Title :
An efficient technique for processor automatic functional test generation based on evolutionary strategies
Author_Institution :
Fac. of Inf. & Inf. Technol., Slovak Univ. of Technol., Bratislava, Slovakia
Abstract :
This paper presents some results in the design and implementation of a universal functional test generator for VLSI circuits, such as microprocessor and processor cores. Our approach to test generation - the functional test generation method - is based on knowledges of instruction set architecture (ISA), functional description of VLSI systems at functional VHDL level and promising concept of software-based self test (SBST); for better test generation the genetic algorithm (GA) properties based on evolutionary strategies are used. The algorithm for automatic generation of functional test of processors (normal executable test sequence of instructions) is used in very flexible and effective tool - Automatic Functional Test Generator (AFTG). The determination of the test efficiency of instruction testing mixes is also discussed.
Keywords :
VLSI; fault tolerant computing; genetic algorithms; hardware description languages; instruction sets; integrated circuit design; integrated circuit testing; microprocessor chips; SBST; VLSI circuits; VLSI systems; evolutionary strategy; functional VHDL; functional description; functional test generation method; genetic algorithm; instruction set architecture; microprocessor; processor automatic functional test generation; processor cores; software based self test; test generation; universal functional test generator; Assembly; Circuit faults; Generators; Genetic algorithms; Microprocessors; Testing; Very large scale integration; SBST; VLSI functional testing; processor functional test generation; test simulation and verification;
Conference_Titel :
Information Technology Interfaces (ITI), Proceedings of the ITI 2011 33rd International Conference on
Conference_Location :
Dubrovnik
Print_ISBN :
978-1-61284-897-6
Electronic_ISBN :
1330-1012
