Patent application number | Description | Published |
20090058450 | METHOD OF AND SYSTEM FOR FUNCTIONALLY TESTING MULTIPLE DEVICES IN PARALLEL IN A BURN-IN-ENVIRONMENT - A method of and a system for testing semiconductor devices heat a plurality of devices to a burn-in temperature, and perform functional tests in parallel on the plurality of devices at the burn-in temperature. Systems include a burn-in oven and a test multiplexer. The burn-in oven is adapted to receive and heat the devices to the burn-in temperature. The test multiplexer is adapted to apply functional test signals to and receive output signals from the devices in the burn-in oven. | 03-05-2009 |
20120159273 | Dynamic Scan - In a test data access system, a shift register is coupled the test data in pin. A first multiplexer is in data communication with the TDI pin and is configured to receive data from the TDI pin and to transmit data to each of the instruments. The first multiplexer is also configured to receive data from a data recirculation bit and to transmit data from the TDI pin to a plurality of instruments when the recirculation bit has a first value and to transmit data to the plurality of instruments from a recirculation line when the recirculation bit has a second value, different from the first value. A second multiplexer is configured to receive data from each of the plurality of instruments and is configured to transmit data from a selected one of the plurality of instruments, selected based on a value of data in the shift register. A first AND gate is configured to generate a gates clock to the shift register. A second AND gate is responsive to the first AND gate, configured to lock the shift register. A third AND gate, responsive to the first AND gate, is configured to control clocking to the plurality of instruments. | 06-21-2012 |
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 |