Cache-processor coupling: a fast and wide on-chip data cache design

Author

Motomura, Masato ; Inoue, Toshiaki ; Yamada, Hachiro ; Konagaya, Akihiko

Author_Institution

Syst. ULSI Res. Lab., Microelectron. Res. Lab., Kanagawa, Japan

Volume

30

Issue

4

fYear

1995

fDate

4/1/1995 12:00:00 AM

Firstpage

375

Lastpage

382

Abstract

This paper presents a new data cache design, cache-processor coupling, which tightly binds an on-chip data cache with a microprocessor. Parallel architectures and high-speed circuit techniques are developed for speeding address handling process associated with accessing the data cache. The address handling time has been reduced by 51% by these architectures and circuit techniques. On the other hand, newly proposed instructions increase data cache bandwidth by eight times. Excessive power consumption due to the wide-bandwidth data transfer is carefully avoided by newly developed circuit techniques, which reduce dissipation power per bit to 1/26. Simulation study of the proposed architecture and circuit techniques yields a 1.8 ns delay each for address handling, cache access, and register access for a 16 kilobyte direct mapped cache with a 0.4 μm CMOS design rule

Keywords

CMOS digital integrated circuits; cache storage; microprocessor chips; parallel architectures; 0.4 micron; 1.8 ns; 16 kB; CMOS design rule; address handling process; cache access; cache-processor coupling; circuit techniques; data cache bandwidth; direct mapped cache; dissipation power; high-speed circuit techniques; microprocessor; on-chip data cache design; parallel architectures; power consumption; register access; wide-bandwidth data transfer; Bandwidth; Clocks; Coupling circuits; Delay; Energy consumption; Laboratories; Microprocessor chips; Parallel architectures; Process design; Silicon;

fLanguage

English

Journal_Title

Solid-State Circuits, IEEE Journal of

Publisher

ieee

ISSN

0018-9200

Type

jour

DOI

10.1109/4.375956

Filename

375956