Asynchronous interlocked pipelined CMOS circuits operating at 3.3-4.5 GHz

Author

Schuster, S. ; Reohr, W. ; Cook, P. ; Heidel, D. ; Immediato, M. ; Jenkins, K.

Author_Institution

IBM Thomas J. Watson Res. Center, Yorktown Heights, NY, USA

fYear

2000

fDate

9-9 Feb. 2000

Firstpage

292

Lastpage

293

Abstract

Chip performance, power, noise, and clock synchronization are becoming formidable challenges as microprocessor performance moves into the GHz regime and beyond. Interlocked pipelined CMOS (IPCMOS), an asynchronous clocking technique, helps address these challenges. This paper shows how a typical block (e.g., Block D) is interlocked with all the blocks with which it interacts. In the forward direction, dedicated Valid signals emulate the worst-case path through each driving block and thus determine when data can be latched within the typical block. In the reverse direction, Acknowledge signals indicate that data has been received by the subsequent blocks and that new data may be processed within the typical block. In this interlocked approach local clocks are generated only when there is an operation to perform.

Keywords

CMOS logic circuits; asynchronous circuits; pipeline processing; 3.3 to 4.5 GHz; asynchronous interlocked pipelined CMOS circuit; clock synchronization; microprocessor; CMOS technology; Circuit noise; Clocks; Latches; Logic; Microprocessors; Signal processing; Switches; Switching circuits; Synchronization;

fLanguage

English

Publisher

ieee

Conference_Titel

Solid-State Circuits Conference, 2000. Digest of Technical Papers. ISSCC. 2000 IEEE International

Conference_Location

San Francisco, CA, USA

ISSN

0193-6530

Print_ISBN

0-7803-5853-8

Type

conf

DOI

10.1109/ISSCC.2000.839786

Filename

839786