Hybrid dual-threshold design techniques for high-performance processors with low-power features

Author

Ko, Uming ; Pua, Andrew ; Hill, Anthony ; Srivastava, Pranjal

Author_Institution

Texas Instrum. Inc., Dallas, TX, USA

fYear

1997

fDate

18-20 Aug. 1997

Firstpage

307

Lastpage

311

Abstract

This paper investigates delay, power and area of several critical library components for high-performance, low-power microprocessor designs. To improve performance of a 0.18-/spl mu/m technology at a supply voltage of 1.8 V, the proposed hybrid dual-V/sub t/ (HDVT) circuit architectures enhance speed of low-V/sub t/ by 21% while reducing leakage power dissipation of low-V/sub t/ by an order of magnitude for combinatorial logic. For sequential elements, a HDVT split-slave dual-path (HSSDP) and Push-Pull Isolation (HPPI) registers are proposed to improve 29-92% performance over an HDVT-conventional registers with 20-89% less energy consumption. For the datapath, a HDVT hierarchical, reduced-swing, dual-V/sub t/ logic (HHRSL) comparator is proposed to improve the delay of prior arts by up to 50%.

Keywords

comparators (circuits); integrated circuit design; microprocessor chips; 0.18 micron; 1.8 V; HDVT circuit architecture; HHRSL comparator; HPPI register; HSSDP register; area; combinatorial logic; delay; high-performance low-power microprocessor; hybrid dual-threshold design; leakage power dissipation; sequential logic; Delay; Isolation technology; Leakage current; Logic design; Logic devices; Microprocessors; Multiplexing; Permission; Power dissipation; Registers;

fLanguage

English

Publisher

ieee

Conference_Titel

Low Power Electronics and Design, 1997. Proceedings., 1997 International Symposium on

Conference_Location

Monterey, CA, USA

Print_ISBN

0-89791-903-3

Type

conf

Filename

621305