doi: 10.3850/978-3-9815370-4-8_0233
Combining Adaptive Alternate Test and Multi-Site
Gildas Leger
Instituto de Microlectrónica de Sevilla, Centro Nacional de Microelectrónica
Consejo Superior de Investigaciones Científicas (CSIC) and Universidad de Sevilla
Av. Américo Vespucio s/n, 41092 Sevilla, Spain.
leger@imse-cnm.csic.es
ABSTRACT
Testing analog, mixed-signal and RF circuits represents
one of the main cost components for complex SoCs. Multisite
Testing is widely accepted as a straightforward technique
to reduce the effective test time. This paper shows that an
adaptive Alternate Test approach can be compatible with a multisite
strategy. The proposed solution consists in ordering offline
the signatures acquisition sequence and training incremental
regression models for each new feature. These models can be used
to diagnose the circuit as good, provided that the estimate of the
performance is larger than the specification plus a guard-band
related to the model error. If all the sites are diagnosed as good,
the test program can be halted before completion. This decision
is taken on-line and makes this scheme adaptive. We provide an
analytical study of the expected test time reduction and of the test
escape penalty that is incurred. Results obtained from post-layout
MonteCarlo simulations of an LNA demonstrate the validity of
the approach and show that significant test time improvements
can be obtained, even for large number of sites, whenever the
manufacturing yield is sufficiently high.
Full Text (PDF)
|