conference_Titel

Advanced Research in VLSI, 1995. Proceedings., Sixteenth Conference on

Conference_Location

Chapel Hill, NC

Print_ISBN

0-8186-7074-9

Type

conf

DOI

10.1109/ARVLSI.1995.515617

Filename

515617