Patent application number | Description | Published |
20130151918 | IIMPLEMENTING ENHANCED APERTURE FUNCTION CALIBRATION FOR LOGIC BUILT IN SELF TEST (LBIST) - A method and circuits for implementing aperture function calibration for Logic Built In Self Test (LBIST) diagnostics, and a design structure on which the subject circuit resides are provided. The aperture function calibration uses aperture calibration data, and an LBIST calibration channel having a predefined number of scan inversions between the aperture calibration data and a multiple input signature register (MISR). LBIST is run selecting the LBIST calibration channel and masking other LBIST channels to the MISR. A change in the MISR value, for example, from zero to a non-zero value, is identified and an aperture adjustment is calculated and used to identify any needed adjustment of aperture edges. | 06-13-2013 |
20130191695 | IMPLEMENTING ENHANCED PSEUDO RANDOM PATTERN GENERATORS WITH HIERARCHICAL LINEAR FEEDBACK SHIFT REGISTERS (LFSRs) - A method and circuit for implementing enhanced Logic Built In Self Test (LBIST) diagnostics, and a design structure on which the subject circuit resides are provided. A plurality of pseudo random pattern generators (PRPGs) is provided, each PRPG comprising one or more linear feedback shift registers (LFSRs). Each respective PRPG includes an XOR feedback input selectively receiving a feedback from another PRPG and predefined inputs of the respective PRPG. A respective XOR spreading function is coupled to a plurality of outputs of each PRPG with predefined XOR spreading functions applying test pseudo random pattern inputs to LBIST channels for LBIST diagnostics. | 07-25-2013 |
20140089750 | TEST COVERAGE OF INTEGRATED CIRCUITS WITH TEST VECTOR INPUT SPREADING - An apparatus and method is provided for switching input pins to scan channels to increase test coverage. In one embodiment, a scan system connects a small number of input pins to several scan channels so that the input pins may be selectively switched. The input pins may transmit independent test vectors to test a large number of test areas on a semiconductor chip. The scan system may include a switching device such as a multiplexer (MUX). | 03-27-2014 |
20140089751 | TEST COVERAGE OF INTEGRATED CIRCUITS WITH TEST VECTOR INPUT SPREADING - An apparatus and method is provided for switching input pins to scan channels to increase test coverage. In one embodiment, a scan system connects a small number of input pins to several scan channels so that the input pins may be selectively switched. The input pins may transmit independent test vectors to test a large number of test areas on a semiconductor chip. The scan system may include a switching device such as a multiplexer (MUX). | 03-27-2014 |
20140157072 | SELF EVALUATION OF SYSTEM ON A CHIP WITH MULTIPLE CORES - A method and structure tests a system on a chip (SoC) or other integrated circuit having multiple cores for chip characterization to produce a partial good status. A Self Evaluation Engine (SEE) on each core creates a quality metric or partial good value for the core. The SEE executes one or more tests to create a characterization signature for the core. The SEE then compares the characterization signature of a core with a characterization signature of neighboring cores to determine the partial good value for the core. The SEE may output a result to create a full characterization map for detailed diagnostics or a partial good map with values for all cores to produce a partial good status for the entire SoC. | 06-05-2014 |
20140157073 | SELF EVALUATION OF SYSTEM ON A CHIP WITH MULTIPLE CORES - A method and structure tests a system on a chip (SoC) or other integrated circuit having multiple cores for chip characterization to produce a partial good status. A Self Evaluation Engine (SEE) on each core creates a quality metric or partial good value for the core. The SEE executes one or more tests to create a characterization signature for the core. The SEE then compares the characterization signature of a core with a characterization signature of neighboring cores to determine the partial good value for the core. The SEE may output a result to create a full characterization map for detailed diagnostics or a partial good map with values for all cores to produce a partial good status for the entire SoC. | 06-05-2014 |
20140189612 | TEST COVERAGE OF INTEGRATED CIRCUITS WITH MASKING PATTERN SELECTION - A method of locating faulty logic on a semiconductor chip is disclosed. The method may include determining failure rates for the semiconductor chip, which contain one or more logic elements. The method also may include determining a masking pattern using failure rates. The masking pattern may mask less than all of the logic elements using a determination method. The method may also include applying a test vector to a selected logic element, wherein the result from a test vector is compared to a reference. | 07-03-2014 |
20140201575 | MULTI-CORE PROCESSOR COMPARISON ENCODING - Systems and methods to test processor cores of a multi-core processor microchip are provided. Comparison circuitry may be configured to compare data output from processor cores of a microchip. An encoding module may be configured to encode received data by initially assigning binary bit values to the processor cores. Based on at least one of a number of the processor cores and a first binary bit value, a first additional binary bit may be added to the first binary bit value. The first binary bit value may be assigned to a first processor core of the plurality of processor cores. | 07-17-2014 |
20140325298 | TEST COVERAGE OF INTEGRATED CIRCUITS WITH MASKING PATTERN SELECTION - A method of locating faulty logic on a semiconductor chip is disclosed. The method may include determining failure rates for the semiconductor chip, which contain one or more logic elements. The method also may include determining a masking pattern using failure rates. The masking pattern may mask less than all of the logic elements using a determination method. The method may also include applying a test vector to a selected logic element, wherein the result from a test vector is compared to a reference. | 10-30-2014 |
20140331097 | MANAGING REDUNDANCY REPAIR USING BOUNDARY SCANS - An IO structure, method, and apparatus are disclosed for using an IEEE™ 1149.1 boundary scan latch to reroute a functional path. The method for a chip using IEEE™ 1149.1 boundary scan latches may include using the IEEE™ 1149.1 boundary scan latches for testing IO on the chip in a test mode. The method may also include using information stored in the IEEE™ 1149.1 boundary scan latches to route signals around a failing path in a functional mode. | 11-06-2014 |
20150039957 | DYNAMIC BUILT-IN SELF-TEST SYSTEM - A method of performing a dynamic built-in self-test (BIST). The method includes performing a first test of a circuit on a semiconductor chip. The first test includes a first switch factor. The circuit during the first test is monitored with one or more sensors. A first sensor value of one or more sensors monitoring the circuit is determined. It is also determined whether the first sensor value is within a range of a programmable constant. A second switch factor is determined in response to determining that the first sensor value outside the range of the programmable constant. | 02-05-2015 |