Add to ORKGAbstract—Even though test set embedding (TSE) methods of-fer very high compression efficiency, their excessively long test application times prohibit their use for testing systems-on-chip (SoC). To alleviate this problem we present two new types of linear feedback shift registers (LFSRs), the Single-State-Skip and the Variable-State-Skip LFSRs. Both are normal LFSRs with the addition of the State-Skip circuit, which is used instead of the characteristic-polynomial feedback structure for performing successive jumps of constant and variable length in their state sequence. By using Single-State-Skip LFSRs for testing single or multiple identical cores and Variable-State-Skip LFSRs for testing multiple non-identical cores we get the well-known ...
[[abstract]]We present a Linear Feedback Shift Register (LFSR) like architecture, because the LFSR c...
Abstract — We present an SoC testing approach that integrates test data compression, TAM/test wrappe...
textAs the size and complexity of systems-on-a-chips (SOCs) continue to grow, test data volume and ...
Even though test set embedding (TSE) methods offer very high compression efficiency, their excessive...
We present a new type of linear feedback shift registers, state skip LFSRs. state skip LFSRs are nor...
Abstract—This paper presents a new low-power test-data-compression scheme based on linear feedback s...
In this paper, we propose a new scheme for Built-In Test (BIT) that uses Multiple-polynomial Linear ...
Current methodologies for built-in test pattern generation usually employ a predetermined linear fee...
AbstractSystems-on-Chip (SoC) based design rapidly involves various challenges like huge test data v...
An approach for input data compaction in the testing of circuits using scan and partial scan has rec...
Linear feedback shift register (LFSR) reseeding is an effective method for test data reduction. Howe...
textThis dissertation considers the problem of reducing the storage as well as the bandwidth (data ...
In testing there are two primary domains one is reducing input test data volume and next is reducing...
textSequential linear decompressors are widely used to implement test compression. Bits stored on th...
textSequential linear decompressors are widely used to implement test compression. Bits stored on th...
[[abstract]]We present a Linear Feedback Shift Register (LFSR) like architecture, because the LFSR c...
Abstract — We present an SoC testing approach that integrates test data compression, TAM/test wrappe...
textAs the size and complexity of systems-on-a-chips (SOCs) continue to grow, test data volume and ...
Even though test set embedding (TSE) methods offer very high compression efficiency, their excessive...
We present a new type of linear feedback shift registers, state skip LFSRs. state skip LFSRs are nor...
Abstract—This paper presents a new low-power test-data-compression scheme based on linear feedback s...
In this paper, we propose a new scheme for Built-In Test (BIT) that uses Multiple-polynomial Linear ...
Current methodologies for built-in test pattern generation usually employ a predetermined linear fee...
AbstractSystems-on-Chip (SoC) based design rapidly involves various challenges like huge test data v...
An approach for input data compaction in the testing of circuits using scan and partial scan has rec...
Linear feedback shift register (LFSR) reseeding is an effective method for test data reduction. Howe...
textThis dissertation considers the problem of reducing the storage as well as the bandwidth (data ...
In testing there are two primary domains one is reducing input test data volume and next is reducing...
textSequential linear decompressors are widely used to implement test compression. Bits stored on th...
textSequential linear decompressors are widely used to implement test compression. Bits stored on th...
[[abstract]]We present a Linear Feedback Shift Register (LFSR) like architecture, because the LFSR c...
Abstract — We present an SoC testing approach that integrates test data compression, TAM/test wrappe...
textAs the size and complexity of systems-on-a-chips (SOCs) continue to grow, test data volume and ...