Power Aware Design and Implementation of 8-bit Asynchronous Arithmetic and Logic Unit

Author

Singh, Hardeep

Author_Institution

Dept. of Inf. Technol., Thapar Univ., Patiala

fYear

2009

fDate

6-7 March 2009

Firstpage

1037

Lastpage

1047

Abstract

The last fifteen years have witnessed a resurgence of interest in asynchronous digital design techniques as they promise to liberate VLSI systems from clock skew problems, offer the potential for low power and high performance and encourage a modular design philosophy which makes incremental technological migration a much easier. One of the main reasons for using asynchronous design is that it offers the opportunity to exploit the data-dependent latency of many operations in order to achieve low-power, high-performance, or low area. This paper describes a novel power aware 8-bit asynchronous arithmetic and logic Unit (ALU). The designed ALU is targeted for low power. The 8-bit asynchronous arithmetic and logic unit (ALU) has been designed entirely using the tool named Balsa, which is an Advanced Asynchronous Hardware Description Language and Synthesis Tool, developed by University of Manchester, UK.

Keywords

VLSI; asynchronous sequential logic; logic design; 8-bit asynchronous arithmetic; VLSI systems; asynchronous digital design techniques; asynchronous hardware description language; logic unit; power aware design; Arithmetic; Circuit simulation; Clocks; Computational modeling; Computer simulation; Hardware; Logic design; Protocols; Synchronization; Very large scale integration; ALU; AMULET (Asynchronous Microprocessor Utilizing Low Energy Techniques); Asynchronous logic; Balsa; Power Validation; XPower; Xilinx and benchmark; low power;

fLanguage

English

Publisher

ieee

Conference_Titel

Advance Computing Conference, 2009. IACC 2009. IEEE International

Conference_Location

Patiala

Print_ISBN

978-1-4244-2927-1

Electronic_ISBN

978-1-4244-2928-8

Type

conf

DOI

10.1109/IADCC.2009.4809158

Filename

4809158