Flip-flop chaining architecture for power-efficient scan during test application

14th Asian Test Symposium (ATS'05) Pub Date : 2005-12-18 DOI:10.1109/ATS.2005.62
S. Gupta, Tarang Vaish, S. Chattopadhyay
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引用次数: 18

Abstract

Power dissipation in CMOS circuits during test time poses a crucial bottleneck for circuit performance and robustness. The power consumption due to switching activity while scan-in of test vectors and scan-out of responses is of particular concern. In this paper a methodology for scan chain modification and test vector adaptation is proposed to effectively reduce the scan test power consumption by controlling this switching activity. Proposed approach, unlike the many in published literature, does not incorporate reordering of scan cells; thus avoiding timing and routing overheads. ATPG software ATALANTA was used for test vector generation. The algorithm was verified for ISCAS’89 benchmark circuits, where it showed as much as 27.3% of reduction in switching activity during scan operations.
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触发器链结构,在测试应用期间进行节能扫描
CMOS电路在测试期间的功耗是影响电路性能和鲁棒性的关键瓶颈。在测试向量的扫描入和响应的扫描出时,由于开关活动而产生的功耗是特别值得关注的。本文提出了一种扫描链修改和测试向量自适应的方法,通过控制这种切换活动来有效降低扫描测试功耗。与许多已发表的文献不同,所提出的方法不包括扫描细胞的重新排序;这样就避免了定时和路由开销。使用ATPG软件ATALANTA生成测试载体。该算法在ISCAS ' 89基准电路中得到了验证,在扫描操作期间,它显示出多达27.3%的开关活动减少。
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14th Asian Test Symposium (ATS'05)
14th Asian Test Symposium (ATS'05)
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