Theoretical bounds for switching activity analysis in finite-state machines

Author

Marculescu, Diana ; Marculescu, Radu ; Pedram, Massoud

Author_Institution

Dept. of Electr. Eng. Syst., Univ. of Southern California, Los Angeles, CA, USA

fYear

1998

fDate

10-12 Aug. 1998

Firstpage

36

Lastpage

41

Abstract

The objective of this paper is to provide lower and upper bounds for the switching activity on the state lines in Finite State Machines (FSMs). Using a Markov chain model for the behavior of the states of the FSM we derive theoretical bounds for the average Hamming distance on the state lines which are valid irrespective of the state encoding used in the final implementation. Such lower and upper bounds, in addition to providing a target for any state assignment algorithm, can also be used as parameters in a high-level model of power and thus provide an early indication about the performance limits of the target FSM. Experimental results obtained for the mcnc´91 benchmark suite show that our bounds are tighter than the bounds reported previously by other researchers and can be effectively used in a high-level power estimation framework.

Keywords

Markov processes; circuit analysis computing; finite state machines; logic design; sequential switching; switching theory; FSM; Markov chain model; average Hamming distance; finite-state machines; high-level model; high-level power estimation framework; performance limits; power estimation; state assignment algorithm; state lines; switching activity analysis; theoretical bounds;

fLanguage

English

Publisher

ieee

Conference_Titel

Low Power Electronics and Design, 1998. Proceedings. 1998 International Symposium on

Conference_Location

Monterey, CA, USA

Print_ISBN

1-58113-059-7

Type

conf

Filename

708152