Abstract- Power consumption in scan-based testing is a major concern nowadays. In this paper, we present a new X-filling technique to reduce both shift power and capture power during scan tests, namely LSC-filling. The basic idea is to use as few as possible X-bits to keep the capture power under the peak power limit of the circuit under test (CUT), while using the remaining X-bits to reduce the shift power to cut down the CUT’s average power consumption during scan tests as much as possible. In addition, by carefully selecting the X-filling order, our X-filling technique is able to achieve lower capture power when compared to existing methods. Experimental results on ISCAS’89 benchmark circuits show the effectiveness of the proposed method...
Massive power consumption during VLSI testing is a serious threat to reliability concerns of ubiquit...
Multilayer Data Copy (MDC) [1] is an effective test data compression scheme for achieving low shift-...
This paper shows that not every scan cell contributes equally to the power consumption during scan b...
In scan-based tests, power consumptions in both shift and capture phases may be significantly higher...
[[abstract]]A scheme that ATPG-based technique for reducing shift and capture power during scan test...
Research on low-power scan testing has been focused on the shift mode, with little consideration giv...
Research on low-power scan testing has been focused on the shift mode, with little or no considerati...
Excessive power dissipation can cause high voltage droop on the power grid, leading to timing failur...
[[abstract]]ATPG-based technique for reducing shift and capture power during scan testing is present...
Low power design techniques have been employed for more than two decades, however an emerging proble...
[[abstract]]In this paper, we present an X-Fill (QC-Fill) method for not only slashing the test time...
ISLPED : 2011 International Symposium on Low Power Electronics and Design , 1-3 Aug 2011 , Fukuoka, ...
X-filling is preferred for low-capture-power scan test generation, since it reduces IR-drop-induced ...
[[abstract]]Recently, power dissipation in full-scan testing has brought a great challenge for test ...
[[abstract]]This paper presents an X-fill scheme that properly utilizes the don't-care bits in test ...
Massive power consumption during VLSI testing is a serious threat to reliability concerns of ubiquit...
Multilayer Data Copy (MDC) [1] is an effective test data compression scheme for achieving low shift-...
This paper shows that not every scan cell contributes equally to the power consumption during scan b...
In scan-based tests, power consumptions in both shift and capture phases may be significantly higher...
[[abstract]]A scheme that ATPG-based technique for reducing shift and capture power during scan test...
Research on low-power scan testing has been focused on the shift mode, with little consideration giv...
Research on low-power scan testing has been focused on the shift mode, with little or no considerati...
Excessive power dissipation can cause high voltage droop on the power grid, leading to timing failur...
[[abstract]]ATPG-based technique for reducing shift and capture power during scan testing is present...
Low power design techniques have been employed for more than two decades, however an emerging proble...
[[abstract]]In this paper, we present an X-Fill (QC-Fill) method for not only slashing the test time...
ISLPED : 2011 International Symposium on Low Power Electronics and Design , 1-3 Aug 2011 , Fukuoka, ...
X-filling is preferred for low-capture-power scan test generation, since it reduces IR-drop-induced ...
[[abstract]]Recently, power dissipation in full-scan testing has brought a great challenge for test ...
[[abstract]]This paper presents an X-fill scheme that properly utilizes the don't-care bits in test ...
Massive power consumption during VLSI testing is a serious threat to reliability concerns of ubiquit...
Multilayer Data Copy (MDC) [1] is an effective test data compression scheme for achieving low shift-...
This paper shows that not every scan cell contributes equally to the power consumption during scan b...