At-speed testing using external tester requires an expensive equipment, thus built-in self-test (BIST) is an alternative technique due to its ability to perform on-chip at-speed self-testing. The main issue in BIST f...At-speed testing using external tester requires an expensive equipment, thus built-in self-test (BIST) is an alternative technique due to its ability to perform on-chip at-speed self-testing. The main issue in BIST for at-speed testing is to obtain high delay fault coverage with a low hardware overhead. This paper presents an improved loop-based BIST scheme, in which a configurable MISR (multiple-input signature register) is used to generate test-pair sequences. The structure and operation modes of the BIST scheme are described. The topological properties of the state-transit ion- graph of t he proposed B IS T scheme are analyzed. B ased on it, an approach to design and efficiently implement the proposed BIST scheme is developed. Experimental results on academic benchmark circuits are presented to demonstrate the effectiveness of the proposed BIST scheme as well as the design approach.展开更多
基金the National Natural Science Foundation of China under grant Nos.69976002and 69733010.
文摘At-speed testing using external tester requires an expensive equipment, thus built-in self-test (BIST) is an alternative technique due to its ability to perform on-chip at-speed self-testing. The main issue in BIST for at-speed testing is to obtain high delay fault coverage with a low hardware overhead. This paper presents an improved loop-based BIST scheme, in which a configurable MISR (multiple-input signature register) is used to generate test-pair sequences. The structure and operation modes of the BIST scheme are described. The topological properties of the state-transit ion- graph of t he proposed B IS T scheme are analyzed. B ased on it, an approach to design and efficiently implement the proposed BIST scheme is developed. Experimental results on academic benchmark circuits are presented to demonstrate the effectiveness of the proposed BIST scheme as well as the design approach.
