| Patent application number | Description | Published |
|---|
| 20080276024 | Method for Stabilizing Asynchronous Interfaces - A method and computer system apparatus for asynchronous data transfer between a source and sink without the use of an asynchronous control signal. includes metastability circuits, data change detection logic, a stability window delay counter, and a mux/register pair to allow for the holding of previous stable data during the transition. While the processing logic employed specifically applies to asynchronous logic, the logic can be extended to synchronous or untimed interfaces as well. Also disclosed is a programmable means to adjust the window delay. | 11-06-2008 |
| 20090070622 | Multi nodal Computer System and Method for Handling Check Stops in the Multi nodal Computer System - A new multi nodal computer system comprising a number of nodes on which chips of different types reside. The new multi nodal computer system is characterized in that there is one clock chip per node, each clock chip controlling only the chips residing on that node said chips being appropriate for sending a check stop request to the associated clock chip in case of a malfunction. A new check stop handling method is characterized in that depending on the source of the check stop request the clock chip that received the check stop request initiates a system check stop, a node check up, or a chip check stop. | 03-12-2009 |
| 20090106588 | Method and Apparatus for Parallel and Serial Data Transfer - A method and apparatus are disclosed for performing maintenance operations in a system using address, data, and controls which are transported through the system, allowing for parallel and serial operations to co-exist without the parallel operations being slowed down by the serial ones. It also provides for use of common shifters, engines, and protocols as well as efficient conversion of ECC to parity and parity to ECC as needed in the system. The invention also provides for error detection and isolation, both locally and in the reported status. The invention provides for large maintenance address and data spaces (typically 64 bits address and 64 bits data per address supported). | 04-23-2009 |
| 20090164874 | Collecting Failure Information On Error Correction Code (ECC) Protected Data - Methods and means of error correction code (ECC) debugging may comprise detecting whether a bit error has occurred; determining which bit or bits were in error; and using the bit error information for debug. The method may further comprise comparing ECC syndromes against one or more ECC syndrome patterns. The method may allow for accumulating bit error information, comparing error bit failures against a pattern, trapping data, counting errors, determining pick/drop information, or stopping the machine for debug. | 06-25-2009 |
| 20090217108 | METHOD, SYSTEM AND COMPUTER PROGRAM PRODUCT FOR PROCESSING ERROR INFORMATION IN A SYSTEM - A system for processing errors in a processor comprising, a first register having a unique identifier operative to store a first error data, a processor operative to retrieve the first error data from the first register, associate the first error data with the unique identifier, and generate a first uniform error packet including the first error data and the unique identifier and a storage medium operative to store the first uniform error packet. | 08-27-2009 |
| 20090217110 | METHOD, SYSTEM AND COMPUTER PROGRAM PRODUCT INVOLVING ERROR THRESHOLDS - A system for processing errors in a processor comprising, an error counter, a pass counter, and a processing portion operative to determine whether a first error is active, increment an error counter responsive to determining that the first error is active, increment the pass counter responsive to determining that all errors have been checked, and clear the error counter responsive to determining that the pass counter is greater than or equal to a pass count threshold value. | 08-27-2009 |
| 20110320732 | USER-CONTROLLED TARGETED CACHE PURGE - User-controlled targeted cache purging includes receiving a request to perform an operation to purge data from a cache, the request including an index identifier identifying an index associated with the cache. The index specifies a portion of the cache to be purged. The user-controlled targeted cache purging also includes purging the data from the cache, and providing notification of successful completion of the operation. | 12-29-2011 |
| 20110320864 | HETEROGENEOUS RECOVERY IN A REDUNDANT MEMORY SYSTEM - Providing heterogeneous recovery in a redundant memory system that includes a memory controller, a plurality of memory channels in communication with the memory controller, an error detection code mechanism configured for detecting a failing memory channel, and an error recovery mechanism. The error recovery mechanism is configured for receiving notification of the failing memory channel, for performing a recovery operation on the failing memory channel while other memory channels are performing normal system operations, for bringing the recovered channel back into operational mode with the other memory channels for store operations, for continuing to mark the recovered channel to guard against stale data, for removing any stale data after the recovery operation is complete, and for removing the mark on the recovered channel to allow the normal system operations with all of the memory channels, the removing in response to the removing any stale data being complete. | 12-29-2011 |
| 20110320869 | HOMOGENEOUS RECOVERY IN A REDUNDANT MEMORY SYSTEM - Providing homogeneous recovery in a redundant memory system that includes a memory controller, a plurality of memory channels in communication with the memory controller, an error detection code mechanism configured for detecting a failing memory channel, and an error recovery mechanism. The error recovery mechanism is configured for receiving notification of the failing memory channel, for blocking off new operations from starting on the memory channels, for completing any pending operations on the memory channels, for performing a recovery operation on the memory channels and for starting the new operations on at least a first subset of the memory channels. The memory system is capable of operating with the first subset of the memory channels. | 12-29-2011 |
| 20110320872 | HIERARCHICAL ERROR INJECTION FOR COMPLEX RAIM/ECC DESIGN - A computer-implemented method for verifying a RAIM/ECC design using a hierarchical injection scheme that includes selecting marks for generating an error mask, selecting a fixed bit mask based on the selected marks, determining whether to inject errors into at least one of a marked channel and at least one marked chip of a channel; and randomly injecting errors into the at least one of the marked channel and the at least one marked chip when determined. | 12-29-2011 |
| 20110320914 | ERROR CORRECTION AND DETECTION IN A REDUNDANT MEMORY SYSTEM - Error correction and detection in a redundant memory system that includes a memory controller; a plurality of memory channels in communication with the memory controller, the memory channels including a plurality of memory devices; a cyclical redundancy code (CRC) mechanism for detecting that one of the memory channels has failed, and for marking the memory channel as a failing memory channel; and an error correction code (ECC) mechanism. The ECC is configured for ignoring the marked memory channel and for detecting and correcting additional memory device failures on memory devices located on one or more of the other memory channels, thereby allowing the memory system to continue to run unimpaired in the presence of the memory channel failure. | 12-29-2011 |
| 20110320918 | ERROR CORRECTION AND DETECTION IN A REDUNDANT MEMORY SYSTEM - Error correction and detection in a redundant memory system including a a computer implemented method that includes receiving data including error correction code (ECC) bits, the receiving from a plurality of channels, each channel comprising a plurality of memory devices at memory device locations. The method also includes computing syndromes of the data; receiving a channel identifier of one of the channels; and removing a contribution of data received on the channel from the computed syndromes, the removing resulting in channel adjusted syndromes. The channel adjusted syndromes are decoded resulting in channel adjusted memory device locations of failing memory devices, the channel adjusted memory device locations corresponding to memory device locations. | 12-29-2011 |
| 20110320919 | HIGH PERFORMANCE CACHE DIRECTORY ERROR CORRECTION CODE - Defining a set of correctable error and uncorrectable error syndrome code points, generating an error correction code (ECC) syndrome decode, regarding the uncorrectable error syndrome code points as “don't cares” and logically minimizing the ECC syndrome decode for the determination of the correctable error syndrome code points based on the regarding of the uncorrectable error syndrome code points as the “don't cares” whereby output data can be ignored for the uncorrectable error syndrome code points. | 12-29-2011 |
| 20110320921 | FAILING BUS LANE DETECTION USING SYNDROME ANALYSIS - Failing bus lane detection using syndrome analysis, including a method for receiving a plurality of syndromes of an error detection code, the error detection code associated with a plurality of frames that have been transmitted on a bus that includes a plurality of lanes and is protected by the error detection code. The method includes performing for each of the lanes in each of the syndromes: decoding the syndrome under an assumption that the lane is a failing lane, the decoding outputting a decode result; determining if the decode result is a valid decode; and voting for the lane in response to determining that the decode result is a valid decode. A failing lane is then identified in response to the voting, with the failing lane being characterized by having more votes than at least one other lane on the bus. | 12-29-2011 |
