Title :
Supplying known good die for MCM applications using low cost embedded testing
Author :
Frisch, A. ; Aigner, M. ; Almy, T. ; Greub, H. ; Hazra, M. ; Mohr, S. ; Naclerio, N. ; Russell, W. ; Stebnisky, M.
Author_Institution :
Tektronix Inc., Beaverton, OR, USA
Abstract :
A ready supply of high quality Known Good Die (KGD) is essential for obtaining acceptable Multi-Chip Module (MCM) yields and reducing costs. Unfortunately, the testers needed for testing and screening VLSI chips to supply high quality KGD are quite expensive, especially for high speed or high pin count ICs. In addition, there are issues connected with testing accuracy-the tester environment may limit performance testing because of interconnect length and capacitance, and with burn-in-which may require temporary packaging of die. Building special test equipment is only cost effective if production volumes are large. Hence, a low cost alternative for at-speed testing that yields high quality die is needed to drive down the cost of low volume or prototype MCMs. This paper describes a double-blind experiment devised to prove the viability of a KGD methodology based upon wafer level test-using embedded performance testing circuits-and wafer level burn-in
Keywords :
VLSI; automatic test software; automatic testing; integrated circuit packaging; integrated circuit testing; integrated circuit yield; multichip modules; BIST; CYPRIS test; MCM; VLSI; at-speed testing; burn-in; costs reduction; double-blind experiment; embedded performance testing circuits; functional test; high quality die; known good die; layout macros; low cost embedded testing; silicon cost; wafer level test; yield; Circuit testing; Contracts; Costs; Integrated circuit interconnections; Probes; Silicon; Software testing; System testing; Test equipment; Timing;
Conference_Titel :
Test Conference, 1995. Proceedings., International
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-2992-9
DOI :
10.1109/TEST.1995.529857
