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 |
20120173936 | CHANNEL MARKING FOR CHIP MARK OVERFLOW AND CALIBRATION ERRORS - Marking memory chips as faulty when a fault is detected in data from the memory chip. Upon detecting that a plurality of memory chips are faulty, determining which of a plurality of memory channels contains the faulty memory chips. Marking one of a plurality of memory channels as failing in response to determining that the number of failing memory chips has exceeded a threshold. | 07-05-2012 |
20120198309 | CORRECTING MEMORY DEVICE AND MEMORY CHANNEL FAILURES IN THE PRESENCE OF KNOWN MEMORY DEVICE FAILURES - Correcting memory device (chip) and memory channel failures in the presence of known memory device failures. A memory channel failure is located and corrected, or alternatively up to c chip failures are corrected and up to d chip failures are detected in the presence of up to u chips that are marked as suspect. A first stage of decoding is performed that results in recovering an estimate of correctable errors affecting the data or in declaring an uncorrectable error state. When an uncorrectable error state is declared, a second stage of decoding is performed to attempt to correct u erasures and a channel error in M iterations where the channel location is changed in each iteration. A correctable error is declared in response to exactly one of the M iterations being successful. | 08-02-2012 |
20130036341 | 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. | 02-07-2013 |
20130047040 | CHANNEL MARKING FOR CHIP MARK OVERFLOW AND CALIBRATION ERRORS - Marking memory chips as faulty when a fault is detected in data from the memory chip. Upon detecting that a plurality of memory chips are faulty, determining which of a plurality of memory channels contains the faulty memory chips. Marking one of a plurality of memory channels as failing in response to determining that the number of failing memory chips has exceeded a threshold. | 02-21-2013 |
20130191682 | HOMOGENEOUS RECOVERY IN A REDUNDANT MEMORY SYSTEM - A computer implemented method for providing homogeneous recovery in a redundant memory system. The method includes receiving a notification that a memory channel has failed, where the memory channel is one of a plurality of memory channels in a memory system. New operations are blocked from starting on the memory channels in response to the notification, and any pending operations on the memory channels are completed in response to the notification. A recovery operation is performed on the memory channels in response to the completing. The new operations are started on at least a first subset of the memory channels in response to the recovery operation completing. The memory system is configured to operate with the first subset of the memory channels. | 07-25-2013 |
20130191683 | 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 based on the removing any stale data being complete. | 07-25-2013 |
20130191685 | PER-RANK CHANNEL MARKING IN A MEMORY SYSTEM - Channel marking is provided in a memory system that includes a memory channel with a plurality of memory devices. The memory devices are arranged into a first group of memory devices and a second group of memory devices. The memory system is configured to perform a method that includes determining that more than a threshold number of memory devices in the first group are failing. An error correction code (ECC) is configured to compensate for errors associated with memory devices in the first group on the memory channel and to perform error correction on errors associated with memory devices in the second group on the memory channel. | 07-25-2013 |
20130191698 | HIERARCHICAL CHANNEL MARKING IN A MEMORY SYSTEM - Channel marking is provided in a memory system that includes a first memory channel, a second memory channel, and error correction code (ECC) logic. The memory system is configured to perform a method that includes receiving a request to apply a first channel mark to the first memory channel and determining a priority level of the first channel mark. A request is received to apply a second channel mark to the second memory channel, and a priority level of the second mark is determined. It is determined that the priority level of the first channel mark is higher than the priority level of the second channel mark. The first channel mark is supplied to the ECC logic while blocking the second channel mark from the ECC logic. | 07-25-2013 |
20130191703 | DYNAMIC GRADUATED MEMORY DEVICE PROTECTION IN REDUNDANT ARRAY OF INDEPENDENT MEMORY (RAIM) SYSTEMS - Dynamic graduated memory device protection in redundant array of independent memory (RAIM) systems that include a plurality of memory devices is provided. A first severity level of a first failing memory device in the plurality of memory devices is determined. The first failing memory device is associated with an identifier used to communicate a location of the first failing memory device to an error correction code (ECC). A second severity level of a second failing memory device in the plurality of memory devices is determined. It is determined that the second severity level is higher than the first severity level. The identifier from the first failing memory device is removed based on determining that the second severity level is higher than the first severity level. The identifier is applied to the second failing memory device based on determining that the second severity level is higher than the first severity level. | 07-25-2013 |
20130339808 | BITLINE DELETION - Embodiments relate to a method including detecting a first error when reading a first cache line, recording a first address of the first error, detecting a second error when reading a second cache line and recording a second address of the second error. Embodiments also include comparing the first and second bitline address, comparing the first and second wordline address, activating a bitline delete mode based on matching first and second bitline addresses and not matching the first and second wordline addresses, detecting a third error when reading a third cache line, recording a third bitline address of the third error, comparing the second bitline address to a third bitline address and deleting a location corresponding to the third cache line from available cache locations based on the activated bitline delete mode and the third bitline address matching the second bitline address. | 12-19-2013 |
20130339809 | BITLINE DELETION - Embodiments relate to a computer system for bitline deletion, the system including a cache controller and cache. The system is configured to perform a method including detecting a first error when reading a first cache line, recording a first address of the first error, detecting a second error when reading a second cache line, recording a second address of the second error, comparing first and second bitline addresses, comparing the first and second wordline address, activating a bitline delete mode based on matching first and second bitline addresses and not matching first and second wordline addresses, detecting a third error when reading a third cache line, recording a third bitline address of the third error, comparing the second bitline address to the third bitline address and deleting a location corresponding to the third cache line based on the activated bitline delete mode and matching third and second bitline addresses. | 12-19-2013 |
20130339811 | BITLINE DELETION - Embodiments relate to a method for bitline deletion include, based on detecting a high bitline error rate condition in the cache at a selected bitline address, wherein the high bitline error rate condition indicates a high rate of errors at the selected bitline address, activating the programmable switch in the cache. The method also includes, based on the programmable switch being activated and encountering an error associated with the selected bitline address, automatically deleting, by the computer system, one or more cache lines associated with subsequent errors in the cache regardless of an address of the subsequent errors based on the activated programmable switch, wherein the automatic line deletion indicates a line is unavailable. | 12-19-2013 |
20130339822 | BAD WORDLINE/ARRAY DETECTION IN MEMORY - A technique for error detection is provided. A controller is configured to detect errors by using error correcting code (ECC), and a cache includes independent ECC words for storing data. The controller detects the errors in the ECC words for a wordline that is read. The controller detects a first error in a first ECC word on the wordline and a second error in a second ECC word on the wordline. The controller determines that the wordline is a failing wordline based on detecting the first error in the first ECC word and the second error in the second ECC word. | 12-19-2013 |
20130339823 | BAD WORDLINE/ARRAY DETECTION IN MEMORY - A technique for error detection is provided. A controller is configured to detect errors by using error correcting code (ECC), and a cache includes independent ECC words for storing data. The controller detects the errors in the ECC words for a wordline that is read. The controller detects a first error in a first ECC word on the wordline and a second error in a second ECC word on the wordline. The controller determines that the wordline is a failing wordline based on detecting the first error in the first ECC word and the second error in the second ECC word. | 12-19-2013 |
20140101481 | PER-RANK CHANNEL MARKING IN A MEMORY SYSTEM - Channel marking is provided in a memory system that includes a memory channel with a plurality of memory devices. The memory devices are arranged into a first group of memory devices and a second group of memory devices. The memory system is configured to perform a method that includes determining that more than a threshold number of memory devices in the first group are failing. An error correction code (ECC) is configured to compensate for errors associated with memory devices in the first group on the memory channel and to perform error correction on errors associated with memory devices in the second group on the memory channel. | 04-10-2014 |
20140101518 | DYNAMIC GRADUATED MEMORY DEVICE PROTECTION IN REDUNDANT ARRAY OF INDEPENDENT MEMORY (RAIM) SYSTEMS - Dynamic graduated memory device protection in redundant array of independent memory (RAIM) systems that include a plurality of memory devices is provided. A first severity level of a first failing memory device in the plurality of memory devices is determined. The first failing memory device is associated with an identifier used to communicate a location of the first failing memory device to an error correction code (ECC). A second severity level of a second failing memory device in the plurality of memory devices is determined. It is determined that the second severity level is higher than the first severity level. The identifier from the first failing memory device is removed based on determining that the second severity level is higher than the first severity level. The identifier is applied to the second failing memory device based on determining that the second severity level is higher than the first severity level. | 04-10-2014 |
20140173361 | SYSTEM AND METHOD TO INJECT A BIT ERROR ON A BUS LANE - A method includes modifying, at a bit error injection circuit, a multiplier value by a first value according to an occurrence of a first event. The method also includes, in response to a determination that the modified multiplier value matches a first threshold, modifying, at the bit error injection circuit, the offset value according to an occurrence of a second event. The method further includes, in response to a determination that the modified offset value matches a second threshold, asserting, at the bit error injection circuit, an error injection signal. The method further includes asserting a first error pattern to be transmitted via a bus lane based on the error injection signal. | 06-19-2014 |
20140281042 | FIRST-IN-FIRST-OUT QUEUE-BASED COMMAND SPREADING - Embodiments relate to first-in-first-out (FIFO) queue based command spreading. An aspect includes receiving a plurality of commands by a first level priority stage of a memory control unit (MCU), wherein each of the plurality of commands is associated with one of a plurality of ports located on a buffer chip. Another aspect includes storing each of the plurality of commands in a FIFO queue of a plurality of FIFO queues in the MCU, wherein each of the plurality of commands is assigned to a FIFO queue based on the command's associated port, and each of the plurality of FIFO queues is associated with a respective one of the plurality of ports located on the buffer chip. Another aspect includes selecting a FIFO queue of the plurality of FIFO queues and forwarding a command from the selected FIFO queue to the buffer chip by the second level priority stage. Another aspect includes a third level priority on the buffer chip associated with each respective FIFO queue to help optimize the bandwidth on the returning upstream fetch bus. | 09-18-2014 |
20140281191 | ADDRESS MAPPING INCLUDING GENERIC BITS - Embodiments relate to address mapping including generic bits. An aspect includes receiving an address including generic bits from a memory control unit (MCU) by a buffer module in a main memory. Another aspect includes mapping the generic bits to an address format corresponding to a type of dynamic random access memory (DRAM) in a memory subsystem associated with the buffer module by the buffer module. Yet another aspect includes accessing a physical location in the DRAM in the memory subsystem by the buffer module based on the mapped generic bits. | 09-18-2014 |
20140281325 | SYNCHRONIZATION AND ORDER DETECTION IN A MEMORY SYSTEM - Embodiments relate to out-of-synchronization detection and out-of-order detection in a memory system. One aspect is a system that includes a plurality of channels, each providing communication with a memory buffer chip and a plurality of memory devices. A memory control unit is coupled to the plurality of channels. The memory control unit is configured to perform a method that includes receiving frames on two or more of the channels. The memory control unit identifies alignment logic input in each of the received frames and generates a summarized input to alignment logic for each of the channels of the received frames based on the alignment logic input. The memory control unit adjusts a timing alignment based on a skew value per channel. Each of the timing adjusted summarized inputs is compared. Based on a mismatch between at least two of the timing adjusted summarized inputs, a miscompare signal is asserted. | 09-18-2014 |
20140281326 | DUAL ASYNCHRONOUS AND SYNCHRONOUS MEMORY SYSTEM - Embodiments relate to a dual asynchronous and synchronous memory system. One aspect is a system that includes a memory controller and a memory buffer chip coupled to the memory controller via a synchronous channel. The memory buffer chip includes a memory buffer unit configured to synchronously communicate with the memory controller in a nest domain, and a memory buffer adaptor configured to communicate with at least one memory interface port in a memory domain. The at least one memory interface port is operable to access at least one memory device. A boundary layer is connected to the nest domain and the memory domain, where the boundary layer is configurable to operate in a synchronous transfer mode between the nest and memory domains and to operate in an asynchronous transfer mode between the nest and memory domains. | 09-18-2014 |
20140281653 | REESTABLISHING SYNCHRONIZATION IN A MEMORY SYSTEM - Embodiments relate to reestablishing synchronization across multiple channels in a memory system. One aspect is a system that includes a plurality of channels, each providing communication with a memory buffer chip and a plurality of memory devices. A memory control unit is coupled to the plurality of channels. The memory control unit is configured to perform a method that includes receiving an out-of-synchronization indication associated with at least one of the channels. The memory control unit performs a first stage of reestablishing synchronization that includes selectively stopping new traffic on the plurality of channels, waiting for a first time period to expire, resuming traffic on the plurality of channels based on the first time period expiring, and verifying that synchronization is reestablished for a second time period. | 09-18-2014 |
20140281751 | EARLY DATA DELIVERY PRIOR TO ERROR DETECTION COMPLETION - Embodiments relate to early data delivery prior to error detection completion in a memory system. One aspect is a system that includes a cache subsystem interface with a correction pipeline in a system domain. The system includes a memory control unit interface in a memory controller nest domain and a buffer control block providing an asynchronous boundary layer between the system domain and the memory controller nest domain. A controller is configured to receive a frame of a multi-frame data block and write the frame to the buffer control block. The frame is read by the cache subsystem interface prior to completion of error detection of the multi-frame data block. Error detection is performed on the frame in the memory controller nest domain. Based on detecting an error in the frame, an intercept signal is sent from the memory controller nest domain to the correction pipeline in the system domain. | 09-18-2014 |
20140281783 | REPLAY SUSPENSION IN A MEMORY SYSTEM - Embodiments relate to replay suspension in a memory system. One aspect is a system that includes a replay buffer coupled to a memory controller interface, and a replay control coupled to the replay buffer and a memory controller. The replay control is configured to receive an error indication associated with sending data from the memory controller interface to a memory subsystem as part of an operation. A replay pending signal is provided to the memory controller based on the error indication. Based on waiting for a period of time sufficient for the memory controller to provide remaining data associated with the operation to the replay buffer, a replay signal is asserted. | 09-18-2014 |
20140310570 | STALE DATA DETECTION IN MARKED CHANNEL FOR SCRUB - Embodiments relate to stale data detection in a marked channel for a scrub. An aspect includes bringing the marked channel online, wherein the computer comprises a plurality of memory channels comprising the marked channel and a remaining plurality of unmarked channels. Another aspect includes performing a scrub read of an address in the plurality of memory channels. Another aspect includes determining whether data returned by the scrub read from the marked channel is valid or stale based on data returned from the unmarked channels by the scrub read. Another aspect includes based on determining that the data returned by the scrub read from the marked channel is valid, not performing a scrub writeback to the marked channel. Another aspect includes based on determining that the data returned by the scrub read from the marked channel is stale, performing a scrub writeback of corrected data to the marked channel. | 10-16-2014 |
20150019831 | DUAL ASYNCHRONOUS AND SYNCHRONOUS MEMORY SYSTEM - A computer-system implemented method for dual asynchronous and synchronous memory operation in a memory subsystem includes establishing a synchronous channel between a memory controller and a memory buffer chip. A mode selector determines a reference clock source for a memory domain phase-locked loop of the memory buffer chip based on an operating mode of the memory buffer chip. An output of a nest domain phase-locked loop is provided as the reference clock source to the memory domain phase-locked loop in the memory buffer chip based on the operating mode being synchronous. The nest domain phase-locked loop is operable synchronous to a memory controller phase-locked loop of the memory controller. A separate reference clock is provided independent of the nest domain phase-locked loop as the reference clock to the memory domain phase-locked loop based on the operating mode being asynchronous. | 01-15-2015 |
20150019905 | STALE DATA DETECTION IN MARKED CHANNEL FOR SCRUB - Embodiments relate to stale data detection in a marked channel for a scrub. An aspect includes bringing the marked channel online, wherein the computer comprises a plurality of memory channels comprising the marked channel and a remaining plurality of unmarked channels. Another aspect includes performing a scrub read of an address in the plurality of memory channels. Another aspect includes determining whether data returned by the scrub read from the marked channel is valid or stale based on data returned from the unmarked channels by the scrub read. Another aspect includes based on determining that the data returned by the scrub read from the marked channel is valid, not performing a scrub writeback to the marked channel. Another aspect includes based on determining that the data returned by the scrub read from the marked channel is stale, performing a scrub writeback of corrected data to the marked channel. | 01-15-2015 |
20150019935 | EARLY DATA DELIVERY PRIOR TO ERROR DETECTION COMPLETION - A computer implemented method for early data delivery prior to error detection completion in a memory system includes receiving a frame of a multi-frame data block at a memory control unit interface. A controller writes the frame to a buffer control block in a memory controller nest domain. The frame is read from the buffer control block by a cache subsystem interface in a system domain prior to completion of error detection of the multi-frame data block. Error detection is performed on the frame by an error detector in the memory controller nest domain. Based on detecting an error in the frame, an intercept signal is sent from the memory controller nest domain to a correction pipeline in the system domain. The intercept signal indicates that error correction is needed prior to writing data in the frame to a cache subsystem. | 01-15-2015 |