Patent application number | Description | Published |
20090210761 | AC Scan Diagnostic Method and Apparatus Utilizing Functional Architecture Verification Patterns - A method, apparatus and computer program product are provided for implementing AC scan diagnostic of delay and AC scan chain defects in an integrated circuit chip under test using Functional Architecture Verification Patterns (AVPs) for enabling rapidly localizing identified defects to a failing Shift Register Latch (SRL). An Architecture Verification Pattern (AVP) test pattern set is generated using a chip design input and simulation. AVP test vectors are applied for starting chip clocks and initiating testing, such as Logic Built-In-Self-Test (LBIST). | 08-20-2009 |
20090210763 | Automated System and Processing for Expedient Diagnosis of Broken Shift Registers Latch Chains Using JTAG - This invention involves the use of the JTAG functional test patterns and exercisors to solve the problem of diagnosing broken scan chains in either a serial or a lateral broadside insertion manner across all latch system ports and to analyze the response data efficiently for the purpose of readily identifying switching and non-switching latches with the next to last non-switching latch being the point of the break within a defective scan chain(s). This comprehensive latch perturbation, in conjunction with iterative diagnostic algorithms is used to identify and to pinpoint the defective location in such a broken scan chain(s). This JTAG Functional test function and the JTAG test patterns ultimately derived therefrom, can take on different forms and origins, some external to a product and some internal to a product. | 08-20-2009 |
20090217112 | AC ABIST Diagnostic Method, Apparatus and Program Product - A method for implementing at speed bit fail mapping of an embedded memory system having ABIST (Array Built In Self Testing), comprises using a high speed multiplied clock which is a multiple of an external clock of an external tester to sequence ABIST bit fail testing of the embedded memory system. Collect store fail data during ABIST testing of the embedded memory system. Perform a predetermined number of ABIST runs before issuing a bypass order substituting the external clock for the high speed multiplied clock. Use the external clock of the tester to read bit fail data out to the external tester. | 08-27-2009 |
20090217116 | DIAGNOSABLE GENERAL PURPOSE TEST REGISTERS SCAN CHAIN DESIGN - A structural design-for-test for diagnosing broken scan chain defects of long non-scannable register chains (GPTR) The GPTR and the system for testing and diagnosing the broken LSSD scan-only chains rapidly localize defects to the failing Shift Register Latch (SRL) pair. The GPTR modifies the latches used in the GPTR scan chain to standard LSSD L | 08-27-2009 |
20090307548 | METHOD AND APPARATUS FOR PERFORMING LOGIC BUILT-IN SELF-TESTING OF AN INTEGRATED CIRCUIT - A method for performing a logical built-in self-test of an integrated circuit is disclosed. The method includes performing a flush and scan test to determine whether the scan chains function correctly. If one of the scan chains does not function correctly, the logical built-in self-test is terminated. If each of the scan chains functions correctly, a structural test of the design-for-test logic supporting LBIST is performed to determine whether the LBIST design-for-test logic functions correctly. If the LBIST design-for-test logic does not function correctly, the logical built-in self-test is terminated. If the LBIST design-for-test logic functions correctly, a level sensitive scan design test of the functional combinational logic is performed using the logic supporting LBIST design-for-test to determine if the integrated circuit functions correctly. | 12-10-2009 |
20100095169 | Implementing Isolation of VLSI Scan Chain Using ABIST Test Patterns - A method, apparatus and computer program product are provided for implementing isolation of VLSI AC scan chain defects using structural Array Built In Self Test (ABIST) test patterns. An ABIST test pattern is applied to the device under test and multiple ABIST array algorithms are applied in a passing operating region and each scan chain is unloaded. The ABIST test pattern is applied to the device under test and multiple ABIST array algorithms are applied in a failing operating region for the device under test. Then the unload data from the passing operating region and the failing operating region are compared. The identified latches having different results are identified as potential AC defective latches. The identified potential AC defective latches are sent to a Physical Failure Analysis system. | 04-15-2010 |
20100095177 | Implementing Diagnosis of Transitional Scan Chain Defects Using LBIST Test Patterns - A method, apparatus and computer program product are provided for implementing diagnostics of transitional scan chain defects using structural Logic Built In Self Test (LBIST) test patterns. A LBIST test pattern is applied to the device under test and multiple system clock sequences with variable loop control are applied in a passing operating region and scan data is unloaded. The LBIST test pattern is applied to the device under test and multiple system clock sequences with variable loop control are applied in a failing operating region for the device under test and scan data is unloaded. Then the unload data from the passing operating region and the failing operating region are compared. The identified latches having different results are identified as potential AC defective latches. The identified potential AC defective latches are sent to a Physical Failure Analysis system. | 04-15-2010 |
20100115337 | VERIFICATION OF ARRAY BUILT-IN SELF-TEST (ABIST) DESIGN-FOR-TEST/DESIGN-FOR-DIAGNOSTICS (DFT/DFD) - A method, system and computer program product for testing the Design-For-Testability/Design-For-Diagnostics (DFT/DFD) and supporting BIST functions of a custom microcode array. Upon completion of the LSSD Flush and Scan tests, the ABIST program is applied to target the logic associated direct current (DC) and alternating current (AC) faults of ABIST array Design-For-Testability/Design-For-Diagnostics DFT/DFD functions that support the microcode array. A LSSD test of the DFT functional combinational logic is performed by applying generated LSSD deterministic test patterns targeting the ABIST design-for-test faults to determine if the DFT supporting the microcode array is functioning correctly. Additional tests may be terminated upon resulting failure of the applied ABIST DFT circuitry surrounding the arrays. | 05-06-2010 |