Reconfigured scan forest for test application cost, test data volume, and test power reduction

D Xiang, K Li, J Sun, H Fujiwara - IEEE Transactions on …, 2007 - ieeexplore.ieee.org
D Xiang, K Li, J Sun, H Fujiwara
IEEE Transactions on Computers, 2007ieeexplore.ieee.org
A new scan architecture called reconfigured scan forest is proposed for cost-effective scan
testing. Multiple scan flip-flops can be grouped based on structural analysis that avoids new
untestable faults due to new reconvergent fanouts. The proposed new scan architecture
allows only a few scan flip-flops to be connected to the XOR trees. The size of the XOR trees
can be greatly reduced compared with the original scan forest; therefore, area overhead and
routing complexity can be greatly reduced. It is shown that test application cost, test data …
A new scan architecture called reconfigured scan forest is proposed for cost-effective scan testing. Multiple scan flip-flops can be grouped based on structural analysis that avoids new untestable faults due to new reconvergent fanouts. The proposed new scan architecture allows only a few scan flip-flops to be connected to the XOR trees. The size of the XOR trees can be greatly reduced compared with the original scan forest; therefore, area overhead and routing complexity can be greatly reduced. It is shown that test application cost, test data volume, and test power with the proposed scan forest architecture can be greatly reduced compared with the conventional full scan design with a single scan chain and several recent scan testing methods
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