Title :
Composite sequence compaction for finite-state machines using block entropy and high-order Markov models
Author :
Marculescu, Radu ; Marculescu, Diana ; Pedram, Massoud
Author_Institution :
Dept. of Electr. Eng., Univ. of Southern California, Los Angeles, CA, USA
Abstract :
The objective of this paper is to provide an effective technique far accurate modeling of the external input sequences that affect the behavior of Finite State Machines (FSMs). Based on the block entropy concept, we present a technique for identifying the order of variable-order Markov sources of information. Furthermore, using dynamic Markov modeling, we propose an effective approach to compact an initial sequence into a much shorter equivalent one. The compacted sequence, can be subsequently used with any available simulator to derive the steady-state and transition probabilities, and the total power consumption in the target circuit. As the results demonstrate, large compaction ratios of orders of magnitude can be obtained without significant loss (less than 5% on average) in the accuracy of estimated values.
Keywords :
Markov processes; entropy; finite state machines; probability; block entropy models; compaction ratios; composite sequence compaction; dynamic Markov modeling; external input sequences; finite-state machines; high-order Markov models; steady-state probabilities; total power consumption; transition probabilities; variable-order Markov sources; Automata; Circuit simulation; Compaction; Contracts; Energy consumption; Entropy; Permission; Probability; Statistics; Steady-state;
Conference_Titel :
Low Power Electronics and Design, 1997. Proceedings., 1997 International Symposium on
Conference_Location :
Monterey, CA, USA
Print_ISBN :
0-89791-903-3
