Title :
Constraining Transition Propagation for Low-Power Scan Testing Using a Two-Stage Scan Architecture
Author :
Xiang, Dong ; Li, Kaiwei ; Fujiwara, Hideo ; Thulasiraman, Krishnaiyan ; Sun, Jiaguang
Author_Institution :
Sch. of Software, Tsinghua Univ., Beijing
fDate :
5/1/2007 12:00:00 AM
Abstract :
A two-stage scan architecture is proposed to constrain transition propagation within a small part of scan flip-flops. Most scan flip-flops are deactivated during test application. The first stage includes multiple scan chains, where each scan chain is driven by a primary input. Each scan flip-flop in the multiple scan chains drives a group of scan flip-flops in the second stage. Scan flip-flops in different stages use separate clock signals. Test signals assigned to scan flip-flops in the multiple scan chains are applied to the scan flip-flops of the second stage in one clock cycle after the test vector has been applied to the multiple scan chains. There exists no transition at the scan flip-flops in the second stage when a test vector is applied to the multiple scan chains
Keywords :
clocks; flip-flops; logic testing; low-power electronics; clock disabling; clock tree test power consumption; constraining transition propagation; low-power scan testing; multiple scan chains; scan flip-flops; test application cost; two-stage scan architecture; Automatic testing; Built-in self-test; Circuit testing; Clocks; Combinational circuits; Costs; Energy capture; Energy consumption; Flip-flops; Sun; Clock disabling; clock tree test power consumption; scan testing; test application cost; test power;
Journal_Title :
Circuits and Systems II: Express Briefs, IEEE Transactions on
DOI :
10.1109/TCSII.2007.892393
