| Class / Patent application number | Description | Number of patent applications / Date published |
|---|
| 714765000 | Error pointer | 6 |
| 20080301529 | APPARATUS AND METHOD FOR DISTINGUISHING SINGLE BIT ERRORS IN MEMORY MODULES - An apparatus, system, and method are disclosed for distinguishing correctable bit errors in memory. A bit error detection module detects a correctable bit error in memory. The correctable bit error is correctable using error-correcting code (“ECC”). A comparison module compares an error location indicator with a stored error location indicator. The error location indicator is a location of the correctable bit error. The stored error location indicator includes to at least one previously stored error location indicator of a previously detected correctable bit error. A storage module stores the error location indicator in response to the comparison module determining that the error location indicator differs from a stored error location indicator. A bit error counter module increases a random bit error counter if the comparison module determines that the error location indicator differs from a stored error location indicator and does not increase the random bit error counter otherwise. | 12-04-2008 |
| 20080301530 | APPARATUS AND METHOD FOR DISTINGUISHING TEMPORARY AND PERMANENT ERRORS IN MEMORY MODULES - An apparatus and method are disclosed for distinguishing correctable bit errors in memory. A bit error detection module detects a correctable bit error in a memory in response to a READ operation. The correctable bit error is correctable using error-correcting code. The READ operation is generated during normal operation. A comparison module compares an error location indicator with a stored error location indicator. The error location indicator includes a memory location of the correctable bit error. The stored error location indicator corresponds to a previously stored error location indicator of a previous correctable bit error. A storage module stores the error location indicator if the comparison module determines that the error location indicator differs from a stored error location indicator. An error counter module increases an error counter corresponding to the error location indicator if the comparison module determines that the error location indicator matches a stored error location indicator. | 12-04-2008 |
| 20090113272 | ERROR CORRECTION CODING IN FLASH MEMORY DEVICES - Systems and/or methods that facilitate error correction of data are presented. An error correction code (ECC) control component facilitates enabling or disabling error correction of data being written to or read from memory, such as flash memory, based on ECC indicator data associated with a piece of data. The ECC control component can analyze data, parity code, and/or indicator data associated with the incoming data and/or data stored in the memory location where the incoming data is to be written to determine whether parity code can be written for the incoming data and/or whether error correction can be enabled with respect to the incoming data. Error correction can be enabled when an indicator bit associated with the data is unprogrammed (e.g., bit set to ‘1’ state) and can be disabled by programming the indicator bit (e.g., bit set to a ‘0’ state). | 04-30-2009 |
| 20090164872 | PREDICTION AND PREVENTION OF UNCORRECTABLE MEMORY ERRORS - A method for predicting and preventing uncorrectable errors that may occur while accessing memory in a computer system. The method involves detecting two or more correctable errors from two or more different physical addresses on each of two or more different bit positions from the same DIMM within a specified period of time, with all of the correctable errors occurring within the same checkword. The method also involves detecting two or more correctable errors from two or more different physical addresses on each of three or more different outputs from the same DRAM within a specified period of time, as long as the three outputs do not all correspond to the same relative bit position in their respective checkwords. This allows a computer system which encounters correctable errors to continue to reliably operate without the unnecessary replacement of functioning memory systems. | 06-25-2009 |
| 20090292974 | METHOD AND APPARATUS FOR ITERATIVE ERROR-ERASURE DECODING - Methods and apparatus are provided for improved iterative error-erasure decoding. A signal is decoded by obtaining a plurality of symbols associated with the signal and one or more corresponding reliability values; generating at least one erasure list comprised of L symbols and at least one shortened erasure list comprised of L′ symbols, where L′ is less than L; and constructing an erasure set by taking erasures from at least one of the erasure list and the shortened erasure list. A signal is also processed by generating one or more reliability values using a soft-output detector; generating an erasure list of symbols by comparing the reliability values to at least one reliability threshold value (or by sorting); and performing error erasure decoding using the erasure list. The size of the erasure list can optionally be adjusted using feedback information. | 11-26-2009 |
| 20150355963 | MRAM SMART BIT WRITE ALGORITHM WITH ERROR CORRECTION PARITY BITS - Some embodiments relate to a system that includes write circuitry, read circuitry, and comparison circuitry. The write circuitry is configured to attempt to write an expected multi-bit word to a memory location in a memory device. The read circuitry is configured to read an actual multi-bit word from the memory location. The comparison circuitry is configured to compare the actual multi-bit word read from the memory location with the expected multi-bit word which was previously written to the memory location to distinguish between a number of erroneous bits in the actual multi-bit word and a number of correct bits in the actual multi-bit word. The write circuitry is further configured to re-write the number of erroneous bits to the memory location without attempting to re-write the number of correct bits to the memory location. | 12-10-2015 |
