Evolvable Hardware or Learning Hardware? Induction of State Machines from Temporal Logic Constraints

E
EH
1999
The First NASA/DOD Workshop on Evolvable Hardware
Abstract - Evolvable Hardware or Learning Hardware? Induction of State Machines from Temporal Logic Constraints

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The First NASA/DOD Workshop on Evolvable Hardware

Pasadena, California

July 19-July 21

ISBN: 0-7695-0256-3

	ASCII Text	x
	Marek Perkowski, Alan Mishchenko, Anatoly Chebotarev, "Evolvable Hardware or Learning Hardware? Induction of State Machines from Temporal Logic Constraints," Evolvable Hardware, NASA/DoD Conference on, pp. 129, The First NASA/DOD Workshop on Evolvable Hardware, 1999.

	BibTex	x
	@article{ 10.1109/EH.1999.785444, author = {Marek Perkowski and Alan Mishchenko and Anatoly Chebotarev}, title = {Evolvable Hardware or Learning Hardware? Induction of State Machines from Temporal Logic Constraints}, journal ={Evolvable Hardware, NASA/DoD Conference on}, volume = {0}, year = {1999}, isbn = {0-7695-0256-3}, pages = {129}, doi = {http://doi.ieeecomputersociety.org/10.1109/EH.1999.785444}, publisher = {IEEE Computer Society}, address = {Los Alamitos, CA, USA}, }

	RefWorks Procite/RefMan/Endnote	x
	TY - CONF JO - Evolvable Hardware, NASA/DoD Conference on TI - Evolvable Hardware or Learning Hardware? Induction of State Machines from Temporal Logic Constraints SN - 0-7695-0256-3 SP EP A1 - Marek Perkowski, A1 - Alan Mishchenko, A1 - Anatoly Chebotarev, PY - 1999 VL - 0 JA - Evolvable Hardware, NASA/DoD Conference on ER -

Marek Perkowski, Portland State University

Alan Mishchenko, Portland State University

Anatoly Chebotarev, Glushkov Institute of Cybernetics

DOI Bookmark: http://doi.ieeecomputersociety.org/10.1109/EH.1999.785444

Here we advocate an approach to learning hardware based on induction of finite state machines from temporal logic constraints. The method involves training on examples, constraints solving, determinization, state machine minimization, structural mapping, functional decomposition of multi-valued logic functions and relations, and finally, FPGA mapping. In our approach, learning takes place on the level of constraint acquisition and functional decomposition rather than on the lower level of programming binary switches. Our learning strategy is based on the principle of Occam's Razor, facilitating generalization and discovery. We implemented several learning algorithms using DEC-PERLE-1 FPGA board.

Citation:

Marek Perkowski, Alan Mishchenko, Anatoly Chebotarev, "Evolvable Hardware or Learning Hardware? Induction of State Machines from Temporal Logic Constraints," eh, pp.129, The First NASA/DOD Workshop on Evolvable Hardware, 1999

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