Title :
Designing self-testable multi-chip modules
Author :
Zorian, Yervant ; Bederr, Hakim
Author_Institution :
AT&T Bell Labs., Princeton, NJ, USA
Abstract :
This paper addresses the problem of Multi-Chip Module (MCM) testing, and specifically testing assembled MCM performance. The presented solution is based-on self-test. It augments the conventional single-chip BIST approach, which is needed to produce known-good-dies, to a new multi-chip BIST solution. The multi-chip BIST puts the entire module in a self-test mode. This self-test mode not only provides detection of static and dynamic faults, but also identifies failed elements, i.e. bad dies or substrate. The multi-chip self-test scheme is based on a pseudo-random test approach and uses a multi-signature evaluation technique. The hardware design of multi-chip and single-chip self-test blocks are combined under a common architecture called the Dual BIST Architecture. The paper describes a set of design configurations to create Dual BIST Architecture. The presented BIST solution provides a reliable static and dynamic test at the module level as well as the bare die level
Keywords :
built-in self test; design for testability; integrated circuit design; integrated circuit testing; multichip modules; Dual BIST Architecture; design; dynamic faults; failed elements; multi-chip BIST; multi-chip modules; multi-signature evaluation; pseudo-random testing; self-testing; single-chip BIST; static faults; Assembly; Automatic testing; Built-in self-test; Design for testability; Fault detection; Fault diagnosis; Hardware; Manufacturing; Model driven engineering; Packaging;
Conference_Titel :
European Design and Test Conference, 1996. ED&TC 96. Proceedings
Conference_Location :
Paris
Print_ISBN :
0-8186-7424-5
DOI :
10.1109/EDTC.1996.494146
