Add to ORKG[[abstract]]This paper proposes a novel method to reduce the peak power of multiple scan chain based circuits during testing. The peak periodicity and the peak width of the power waveforms for scan-based circuits are analyzed. An interleaving scan architecture based on adding delay buffers among the scan chains is developed which can significantly reduce the peak power. This method can be efficiently integrated with a recently proposed broadcast multiple scan architecture due to the sharing of scan patterns. The effects of the interleaving scan technique applied to the conventional multiple scan and the broadcast multiple scan with 10 scan chains are investigated. Up to 51% peak power reduction can be achieved when the data output of a scan...
[[abstract]]A multiphase clocking technique is presented for reducing the test power for scan-based ...
Scan circuit generally causes excessive switching activity compared to normal circuit operation. The...
[[abstract]]As test data continues to grow quickly, test cost also increases. For the sake of decrea...
This paper presents a new technique for power minimization during test application in sequential cir...
Power dissipated during test application is substantially higher than power dissipated during functi...
An effective technique to save power during scan based test is to switch off unused scan chains. The...
This paper proposes a low power scan test scheme and formulates a problem based on this scheme. In t...
Multiple scan chain has been used in DFT (design for test) architectures primarily to reduce test ap...
This paper shows that not every scan cell contributes equally to the power consumption during scan b...
textThis dissertation addresses the problem of excessive power dissipation during scan testing. Hig...
Low power design techniques have been employed for more than two decades, however an emerging proble...
Power dissipation during test is a major challenge in testing integrated circuits. Dynamic power has...
Significant peak power (PP), thus power droop (PD), during test is a serious concern for modern, com...
International audienceScan-based architectures, though widely used in modern designs, are expensive ...
Significant peak power (PP), thus power droop (PD), during test is a serious concern for modern, com...
[[abstract]]A multiphase clocking technique is presented for reducing the test power for scan-based ...
Scan circuit generally causes excessive switching activity compared to normal circuit operation. The...
[[abstract]]As test data continues to grow quickly, test cost also increases. For the sake of decrea...
This paper presents a new technique for power minimization during test application in sequential cir...
Power dissipated during test application is substantially higher than power dissipated during functi...
An effective technique to save power during scan based test is to switch off unused scan chains. The...
This paper proposes a low power scan test scheme and formulates a problem based on this scheme. In t...
Multiple scan chain has been used in DFT (design for test) architectures primarily to reduce test ap...
This paper shows that not every scan cell contributes equally to the power consumption during scan b...
textThis dissertation addresses the problem of excessive power dissipation during scan testing. Hig...
Low power design techniques have been employed for more than two decades, however an emerging proble...
Power dissipation during test is a major challenge in testing integrated circuits. Dynamic power has...
Significant peak power (PP), thus power droop (PD), during test is a serious concern for modern, com...
International audienceScan-based architectures, though widely used in modern designs, are expensive ...
Significant peak power (PP), thus power droop (PD), during test is a serious concern for modern, com...
[[abstract]]A multiphase clocking technique is presented for reducing the test power for scan-based ...
Scan circuit generally causes excessive switching activity compared to normal circuit operation. The...
[[abstract]]As test data continues to grow quickly, test cost also increases. For the sake of decrea...