Performance-driven system partitioning on multi-chip modules

Author

Shih, Minshine ; Kuh, Ernest S. ; Tsay, Ren-Song

Author_Institution

California Univ., Berkeley, CA, USA

fYear

1992

fDate

8-12 Jun 1992

Firstpage

53

Lastpage

56

Abstract

The authors propose an efficient algorithm for system partitioning under timing and capacity constraints. They consider the problem of assigning functional blocks into slots on multi-chip modules during high level design to have fast feedback on the impact of high level design decisions. A clustering step is used to ensure timing correctness, followed by packaging and the K&L algorithm to satisfy capacity constraints while minimizing net crossings. The method is unique in that net crossings are minimized while satisfying timing and capacity constraints. Test results showed that the method eliminated timing violations and obtained a comparable number of net crossings to that of the K&L algorithm using similar CPU time. The method can be extended to use partitioning algorithms other than K&L

Keywords

circuit layout CAD; modules; packaging; K&L algorithm; capacity constraints; clustering step; functional blocks; high level design; multichip modules; net crossings; packaging; performance driven system partitioning; timing constraints; Central Processing Unit; Circuits; Clustering algorithms; Delay estimation; Feedback; Partitioning algorithms; Registers; Time factors; Timing; Wires;

fLanguage

English

Publisher

ieee

Conference_Titel

Design Automation Conference, 1992. Proceedings., 29th ACM/IEEE

Conference_Location

Anaheim, CA

ISSN

0738-100X

Print_ISBN

0-8186-2822-7

Type

conf

DOI

10.1109/DAC.1992.227862

Filename

227862