Capture power management has become a necessity to avoid at-speed scan testing yield loss, especially for modern complex and low power designs. This paper proposes a test pattern generation methodology that utilizes the available clock-gating mechanism, a popular low power design technique, to reduce the launch cycle weighted switching activity (WSA) for at-speed scan testing. Compared to previous techniques that consider clock-gating, a significant launch cycle WSA reduction is achieved without severe test pattern inflation.2011 IEEE International Test Conference, 20-22 September 2011, Anaheim, CA, US
Capture-safety, defined as the avoidance of any timing error due to unduly high launch switching act...
A new low power test pattern generator which can effectively reduce the average power consumption du...
Reducing excessive launch switching activity (LSA) is now mandatory in at-speed scan testing for avo...
Scan-based at-speed testing is a key technology to guarantee timing-related test quality in the deep...
With the advent of sub-nanometer geometries, integrated circuits (ICs) are required to be checked fo...
At-speed scan testing is susceptible to yield loss risk due to power supply noise caused by excessiv...
[[abstract]]Recently, power dissipation in full-scan testing has brought a great challenge for test ...
This paper proposes a novel scheme to manage capture power in a pinpoint manner for achieving guaran...
High power consumption in scan testing can cause undue yield loss which has increasingly become a se...
ITC : 2011 IEEE International Test Conference , 20-22 Sep. 2011 , Anaheim, CA, USAHigh power consump...
At-speed scan testing, based on ATPG and ATE, is indispensable to guarantee timing-related test qual...
VTS : 2011 IEEE 29th VLSI Test Symposium , 1-5 May. 2011 , Dana Point, CA, USAAt-speed scan testing ...
High-quality at-speed scan testing, characterized by high small-delay-defect detecting capability, i...
Power-aware X-filling is a preferable approach to avoiding IR-drop-induced yield loss in at-speed sc...
Scan-based testing is crucial to ensuring correct functioning of chips. In this scheme, the scan and...
Capture-safety, defined as the avoidance of any timing error due to unduly high launch switching act...
A new low power test pattern generator which can effectively reduce the average power consumption du...
Reducing excessive launch switching activity (LSA) is now mandatory in at-speed scan testing for avo...
Scan-based at-speed testing is a key technology to guarantee timing-related test quality in the deep...
With the advent of sub-nanometer geometries, integrated circuits (ICs) are required to be checked fo...
At-speed scan testing is susceptible to yield loss risk due to power supply noise caused by excessiv...
[[abstract]]Recently, power dissipation in full-scan testing has brought a great challenge for test ...
This paper proposes a novel scheme to manage capture power in a pinpoint manner for achieving guaran...
High power consumption in scan testing can cause undue yield loss which has increasingly become a se...
ITC : 2011 IEEE International Test Conference , 20-22 Sep. 2011 , Anaheim, CA, USAHigh power consump...
At-speed scan testing, based on ATPG and ATE, is indispensable to guarantee timing-related test qual...
VTS : 2011 IEEE 29th VLSI Test Symposium , 1-5 May. 2011 , Dana Point, CA, USAAt-speed scan testing ...
High-quality at-speed scan testing, characterized by high small-delay-defect detecting capability, i...
Power-aware X-filling is a preferable approach to avoiding IR-drop-induced yield loss in at-speed sc...
Scan-based testing is crucial to ensuring correct functioning of chips. In this scheme, the scan and...
Capture-safety, defined as the avoidance of any timing error due to unduly high launch switching act...
A new low power test pattern generator which can effectively reduce the average power consumption du...
Reducing excessive launch switching activity (LSA) is now mandatory in at-speed scan testing for avo...