Patent application number | Description | Published |
20080288838 | NONVOLATILE SEMICONDUCTOR MEMORY SYSTEM - According to one embodiment, an electrical package includes: an external input portion; an external output portion; a plurality of integrated circuits that is compatible with a compressed deterministic pattern test, each of the integrated circuits including: an input portion; a decompressor that is connected to the input portion; scan chains that are connected to the decompressor; a compactor that is connected to the scan chains; a selector that is connected to the compactor and the input portion to selectively output an output of the compactor or an output of the input portion; and an output portion that is connected to the selector. | 11-20-2008 |
20090024885 | SEMICONDUCTOR INTEGRATED CIRCUIT AND TEST SYSTEM THEREOF - A semiconductor integrated circuit has a memory collar including a memory cell configured to store a written data pattern and read and output the data pattern, and a register configured to store a failed data pattern, and a built-in self test circuit configured to write the data pattern in the memory cell, output expected value data, and decide whether to continue a test or suspend the test to output failure information to outside, based on a comparison result of the data pattern outputted from the memory cell and the expected value data and a comparison result of the data pattern and the failed data pattern. | 01-22-2009 |
20090172483 | ON-CHIP FAILURE ANALYSIS CIRCUIT AND ON-CHIP FAILURE ANALYSIS METHOD - An on-chip failure analysis circuit for analyzing a memory comprises a memory in which data is stored, a built-in self test unit which tests the memory, an failure detection unit which detects an failure of output of the memory, an fail data storage unit in which fail data is stored, the fail data including a location of the failure, an failure analysis unit which performs failure analysis using the number of failures detected by the failure detection unit and the location of the failure, the failure analysis unit writing fail data including the analysis result in the fail data storage unit, and an analysis result output unit which outputs the analysis result of the failure analysis unit. | 07-02-2009 |
20100125766 | SEMICONDUCTOR INTEGRATED CIRCUIT AND METHOD FOR CONTROLLING SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit includes memories, a BIST circuit, and an analyzer. The BIST circuit includes a test controller performing the test and generating a memory selection signal selecting a memory to be tested, an address generator generating write and read addresses, a data generator generating write data and an expected output value, and a control signal generator generating a control signal. The analyzer includes a memory output selector selecting output data, a bit comparator comparing the output data with the expected output value, an error detection unit determining whether there is an error in the memory, a plurality of pass/fail flag registers capable of storing a pass/fail flag, a repair analyzer analyzing a memory error and generating a repair analysis result, a plurality of repair analysis result registers capable of storing the repair analysis result, and an output unit outputting the pass/fail flag and the repair analysis result. | 05-20-2010 |
20100251043 | SEMICONDUCTOR INTEGRATED CIRCUIT, CIRCUIT FUNCTION VERYFICATION DEVICE AND METHOD OF VERYFYING CIRCUIT FUNCTION - A semiconductor integrated circuit has a data generation circuit configured to generate first data used for function verification of a built-in self test circuit and a built-in redundancy allocation circuit of a memory, a failure data generation circuit configured to generate second data for conducting a built in self test by inverting at least one bit of the first data based on a failure injection indication signal, and a timing circuit configured to adjust timing of at least one of the first and the second data in order to use one of the first and the second data as writing data to the memory and to use the other as an output expected value compared with data read out from the memory. | 09-30-2010 |
20110058434 | SEMICONDUCTOR INTEGRATED CIRCUIT - A semiconductor integrated circuit has a plurality of memory devices each comprising a memory cell array which includes a plurality of memory cells to store data, a spare part which includes a redundant cell to avoid a memory cell judged to be defective in the plurality of memory cells and conduct redundancy repair on data, and a switching circuit to avoid the defective memory cell and conduct switching to the redundant cell; and a repair code decoding circuit comprising a storage circuit which stores a repair code, a decoder which outputs a repair decoded signal obtained by decoding the repair code, wherein the switching circuit respectively in the memory devices avoids a memory cell corresponding to the repair decoded signal and conducts switching to the redundant cell of the memory devices in accordance with the repair decoded signal. | 03-10-2011 |
20120226953 | SEMICONDUCTOR INTEGRATED CIRCUIT, DESIGN APPARATUS AND DESIGN METHOD - A semiconductor integrated circuit has one or more of scan chains each having series-connected flip-flops that exist in an internal circuit. Each scan chain is divided into a plurality of segments. Each segment is controllable a timing of a clock signal. The semiconductor integrated circuit has a clock gating circuit capable of being shared by the scan chains and configured to generate a plurality of clock signals for driving each segment, the clock gating circuit being provided for each scan chain, and a segment control signal generator configured to generate a control signal to be used when the clock gating circuit generates the clock signals so that an effect of a fault of the internal circuit is transferred through one of the segments and care bits corresponding to a next fault are captured in a corresponding segment. | 09-06-2012 |
20130070545 | SEMICONDUCTOR INTEGRATED CIRCUIT - The built-in self-test (BIST) circuit includes an address generating circuit. The BIST circuit includes a data generating circuit. The BIST circuit includes a chip enable signal generating circuit. The BIST circuit includes a control signal generating circuit. The memory block circuit includes the multiple memories. The memory block circuit includes an address converting circuit that generates, based on the address signal, an address input signal corresponding to the address of the memory to be tested out of the multiple memories, and generates a memory selection signal for selecting the memory to be tested from the multiple memories. The memory block circuit includes a memory output selecting circuit that selects and outputs data from the memory to be tested out of the multiple memories, based on the memory selection signal. | 03-21-2013 |
Patent application number | Description | Published |
20120229155 | SEMICONDUCTOR INTEGRATED CIRCUIT, FAILURE DIAGNOSIS SYSTEM AND FAILURE DIAGNOSIS METHOD - A semiconductor integrated circuit includes a memory containing multiple memory bits that store predetermined data placed in a first address direction and a second address direction. The semiconductor integrated circuit includes a BIST (Built-in Self-Test) circuit that diagnoses a failure of the memory. | 09-13-2012 |
20140245087 | Semiconductor Integrated Circuit with Bist Circuit - According to an embodiment, a semiconductor integrated circuit includes a memory, a bypass circuit, a first selection unit, a compression unit, and a comparison unit. The bypass circuit bypasses the test signal to output a bypass signal. When the memory is tested using a BIST circuit, the first selection unit selects a memory signal output from the memory in response to the test signal. When the BIST circuit is tested, the first selection unit selects the bypass signal. If the memory is tested, the compression unit holds a signal output from the first selection unit and if the BIST circuit is tested, the compression unit compresses and holds the signal output from the first selection unit. The comparison unit compares the signal held in the compression unit with an expectation value signal of the memory signal which is generated in the BIST circuit. | 08-28-2014 |
20150074475 | BIST CIRCUIT - The BIST circuit includes an address data converting circuit that receives the logical address signal, the logical data signal, and the logical expected value signal. The address data converting circuit converts the logical data according to a physical configuration in the memory so as to generate a physical data signal specifying physical data to be written into the memory. The address data converting circuit converts the logical address according to the physical configuration in the memory so as to generate a physical address signal specifying a physical address of the memory for the physical data. The address data converting circuit converts the logical expected value according to the physical configuration in the memory so as to generate a physical expected value signal specifying a physical expected value that is an expected value of read data of the memory for the physical data. | 03-12-2015 |