Title :
RT level testability-driven partitioning
Author_Institution :
Dept. of Comput. & Inf. Sci., Linkoping Univ., Sweden
fDate :
30 Apr-3 May 1995
Abstract :
This paper presents a method of partitioning RT level designs based on testability analysis results. The partitioning is carried out in two steps: (1) the data path of a design is partitioned at some hard-to-test points detected by the testability analysis algorithm. These points are made directly accessible by some DFT techniques; and (2) the control part of a design is modified to operate in two modes. In normal mode, the design is controlled to fulfill the design function. In test mode, each partition is controlled independently. As a result, ATPG and test application for each partition can be done independently. In this approach, each partition is guaranteed to be acyclic, have good testability measurements and suitable size and depth for the ATPG tool to be used. When BIST technique is used, it also guarantees that these partitions are not random pattern resistant. Experiment with four benchmarks has shown the improvements on fault coverage, ATPG time and test application time after partitioning
Keywords :
automatic testing; built-in self test; design for testability; fault diagnosis; integrated circuit testing; logic CAD; logic partitioning; logic testing; ATPG; BIST technique; DFT techniques; RT level designs; acyclic partition; data path; design function; fault coverage; hard-to-test points; normal mode; test application time; test mode; testability analysis algorithm; testability measurements; testability-driven partitioning; Algorithm design and analysis; Automatic test pattern generation; Benchmark testing; Circuit testing; Clouds; Design for testability; Information science; Partitioning algorithms; Registers; Sequential analysis;
Conference_Titel :
VLSI Test Symposium, 1995. Proceedings., 13th IEEE
Conference_Location :
Princeton, NJ
Print_ISBN :
0-8186-7000-2
DOI :
10.1109/VTEST.1995.512634
