Patent application number | Description | Published |
20100218059 | On-Chip Seed Generation Using Boolean Functions for LFSR Re-Seeding Based Logic BIST Techniques for Low Cost Field Testability - This invention generates the random seed patterns using simple, low-area overhead digital circuitry on-chip. This circuit is implemented as a finite state machine whose states are the seeds as contrasted to storing the seeds in the prior art. These seeds are used to control pseudo-random pattern generation for built-in self-tests. This invention provides a large reduction in chip area in comparison with storing seeds on-chip or off-chip. | 08-26-2010 |
20110099442 | ENHANCED CONTROL IN SCAN TESTS OF INTEGRATED CIRCUITS WITH PARTITIONED SCAN CHAINS - A test controller implemented in an integrated circuit (IC) with partitioned scan chains provides enhanced control in performing scan tests. According to an aspect, a test controller can selectively control scan-in, scan-out and capture phases of scan tests for different scan chains of the IC to be independent. The number of pins required to interface the test controller with an external tester is less than the number of partitions that the test controller can support. According to another aspect, an IC includes a register corresponding to each partition to support transition fault (or LOS) testing. According to another aspect, an IC with partitioned scan chains includes serial to parallel and parallel to serial converters, thereby minimizing the external pins required to support scan tests. | 04-28-2011 |
20120030532 | STRUCTURES AND CONTROL PROCESSES FOR EFFICIENT GENERATION OF DIFFERENT TEST CLOCKING SEQUENCES, CONTROLS AND OTHER TEST SIGNALS IN SCAN DESIGNS WITH MULTIPLE PARTITIONS, AND DEVICES, SYSTEMS AND PROCESSES OF MAKING - A scannable integrated circuit ( | 02-02-2012 |
20120226942 | INTERRUPTIBLE NON-DESTRUCTIVE RUN-TIME BUILT-IN SELF-TEST FOR FIELD TESTING - A built-in self-test (BIST) diagnostic system tests the execution of a processor. The processor is arranged to execute a normal application for controlling a process that is external to the processor. The normal execution is executed in normal execution timeslots that have idle timeslots that are interspersed in time between the normal execution timeslots. A BIST controller is arranged to detect the presence of an idle timeslot in the execution of the processor and to use a scan chain to scan-in a first test pattern for a test application for testing the processor. The first test pattern is executed by the processor during the detected idle timeslot and a first result pattern generated by the execution of the first test pattern is scanned-out. The scanned-out first test pattern is evaluated to determine the presence of an error. The first test pattern application is conditionally interruptible. | 09-06-2012 |
20130159800 | Scan Compression Architecture with Bypassable Scan Chains for Low Test Mode Power - This invention permits selectively bypasses serial scan chains. Constant or low toggle data is directed to the bypassed serial scan chain, thus reducing power consumption. The number and identity of serial scan chains bypassed during a particular test can be changed dynamically dependent upon the semiconductor process variations of a particular integrated circuit. This enables an optimal test to be preformed for integrated circuits having differing semiconductor process variations. | 06-20-2013 |
20130305106 | INTEGRATED CIRCUITS CAPABLE OF GENERATING TEST MODE CONTROL SIGNALS FOR SCAN TESTS - Various embodiments of methods and integrated circuits capable of generating a test mode control signal for a scan test through a scan chain (such as in an integrated circuit) are provided. The integrated circuit includes a test pattern detection block, a counter circuit, and a control circuit. The test pattern detection block is configured to receive a detection pattern and to detect a first pattern corresponding to a shift phase and a second pattern corresponding to a capture phase of a test pattern based on the detection pattern and to generate a trigger signal based upon the detection of the patterns. The control circuit generates and controls the test mode control signal based on the count states. The counter circuit is configured to generate one or more count states corresponding to one of the shift phase, the capture phase and the clock signal based on the detected pattern. | 11-14-2013 |
20140208177 | CIRCUITS AND METHODS FOR DYNAMIC ALLOCATION OF SCAN TEST RESOURCES - A method of testing devices under test (DUTs) and testing system are disclosed. The method comprises generating at least one control signal associated with a test pattern structure received from a testing system. The method further comprises selecting M1 number of ports from M number of I/O ports in the DUT to receive scan input corresponding to the test pattern structure based on the control signal, selecting M2 number of ports from the M number of I/O ports to provide scan output based on the control signal, wherein each of M1 and M2 is a number selected from 0 to M, and wherein a sum of M1 and M2 is less than or equal to M. Thereafter, the method comprises performing a scan testing of the DUT based on the scan input provided to the M1 number of ports and receiving the scan output from the M2 number of ports. | 07-24-2014 |