Abstract: A method for reducing Pin Count Test design and test that allows parametric test patterns for high pin count ASICs to be applied using low pin count testers. The same boundary scan structure used to isolate the test of internal logic to a small number of test I/O is also used to apply parametric external I/O tests to the ASIC's functional I/O. The parametric tests are banked into pin groups and applied on the same low pin count tester used for the internal logic tests.

Abstract: A method and system for generating a set of scan diagnostic patterns for diagnosing fails in scan chains. The method including: (a) selecting a set of latches; (b) selecting a pattern from a set of test patterns; (c) determining the number of lateral insertions of the selected pattern; (d) determining a number of new lateral insertions that the selected pattern would add to the set of scan diagnostic pattern and adding the selected pattern and a corresponding new insertion count to a count list; (e) repeating steps (b) through (d) until all patterns of the set of test patterns have been selected; (f) selecting a pattern from the count list; (g) adding the pattern selected from the count list to the set of scan diagnostic patterns; and (h) repeating steps (b) through (g) until a there are a predetermined number of patterns in the set of scan diagnostic patterns.

Abstract: A method of testing a semiconductor device having a memory is disclosed. The method includes selecting a portion of the memory; testing the selected portion of the memory; designating the selected portion of the memory as a designated memory in response to an acceptable testing result; and storing data in the designated portion of the memory for retrieval at a later time. Provision for soft repair of the selected memory is made. Test data can be compressed before being stored in the designated memory.

Abstract: A system for reducing test data volume in the testing of logic products such as modules on integrated circuit chips, and systems comprised of multiple integrated circuit chips. Test stimulus data are loaded from a tester into the logic product to apply to portions of combinational logic circuitry therein in order to detect faults comprises “care” bits and “non-care” bits. The care bits target focal faults of interest in the logic circuitry being tested while the non-care bits do not. Non-care bits in the test vector data are filled with repetitive, repeating, or other background data sequences. The background data sequences are constructed such that they can be algorithmically recovered from a small amount of initialization data. The recovery can use hardware that is located in the product under test, inside the tester, or between the product under test and the tester, or software residing in the tester and operating while the test is performed.

Abstract: A chip repair system designed for automated test equipment independent application on many unique very dense ASIC devices in a high turnover environment is disclosed. During test, the system will control on chip built-in self-test (BIST) engines collect and compress repair data, program fuses and finally decompress and reload the repair data for post fuse testing. In end use application this system decompresses and loads the repair data at power-up or at the request of the system.

Abstract: A method an apparatus for testing logic circuits containing a set of scan chains, each set of scan chains comprising a multiplicity of scan chains. The apparatus comprising: a scan input; a scan output; an input shift register coupled between the scan input and the set of scan chains, each first stage of different scan chains of the set of scan chains coupled to a different stage of the input shift register; and an output shift register coupled between the scan output and the set of scan chains, each last stage of different scan chains coupled to a different stage of the output shift register.

Abstract: A method for reducing Pin Count Test design and test that allows parametric test patterns for high pin count ASICs to be applied using low pin count testers. The same boundary scan structure used to isolate the test of internal logic to a small number of test I/O is also used to apply parametric external I/O tests to the ASIC's functional I/O. The parametric tests are banked into pin groups and applied on the same low pin count tester used for the internal logic tests.

Abstract: A chip repair system designed for automated test equipment independent application on many unique very dense ASIC devices in a high turnover environment is disclosed. During test, the system will control on chip built-in self-test (BIST) engines collect and compress repair data, program fuses and finally decompress and reload the repair data for post fuse testing. In end use application this system decompresses and loads the repair data at power-up or at the request of the system.

Abstract: Deterministic random Logic Built In Self Test (LBIST) is disclosed that applies Deterministic Stored Pattern Tests (DSPTs) by using random LBIST. Basically, the present invention selects the appropriate pseudorandom pattern for use with a scan cycle that needs care bits. The scan cycle may be a current or future scan cycle. In particular, the present invention determines care bits for a particular scan cycle. A pseudorandom pattern is generated that is then aligned with the particular scan cycle. If the pseudorandom pattern contains the care bits, with the correct values and in the proper positions within the pattern, this alignment tests one or more logic devices.

Abstract: A method of testing a semiconductor device having a memory is disclosed. The method includes selecting a portion of the memory; testing the selected portion of the memory; designating the selected portion of the memory as a designated memory in response to an acceptable testing result; and storing data in the designated portion of the memory for retrieval at a later time. Provision for soft repair of the selected memory is made. Test data can be compressed before being stored in the designated memory.

Abstract: A system for reducing test data volume in the testing of logic products such as modules on integrated circuit chips, and systems comprised of multiple integrated circuit chips. Test stimulus data are loaded from a tester into the logic product to apply to portions of combinational logic circuitry therein in order to detect faults comprises “care” bits and “non-care” bits. The care bits target focal faults of interest in the logic circuitry being tested while the non-care bits do not. Non-care bits in the test vector data are filled with repetitive, repeating, or other background data sequences. The background data sequences are constructed such that they can be algorithmically recovered from a small amount of initialization data. The recovery can use hardware that is located in the product under test, inside the tester, or between the product under test and the tester, or software residing in the tester and operating while the test is performed.