Combining low-power scan testing and test data compression for system-on-a-chip

被引:0
|
作者
Chandra, A [1 ]
Chakrabarty, K [1 ]
机构
[1] Duke Univ, Dept Elect & Comp Engn, Durham, NC 27705 USA
来源
38TH DESIGN AUTOMATION CONFERENCE PROCEEDINGS 2001 | 2001年
关键词
embedded core testing; Golomb codes; precomputed test sets; scan testing; switching activity; test set encoding;
D O I
暂无
中图分类号
TP3 [计算技术、计算机技术];
学科分类号
0812 ;
摘要
We present a novel technique to reduce both test data volume and scan power dissipation using test data compression for system-on-a-chip testing. Power dissipation during test mode using ATPG-compacted test patterns is much higher than during functional mode. We show that Golomb coding of precomputed test sets leads to significant savings in peak and average power, without requiring either a slower scan clock or blocking logic in the scan cells. We also improve upon prior work on Golomb coding by showing that a separate cyclical scan register is not necessary for pattern decompression. Experimental results for the larger ISCAS 89 benchmarks show that reduced test data volume and low power scan testing can indeed be achieved in all cases.
引用
收藏
页码:166 / 169
页数:4
相关论文
共 50 条
  • [21] Improving compression ratio, area overhead, and test application time for System-on-a-Chip test data compression/decompression
    Gonciari, PT
    Al-Hashimi, BM
    Nicolici, N
    DESIGN, AUTOMATION AND TEST IN EUROPE CONFERENCE AND EXHIBITION, 2002 PROCEEDINGS, 2002, : 604 - 611
  • [22] Integrated test data decompression and core wrapper design for low-cost system-on-a-chip testing
    Gonciari, PT
    Al-Hashimi, BM
    Nicolici, N
    INTERNATIONAL TEST CONFERENCE 2002, PROCEEDINGS, 2002, : 64 - 73
  • [23] System-on-a-chip test-data compression and decompression architectures based on Golomb codes
    Chandra, A
    Chakrabarty, K
    IEEE TRANSACTIONS ON COMPUTER-AIDED DESIGN OF INTEGRATED CIRCUITS AND SYSTEMS, 2001, 20 (03) : 355 - 368
  • [24] Test data compression using Lingering Component Reduction technique for system-on-a-chip applications
    Chakrapani, K.
    Muthaiah, R.
    COMPUTERS & ELECTRICAL ENGINEERING, 2018, 66 : 1 - 13
  • [25] Low-power selective pattern compression for scan-based test applications
    Sivanantham, S.
    Mallick, P. S.
    Perinbam, J. Raja Paul
    COMPUTERS & ELECTRICAL ENGINEERING, 2014, 40 (04) : 1053 - 1063
  • [26] On using exponential-Golomb codes and subexponential codes for system-on-a-chip test data compression
    Li, L
    Chakrabarty, K
    JOURNAL OF ELECTRONIC TESTING-THEORY AND APPLICATIONS, 2004, 20 (06): : 667 - 670
  • [27] Architecture of a data compression-based low-power scan-path
    Alisafaee, M
    Hatami, S
    Atoofian, E
    Navabi, Z
    Afzali-Kusha, A
    16TH INTERNATIONAL CONFERENCE ON MICROELECTRONICS, PROCEEDINGS, 2004, : 768 - 771
  • [28] On Using Exponential-Golomb Codes and Subexponential Codes for System-on-a-Chip Test Data Compression
    Lei Li
    Krishnendu Chakrabarty
    Journal of Electronic Testing, 2004, 20 : 667 - 670
  • [29] A test architecture for system-on-a-chip
    Wang, YS
    Xiao, LY
    Yu, MY
    Wang, JX
    Ye, YZ
    ATS 2003: 12TH ASIAN TEST SYMPOSIUM, PROCEEDINGS, 2003, : 506 - 506
  • [30] Fully Integrated Low-Power Energy Harvesting System With Simplified Ripple Correlation Control for System-on-a-Chip Applications
    Shim, Minseob
    Jeong, Junwon
    Maeng, Junyoung
    Park, Inho
    Kim, Chulwoo
    IEEE TRANSACTIONS ON POWER ELECTRONICS, 2019, 34 (05) : 4353 - 4361
12345