Abstract In this paper we present efficient Reverse Order Restoration (ROR) based static test compaction techniques for synchronous sequential circuits. Unlike previous ROR techniques that rely on vector-by-vector fault-simulation based restoration of test subsequences, our technique restores test sequences based on efficient test relaxation. The restored test subsequence can be either concatenated to the compacted test sequence, as in previous approaches, or merged with it. Furthermore, it allows the removal of redundant vectors from the restored subsequences using State Traversal technique and incorporates schemes for increasing the fault coverage of restored test subsequences to achieve an overall higher level of compaction. In addition,...
Reducing test data size is one of the major challenges in testing systems-on-a-chip. This problem ca...
ABSTRACT: We present a new, dynamic algorithm for test sequence compaction and test cycle reduction ...
Abstract — Testing systems-on-a-chip (SOC) involves applying huge amounts of test data, which is sto...
In this paper we present efficient Reverse Order Restoration (ROR) based static test compaction tech...
Abstract In this paper we present efficient Reverse Order Restoration (ROR) based static test compac...
In this paper we present efficient Reverse Order Restoration (ROR) based static test compaction tech...
The authors present efficient reverse-order-restoration (ROR)-based static test compaction technique...
The paper present efficient reverse-order-restoration (ROR)-based static test compaction techniques ...
We propose several compaction procedures for syn-chronous sequential circuits based on test vector r...
Testing systems-on-a-chip (SOC) involves applying huge amounts of test data, which is stored in the ...
Reducing test data size is one of the major challenges in testing systems-on-a-chip. This problem ca...
Today, VLSI design has progressed to a stage where it needs to incorporate methods of testing circui...
Testing systems-on-a-chip (SOC) involves applying huge amounts of test data, which is stored in the ...
Reducing test data size is one of the major challenges in testing systems-on-a-chip. This problem ca...
ABSTRACT: We present a new, dynamic algorithm for test sequence compaction and test cycle reduction ...
Abstract — Testing systems-on-a-chip (SOC) involves applying huge amounts of test data, which is sto...
In this paper we present efficient Reverse Order Restoration (ROR) based static test compaction tech...
Abstract In this paper we present efficient Reverse Order Restoration (ROR) based static test compac...
In this paper we present efficient Reverse Order Restoration (ROR) based static test compaction tech...
The authors present efficient reverse-order-restoration (ROR)-based static test compaction technique...
The paper present efficient reverse-order-restoration (ROR)-based static test compaction techniques ...
We propose several compaction procedures for syn-chronous sequential circuits based on test vector r...
Testing systems-on-a-chip (SOC) involves applying huge amounts of test data, which is stored in the ...
Reducing test data size is one of the major challenges in testing systems-on-a-chip. This problem ca...
Today, VLSI design has progressed to a stage where it needs to incorporate methods of testing circui...
Testing systems-on-a-chip (SOC) involves applying huge amounts of test data, which is stored in the ...
Reducing test data size is one of the major challenges in testing systems-on-a-chip. This problem ca...
ABSTRACT: We present a new, dynamic algorithm for test sequence compaction and test cycle reduction ...
Abstract — Testing systems-on-a-chip (SOC) involves applying huge amounts of test data, which is sto...