| Patent application number | Description | Published |
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| 20090177933 | DECOMPRESSOR/PRPG FOR APPLYING PSEUDO-RANDOM AND DETERMINISTIC TEST PATTERNS - A novel decompressor/PRPG on a microchip performs both pseudo-random test pattern generation and decompression of deterministic test patterns for a circuit-under-test on the chip. The decompressor/PRPG has two phases of operation. In a pseudo-random phase, the decompressor/PRPG generates pseudo-random test patterns that are applied to scan chains within the circuit-under test. In a deterministic phase, compressed deterministic test patterns from an external tester are applied to the decompressor/PRPG. The patterns are decompressed as they are clocked through the decompressor/PRPG into the scan chains. The decompressor/PRPG thus provides much better fault coverage than a simple PRPG, but without the cost of a complete set of fully-specified deterministic test patterns. | 07-09-2009 |
| 20090187800 | PHASE SHIFTER WITH REDUCED LINEAR DEPENDENCY - A method is disclosed for the automated synthesis of phase shifters—circuits used to remove effects of structural dependencies featured by pseudo-random test pattern generators driving parallel scan chains. Using a concept of duality, the method relates the logical states of linear feedback shift registers (LFSRs) and circuits spacing their inputs to each of the output channels. The method generates a phase shifter network balancing the loads of successive stages of LFSRs and satisfying criteria of reduced linear dependency, channel separation and circuit complexity. | 07-23-2009 |
| 20090249147 | FAULT DIAGNOSIS OF COMPRESSED TEST RESPONSES - Methods, apparatus, and systems for diagnosing failing scan cells from compressed test responses are disclosed herein. For example, in one nonlimiting exemplary embodiment, at least one error signature comprising multiple bits (including one or more error bits) is received. Plural potential-error-bit-explaining scan cell candidates are evaluated using a search tree. A determination is made as to whether one or more of the evaluated scan cell candidates explain the error bits in the error signature and thereby constitute one or more failing scan cells. An output is provided of any such one or more failing scan cells determined. Tangible computer-readable media comprising computer-executable instructions for causing a computer to perform any of the disclosed methods are also provided. Tangible computer-readable media comprising lists of failing scan cells identified by any of the disclosed methods are also provided. | 10-01-2009 |
| 20090259900 | TEST PATTERN COMPRESSION FOR AN INTEGRATED CIRCUIT TEST ENVIRONMENT - A method for compressing test patterns to be applied to scan chains in a circuit under test. The method includes generating symbolic expressions that are associated with scan cells within the scan chains. The symbolic expressions are created by assigning variables to bits on external input channels supplied to the circuit under test. Using symbolic simulation, the variables are applied to a decompressor to obtain the symbolic expressions. A test cube is created using a deterministic pattern that assigns values to the scan cells to test faults within the integrated circuit. A set of equations is formulated by equating the assigned values in the test cube to the symbolic expressions associated with the corresponding scan cell. The equations are solved to obtain the compressed test pattern. | 10-15-2009 |
| 20090300446 | Selective Per-Cycle Masking Of Scan Chains For System Level Test - Built-in self-test techniques for integrated circuits that address the issue of unknown states. Some implementations use a specialized scan chain selector coupled to a time compactor. The presence of the specialized scan chain selector increases the efficiency in masking X states. Also disclosed are: (1) an architecture of a selector that works with multiple scan chains and time compactors, (2) a method for determining and encoding per cycle scan chain selection masks used subsequently to suppress X states, and (3) a method to handle an over-masking phenomenon. | 12-03-2009 |
| 20100083063 | PHASE SHIFTER WITH REDUCED LINEAR DEPENDENCY - A method is disclosed for the automated synthesis of phase shifters—circuits used to remove effects of structural dependencies featured by pseudo-random test pattern generators driving parallel scan chains. Using a concept of duality, the method relates the logical states of linear feedback shift registers (LFSRs) and circuits spacing their inputs to each of the output channels. The method generates a phase shifter network balancing the loads of successive stages of LFSRs and satisfying criteria of reduced linear dependency, channel separation and circuit complexity. | 04-01-2010 |
| 20100138708 | DECOMPRESSORS FOR LOW POWER DECOMPRESSION OF TEST PATTERNS - Disclosed below are representative embodiments of methods, apparatus, and systems used to generate test patterns for testing integrated circuits. Embodiments of the disclosed technology can be used to provide a low power test scheme and can be integrated with a variety of compression hardware architectures (e.g., an embedded deterministic test (“EDT”) environment). Certain embodiments of the disclosed technology can reduce the switching rates, and thus the power dissipation, in scan chains with no hardware modification. Other embodiments use specialized decompression hardware and compression techniques to achieve low power testing. | 06-03-2010 |
| 20100229055 | Fault Diagnosis For Non-Volatile Memories - Fault diagnosis techniques for non-volatile memories are disclosed. The techniques are based on deterministic partitioning of rows and/or columns of cells in a memory array. Through deterministic partitioning, signatures are generated for identification of failing rows, columns and single memory cells. A row/column selector or a combined row and column selector may be built on chip to implement the process of deterministic partitioning. An optional shadow register may be used to transfer obtained signatures to an automated test equipment (ATE). | 09-09-2010 |
| 20100229060 | Compression Based On Deterministic Vector Clustering Of Incompatible Test Cubes - The test data compression scheme is based on deterministic vector clustering. Test cubes that feature many similar specified bits are merged into a parent pattern in the presence of conflicts. The parent pattern along with a control pattern and incremental patterns representing conflicting bits are encoded efficiently. A tri-modal decompressor may be used to decompress the test data. | 09-09-2010 |
| 20100306609 | Low Power Decompression Of Test Cubes - Disclosed below are representative embodiments of methods, apparatus, and systems used to generate test patterns for testing integrated circuits. Embodiments of the disclosed technology can be used to provide a low power test scheme and can be integrated with a variety of compression hardware architectures (e.g., an embedded deterministic test (“EDT”) environment). Certain embodiments of the disclosed technology can reduce the switching rates, and thus the power dissipation, in scan chains with no hardware modification. Other embodiments use specialized decompression hardware and compression techniques to achieve low power testing. | 12-02-2010 |
| 20110055646 | FAULT DIAGNOSIS IN A MEMORY BIST ENVIRONMENT - Disclosed are methods and devices for temporally compacting test response signatures of failed memory tests in a memory built-in self-test environment, to provide the ability to carry on memory built-in self-test operations even with the detection of multiple time related memory test failures. In some implementations of the invention, the compacted test response signatures are provided to an automated test equipment device along with memory location information. According to various implementations of the invention, an integrated circuit with embedded memory ( | 03-03-2011 |
| 20110138242 | METHOD AND APPARATUS FOR SELECTIVELY COMPACTING TEST RESPONSES - A method and apparatus to compact test responses containing unknown values or multiple fault effects in a deterministic test environment. The proposed selective compactor employs a linear compactor with selection circuitry for selectively passing test responses to the compactor. In one embodiment, gating logic is controlled by a control register, a decoder, and flag registers. This circuitry, in conjunction with any conventional parallel test-response compaction scheme, allows control circuitry to selectively enable serial outputs of desired scan chains to be fed into a parallel compactor at a particular clock rate. A first flag register determines whether all, or only some, scan chain outputs are enabled and fed through the compactor. A second flag register determines if the scan chain selected by the selector register is enabled and all other scan chains are disabled, or the selected scan chain is disabled and all other scan chains are enabled. Other embodiments allow selective masking of a variable number of scan chain outputs. | 06-09-2011 |
| 20110166818 | LOW POWER SCAN TESTING TECHNIQUES AND APPARATUS - Disclosed below are representative embodiments of methods, apparatus, and systems used to reduce power consumption during integrated circuit testing. Embodiments of the disclosed technology can be used to provide a low power test scheme and can be integrated with a variety of compression hardware architectures (e.g., an embedded deterministic test (“EDT”) architecture). Among the disclosed embodiments are integrated circuits having programmable test stimuli selectors, programmable scan enable circuits, programmable clock enable circuits, programmable shift enable circuits, and/or programmable reset enable circuits. Exemplary test pattern generation methods that can be used to generate test patterns for use with any of the disclosed embodiments are also disclosed. | 07-07-2011 |
| 20110167309 | DECOMPRESSOR/PRPG FOR APPLYING PSEUDO-RANDOM AND DETERMINISTIC TEST PATTERNS - A novel decompressor/PRPG on a microchip performs both pseudo-random test pattern generation and decompression of deterministic test patterns for a circuit-under-test on the chip. The decompressor/PRPG has two phases of operation. In a pseudo-random phase, the decompressor/PRPG generates pseudo-random test patterns that are applied to scan chains within the circuit-under test. In a deterministic phase, compressed deterministic test patterns from an external tester are applied to the decompressor/PRPG. The patterns are decompressed as they are clocked through the decompressor/PRPG into the scan chains. The decompressor/PRPG thus provides much better fault coverage than a simple PRPG, but without the cost of a complete set of fully-specified deterministic test patterns. | 07-07-2011 |
