Title :
Test Power Reduction by Blocking Scan Cell Outputs
Author :
Lin, Xijiang ; Rajski, Janusz
Author_Institution :
Mentor Graphics Corp., Wilsonville, OR
Abstract :
Power consumption during scan-based test becomes a major concern in modern nanometer technologies. Gating the outputs of scan cells can dramatically reduce the scan shift power. In this paper, we utilize the same gating logic at the outputs of scan cells to reduce the capture power consumption. This is achieved by inserting block enable cells (BECs) into the design to dynamically control the gating logic. During capture the BECs enable the gating logic to block the transitions originated from a subset of scan chains or scan segments propagating to combinational logic in order to reduce capture power. The implementation of the proposed method in test compression environment is also discussed. The experimental results on industrial designs show the significant capture power reduction by using proposed techniques.
Keywords :
circuit testing; combinational circuits; logic gates; power consumption; blocking scan cell outputs; combinational logic; gating logic; power consumption; power reduction; scan-based test; Circuit testing; Clocks; Current supplies; Encoding; Energy consumption; Graphics; Hardware; Logic design; Logic testing; Power dissipation; ATPG; Design-for-test; low power test; scan cell; test compression;
Conference_Titel :
Asian Test Symposium, 2008. ATS '08. 17th
Conference_Location :
Sapporo
Print_ISBN :
978-0-7695-3396-4
DOI :
10.1109/ATS.2008.33
