Patent application number | Description | Published |
20110185264 | LDPC DECODING WITH ON THE FLY ERROR RECOVERY - It is decided whether to adjust data associated with a decoder. In the event it is decided to adjust the data associated with the decoder, the data is adjusted to obtain adjusted data and decoding is performed using the decoder and the adjusted data. In the event it is decided to not adjust the data associated with the decoder, decoding is performed using the decoder and the data associated with the decoder. | 07-28-2011 |
20110191653 | QUASI-CYCLIC LDPC ENCODING AND DECODING FOR NON-INTEGER MULTIPLES OF CIRCULANT SIZE - In processing quasi-cyclic low-density parity-check (QC-LDPC) data, an input signal is received which includes decision and reliability information corresponding to unpadded data. Decision and reliability information corresponding to padded data is introduced into the input signal. Message passing is performed one or more times to obtain decoded data. This includes using (1) the decision and reliability information corresponding to the unpadded data and (2) the decision and reliability information corresponding to the padded data, where a preference is given to the decision and reliability information corresponding to the padded data over the decision and reliability information corresponding to the padded data during message passing. Zero padding is removed from the decoded data. | 08-04-2011 |
20140195877 | LDPC DECODING WITH ON THE FLY ERROR RECOVERY - It is decided whether to adjust data associated with a decoder. In the event it is decided to adjust the data associated with the decoder, the data is adjusted to obtain adjusted data and decoding is performed on the adjusted data. In the event it is decided to not adjust the data associated with the decoder, decoding is performed on the data associated with the decoder. | 07-10-2014 |
20140325320 | SYNDROME TABLES FOR DECODING TURBO-PRODUCT CODES - A set of one or more component syndromes associated with a turbo product code (TPC) codeword is obtained from a component syndrome buffer. Component decoding is performed on the set of one or more component syndromes. | 10-30-2014 |
20150019926 | MANUFACTURING TESTING FOR LDPC CODES - An amount of time and an error rate function are received, where the error rate function defines a relationship between a number of iterations associated with iterative decoding and an error rate. A testing error rate is determined based at least in part on the amount of time. The number of iterations which corresponds to the testing error rate in the error rate function is selected to be a testing number of iterations; the testing error rate and the testing number of iterations are associated with testing storage media using iterative decoding. | 01-15-2015 |
20150033095 | BUFFER MANAGEMENT IN A TURBO EQUALIZATION SYSTEM - A plurality of partially-decoded codewords that have been processed at least once by a first and a second error correction decoder is stored. A plurality of metrics associated with how close a corresponding partially-decoded codeword is to being successfully decoded is stored. From the plurality of partially-decoded codewords, a codeword having a metric indicating that that codeword is the closest to being successfully decoded by the first error correction decoder and the second error correction decoder is selected. The selected codeword is output to the first error correction decoder. | 01-29-2015 |
20150052419 | ERROR CORRECTION CAPABILITY IMPROVEMENT IN THE PRESENCE OF HARD BIT ERRORS - A soft output detector is programmed with a first set of parameters. Soft information is generated according to the first set of parameters, including likelihood information that spans a maximum likelihood range. Error correction decoding is performed on the soft information generated according to the first set of parameters. In the event decoding is unsuccessful, the soft output detector is programmed with a second set of parameters, soft information according is generated to the second set of parameters (including likelihood information that is scaled down from the maximum likelihood range), and error correction decoding is performed on the soft information generated according to the second set of parameters. | 02-19-2015 |
20150078084 | GENERATING READ THRESHOLDS USING GRADIENT DESCENT AND WITHOUT SIDE INFORMATION - A first bit position of a cell in solid state storage is read where a sorting bit is obtained using the read of the first bit position. A second bit position of the cell is read for a first time, including by setting a first read threshold associated with the second bit position to a first value and setting a second read threshold associated with the second bit position to a second value. The second bit position of the cell is read for a second time, including by setting the first read threshold to a third value and setting the second read threshold to a fourth value. A new value for the first read threshold and for the second read threshold is generated using the sorting bit, the first read, and the second read. | 03-19-2015 |
20150085572 | STORAGE OF READ THRESHOLDS FOR NAND FLASH STORAGE USING LINEAR APPROXIMATION - A first read threshold associated with a first page in a block and a second read threshold associated with a second page in the block are received, where the first page has a first page number and the second page has a second page number. A slope and a y intercept are determined based at least in part on the first read threshold, the second read threshold, the first page number, and the second page number. The slope and the y intercept are stored with a block identifier associated with the block. | 03-26-2015 |