A repeater optimization methodology for deep sub-micron, high-performance processors

Author

Li, David ; Pua, Andrew ; Srivastava, Pranjal ; Ko, Uming

Author_Institution

Texas Instrum. Inc., Dallas, TX, USA

fYear

1997

fDate

12-15 Oct 1997

Firstpage

726

Lastpage

731

Abstract

As process technology scales down to deep sub-micron and the frequency of a high-performance processor increases beyond 300 MHz, coupling induced signal integrity problems become more severe. Ignoring coupling effects can lead to functional failures or speed degradation. As a result, the traditional approach of repeater insertion driven by propagation delay and slew rate optimization becomes inadequate. The authors propose a design methodology to select optimal repeaters for high-performance processors by considering not only the delay and slew rate, but also crosstalk effects. A concurrent decision diagram (CDD) is further suggested to achieve crosstalk constraints with various trade-offs

Keywords

CMOS digital integrated circuits; VLSI; circuit optimisation; crosstalk; delays; diagrams; integrated circuit design; integrated circuit noise; microprocessor chips; repeaters; concurrent decision diagram; coupling induced signal integrity problems; crosstalk constraints; crosstalk effects; deep sub-micron high-performance processors; design methodology; functional failures; propagation delay; repeater insertion; repeater optimization methodology; select optimal repeaters; slew rate optimization; speed degradation; static CMOS; Capacitance; Crosstalk; Delay effects; Frequency; Integrated circuit interconnections; Optimization methods; Propagation delay; Repeaters; Signal processing; Wire;

fLanguage

English

Publisher

ieee

Conference_Titel

Computer Design: VLSI in Computers and Processors, 1997. ICCD '97. Proceedings., 1997 IEEE International Conference on

Conference_Location

Austin, TX

ISSN

1063-6404

Print_ISBN

0-8186-8206-X

Type

conf

DOI

10.1109/ICCD.1997.628945

Filename

628945