• Title/Summary/Keyword: Scan Test

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Test Methodology for Multiple Clocks Single Capture Scan Design based on JTAG IEEE1149.1 Standard (IEEE 1149.1 표준에 근거한 다중 클럭을 이용한 단일 캡쳐 스캔 설계에 적용되는 경계 주사 테스트 기법에 관한 연구)

  • Kim, In-Soo;Min, Hyoung-Bok
    • The Transactions of The Korean Institute of Electrical Engineers
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    • v.56 no.5
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    • pp.980-986
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    • 2007
  • Boundary scan test structure(JTAG IEEE 1149.1 standard) that supports an internal scan chain is generally being used to test CUT(circuit under test). Since the internal scan chain can only have a single scan-in port and a single scan-out port; however, existing boundary test methods can not be used when multiple scan chains are present in CUT. Those chains must be stitched to form a single scan chain as shown in this paper. We propose an efficient boundary scan test structure that adds a circuit called Clock Group Register(CGR) for multiple clocks testing within the design of multiple scan chains. The proposed CGR has the function of grouping clocks. By adding CGR to a previously existing boundary scan design, the design is modified. This revised scan design overcomes the limitation of supporting a single scan-in port and out port, and it bolsters multiple scan-in ports and out ports. Through our experiments, the effectiveness of CGR is proved. With this, it is possible to test more complicated designs that have high density with a little effort. Furthermore, it will also benefit in designing those complicated circuits.

Efficient Test Data Compression and Low Power Scan Testing in SoCs

  • Jung, Jun-Mo;Chong, Jong-Wha
    • ETRI Journal
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    • v.25 no.5
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    • pp.321-327
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    • 2003
  • Testing time and power consumption during the testing of SoCs are becoming increasingly important with an increasing volume of test data in intellectual property cores in SoCs. This paper presents a new algorithm to reduce the scan-in power and test data volume using a modified scan latch reordering algorithm. We apply a scan latch reordering technique to minimize the column hamming distance in scan vectors. During scan latch reordering, the don't-care inputs in the scan vectors are assigned for low power and high compression. Experimental results for ISCAS 89 benchmark circuits show that reduced test data and low power scan testing can be achieved in all cases.

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A Low Power scan Design Architecture (저전력을 고려한 스캔 체인 구조 변경)

  • Min, Hyoung-Bok;Kim, In-Soo
    • The Transactions of the Korean Institute of Electrical Engineers D
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    • v.54 no.7
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    • pp.458-461
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    • 2005
  • Power dissipated during test application is substantially higher than power dissipated during functional operation which can decrease the reliability and lead to yield loss. This paper presents a new technique for power minimization during test application in full scan sequential circuits. This paper shows freezing of combinational logic parts during scan shift operation in test mode. The freezing technique leads to power to minimization. Significant power reduction in the scan techniques is achieved on ISCAS 89 benchmarks.

Physical-Aware Approaches for Speeding Up Scan Shift Operations in SoCs

  • Lee, Taehee;Chang, Ik Joon;Lee, Chilgee;Yang, Joon-Sung
    • ETRI Journal
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    • v.38 no.3
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    • pp.479-486
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    • 2016
  • System-on-chip (SoC) designs have a number of flip-flops; the more flip-flops an SoC has, the longer the associated scan test application time will be. A scan shift operation accounts for a significant portion of a scan test application time. This paper presents physical-aware approaches for speeding up scan shift operations in SoCs. To improve the speed of a scan shift operation, we propose a layout-aware flip-flop insertion and scan shift operation-aware physical implementation procedure. The proposed combined method of insertion and procedure effectively improves the speed of a scan shift operation. Static timing analyses of state-of-the-art SoC designs show that the proposed approaches help increase the speeds of scan shift operations by up to 4.1 times that reached under a conventional method. The faster scan shift operation speeds help to shorten scan test application times, thus reducing test costs.

No-Holding Partial Scan Test Mmethod for Large VLSI Designs (대규모 집적회로 설계를 위한 무고정 부분 스캔 테스트 방법)

  • 노현철;이동호
    • Journal of the Korean Institute of Telematics and Electronics C
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    • v.35C no.3
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    • pp.1-15
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    • 1998
  • In this paper, we propose a partial scan test method which can be applied to large VLSI designs. In this method, it is not necessary to hold neither scanned nor unscanned flip-flops during scan in, test application,or scan out. This test method requires almost identical design for testability modification and test wave form when compared to the full scan test method, and the method is applicable to large VLSI chips. The well known FAN algorithm has been modified to devise to sequential ATPG algorithm which is effective for the proposed test method. In addition, a partial scan algorithm which is effective for the proposed test method. In addition, a partial algorithm determined a maximal set of flip-flops which gives high fault coverage when they are unselected. The experimental resutls show that the proposed method allow as large as 20% flip-flops to remain unscanned without much decrease in the full scan fault coverage.

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Test Generation of Sequential Circuits Using A Partial Scan Based on Conversion to Pseudo-Combinational Circuits (유사 조합 회로로의 변환에 기초한 부분 스캔 기법을 이용한 디지털 순차 회로의 테스트 기법 연구)

  • Min, Hyoung-Bok
    • The Transactions of the Korean Institute of Electrical Engineers
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    • v.43 no.3
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    • pp.504-514
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    • 1994
  • Combinational automatic test pattern generators (CATPG) have already been commercialized because their algorithms are well known and practical, while sequential automatic test pattern generators(SATPG) have been regarded as impractical because they are computationally complex. A technique to use CATPG instead of SATPG for test generation of sequential circuits is proposed. Redesign of seauential circuits such as Level Sensitive Scan Design (LSSD) is inevitable to use CATPG. Various partial scan techniques has been proposed to avoid full scan such as LSSD. It ha sbeen reported that SATPG is required to use partial scan techniques. We propose a technique to use CATPG for a new partial scan technique, and propose a new CATPG algorithm for the partially scanned circuits. The partial scan technique can be another choice of design for testability because it is computationally advantageous.

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A New Scan Partition Scheme for Low-Power Embedded Systems

  • Kim, Hong-Sik;Kim, Cheong-Ghil;Kang, Sung-Ho
    • ETRI Journal
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    • v.30 no.3
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    • pp.412-420
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    • 2008
  • A new scan partition architecture to reduce both the average and peak power dissipation during scan testing is proposed for low-power embedded systems. In scan-based testing, due to the extremely high switching activity during the scan shift operation, the power consumption increases considerably. In addition, the reduced correlation between consecutive test patterns may increase the power consumed during the capture cycle. In the proposed architecture, only a subset of scan cells is loaded with test stimulus and captured with test responses by freezing the remaining scan cells according to the spectrum of unspecified bits in the test cubes. To optimize the proposed process, a novel graph-based heuristic to partition the scan chain into several segments and a technique to increase the number of don't cares in the given test set have been developed. Experimental results on large ISCAS89 benchmark circuits show that the proposed technique, compared to the traditional full scan scheme, can reduce both the average switching activities and the average peak switching activities by 92.37% and 41.21%, respectively.

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Low Power Scan Test Methodology Using Hybrid Adaptive Compression Algorithm (하이브리드 적응적 부호화 알고리즘을 이용한 저전력 스캔 테스트 방식)

  • Kim Yun-Hong;Jung Jun-Mo
    • The Journal of the Korea Contents Association
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    • v.5 no.4
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    • pp.188-196
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    • 2005
  • This paper presents a new test data compression and low power scan test method that can reduce test time and power consumption. A proposed method can reduce the scan-in power and test data volume using a modified scan cell reordering algorithm and hybrid adaptive encoding method. Hybrid test data compression method uses adaptively the Golomb codes and run-length codes according to length of runs in test data, which can reduce efficiently the test data volume compare to previous method. We apply a scan cell reordering technique to minimize the column hamming distance in scan vectors, which can reduce the scan-in power consumption and test data. Experimental results for ISCAS 89 benchmark circuits show that reduced test data and low power scan testing can be achieved in all cases. The proposed method showed an about a 17%-26% better compression ratio, 8%-22% better average power consumption and 13%-60% better peak power consumption than that of previous method.

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Scan Selection Algorithms for No Holding Partial Scan Test Method (무고정 부분 스캔 테스트 방법을 위한 스캔 선택 알고리즘)

  • 이동호
    • Journal of the Korean Institute of Telematics and Electronics C
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    • v.35C no.12
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    • pp.49-58
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    • 1998
  • In this paper, we report new algorithms to select scan flip-flops for the no holding partial scan test method. The no holding partial scan test method is identical to the full scan test method except that some flip-flops are left unscanned. This test method does not hold scanned or unscanned flip-flops while shifting in test vectors, or applying them, or shifting out test results. The proposed algorithm allows a large number of flip-flops to be left unscanned while maintaining almost the complete full scan fault coverage.

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A Study on the Performance Analysis of an Extended Scan Path Architecture (확장된 스캔 경로 구조의 성능 평가에 관한 연구)

  • 손우정
    • Journal of the Korea Society of Computer and Information
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    • v.3 no.2
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    • pp.105-112
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    • 1998
  • In this paper, we propose a ESP(Extended Scan Path) architecture for multi-board testing. The conventional architectures for board testing are single scan path and multi-scan path. In the single scan path architecture, the scan path for test data is just one chain. If the scan path is faulty due to short or open, the test data is not valid. In the multi-scan path architecture, there are additional signals in multi-board testing. So conventional architectures are not adopted to multi-board testing. In the case of the ESP architecture, even though scan path is either short or open, it doesn't affect remaining other scan paths. As a result of executing parallel BIST and IEEE 1149.1 boundary scan test by using the proposed ESP architecture, we observed that the test time is short compared with the single scan path architecture. By comparing the ESP architecture with single scan path responding to independency of scan path, test time and with multi-scan path responding to signal, synchronization, we showed that the architecture has improved results.

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