Class / Patent application number | Description | Number of patent applications / Date published |
714600120 | Recovery partition | 55 |
20110055626 | SYSTEMS AND METHODS FOR RECOVERING INFORMATION FROM NAND GATES ARRAY MEMORY SYSTEMS - A method is disclosed for recovering data associated with a damaged file stored in a NAND gate array memory. The method includes the steps of: identifying all meta data associated with the damaged file; identifying each logical block address of all identified meta data; collecting all physical block addresses associated with one of the identified logical block addresses or the identified meta data; counting in a replace table (ReplTable) a number of matches to a physical block address of the damaged file for each physical block address of the damaged file; choosing a block in a linked list that corresponds to the physical block address of the block in the linked list; and linking all chosen blocks to form a replicated file. | 03-03-2011 |
20110078494 | MANAGEMENT METHOD AND SYSTEM FOR MANAGING REPLICATION BY TAKING INTO ACCOUNT CLUSTER - A management system, which manages a host computer and a storage system, holds cluster information, specifies an active-state host computer and an inactive-state host computer based on a backup instruction specifying a virtual host identifier, determines the need for executing a replication for disaster recovery use, and when necessary, executes this replication for disaster recovery use in combination with a replication for backup use. | 03-31-2011 |
20110107141 | DATA STORAGE DEVICE, CONTROLLER, AND DATA ACCESS METHOD FOR A DOWNGRADE MEMORY - The invention provides a data storage device. In one embodiment, the data storage device is coupled to a host, and comprises a downgrade memory and a controller. The downgrade memory comprises a plurality of blocks, wherein each of the blocks comprises a plurality of pages, each of the pages comprises a plurality of sectors, and some of the sectors are defect sectors. The controller generates a defect table for recording a plurality of defect addresses of the defect sectors in the blocks, receives a plurality of data sectors to be written to the downgrade memory from the host, determines a plurality of first physical sector addresses for storing the data sectors according to the defect table, and sends write commands to the downgrade memory to direct the downgrade memory to write the data sectors to the downgrade memory according to the first physical sector addresses. | 05-05-2011 |
20110113280 | CIRCUIT AND METHOD FOR EFFICIENT MEMORY REPAIR - A circuit and method of testing a memory and calculating a repair solution for a given address location includes pausing a built in self test (BIST) operation on detection of a failing memory output data of an integrated circuit. During the pause, the circuit and method analyzes ānā number of groups of the failing memory output data during ānā cycles using analysis logic and calculating a repair solution. Normal operations can be resumed. | 05-12-2011 |
20110113281 | DATA STORAGE SYSTEM AND METHOD - A data storage system and method are disclosed. The data storage system includes a first memory, a controller, a counting module, and a checking and correcting module. Copyback operations are performed in the first memory. The controller couples the first memory to the counting module and the checking and correcting module. The counting module provides a counting operation for the copyback operations at different logic addresses of the first memory and, according to a counting result of the counting operation, determines whether a checking and correcting requirement has been satisfied by any of the logic addresses. The checking and correcting module receives data read out from the first memory, wherein the received data corresponds to a satisfying logic address, and checks, or checks and corrects the received data to correct the first memory accordingly. | 05-12-2011 |
20110126044 | METHOD FOR SYSTEM RECOVERY AND APPARATUS SUPPORTING THE SAME - A system recovery method and an apparatus supporting the same are disclosed. A software image is downloaded, and a system is loaded with the downloaded software image, and the system is recovered by a software image used before the updating, if the system loading fails. | 05-26-2011 |
20110138222 | DATA STORAGE DEVICES AND METHODS FOR POWER-ON INITIALIZATION - Methods and systems are disclosed to generate a data map for a data storage device. A data map may be generated by scanning, during a power-on initialization process, data units of data stored on a data storage medium of a data storage device. The scanning may start from a selected data unit and proceed through the data units in an order opposite to a write order to identify a first data unit that is not fully erased. Also. an error recovery status of the first data unit may be determined based on an error correction code. A likely erased status of the first data unit may be assigned when the determined error recovery status is unrecoverable. | 06-09-2011 |
20110161726 | SYSTEM RAS PROTECTION FOR UMA STYLE MEMORY - In some embodiments, the invention involves a system and method relating to system recovery in a fault resilient manner by isolating errors associated with the management engine (ME) UMA memory. BIOS logs errors occurring on memory within the system. The ME UMA is invisible to the host OS, so the OS will not be notified about the errors occurring in the ME UMA range. When an error threshold has been reached for a memory unit in which ME UMA resides, ME UMA data is migrated to a previously reserved backup region of memory and the ME is notified of the new ME UMA location. The faulty memory is flagged for replacement at a next maintenance cycle. Embodiments may be applied to workstations that utilize ECC memory protection which utilize AMT (Active Management Technology) and ME UMA. Other embodiments are described and claimed. | 06-30-2011 |
20110161727 | SOLID STATE STORAGE SYSTEM FOR CONTROLLING RESERVED AREA AND METHOD OF CONTROLLING THE SAME - A solid state storage system includes a flash memory region comprising a plurality of memory blocks and a plurality of replacement blocks corresponding to error-occurred blocks when errors occur in the memory blocks; and a memory controller configured to perform a control operation to replace the error-occurred blocks with the replacement blocks, wherein the error-occurred blocks comprise correctable blocks and uncorrectable blocks, and wherein the memory controller determines whether the error-occurred blocks are the correctable blocks or the uncorrectable blocks and controls zones of the replacement blocks, replaced in correspondence to the correctable blocks, to be allocated a plurality of times. | 06-30-2011 |
20110202790 | Storage Configuration - Aspects of the subject matter described herein relate to storage configuration. In aspects, an interface is used to discover the existence, capacity, and characteristics of solid state storage. This information may be provided to a user or storage management process which may use the information to configure the solid state storage. When appropriate, bus bandwidth to the solid state storage as well as bandwidth to memory components of the solid state storage may be configured. Configuration and re-configuration may be performed automatically according to one or more policies maintained locally or remotely. | 08-18-2011 |
20110202791 | STORAGE CONTROL DEVICE , A STORAGE SYSTEM, A STORAGE CONTROL METHOD AND A PROGRAM THEREOF - A storage control device and a storage control method are provided. If a first failure detector of a first controller does not detect a failure in a second controller, a first input/output processor of the first controller copies the contents of a first volatile memory of the first controller to a second volatile memory of the second controller. On the other hand, if the first failure detector detects a failure in the second controller, the first input/output processor copies the contents of the first volatile memory to a first non-volatile memory of the first controller. | 08-18-2011 |
20110283137 | METHOD OF CREATING TARGET STORAGE LAYOUT TABLE REFERENCED FOR PARTITIONING STORAGE SPACE OF STORAGE DEVICE AND RELATED ELECTRONIC DEVICE AND MACHINE-READABLE MEDIUM - An exemplary method of creating a target storage layout table referenced for partitioning a storage space of a storage device includes following steps: identifying defective storage areas in the storage space of the storage device, and accordingly generating an identification result; and creating the target storage layout table according to the identification result. | 11-17-2011 |
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 |
20120023364 | METHODS AND APPARATUS TO PROTECT SEGMENTS OF MEMORY - Methods and apparatus to protect segments of memory are disclosed herein. An example method includes intercepting an interrupt request indicating an error; determining whether a first segment of memory is corrupt, the first segment of memory being designated as a protected region of memory; when the protected region of memory is corrupt, repairing the corrupted region of memory using a parity block of code; and in response to validating the protected region of memory, generating an interrupt enabling a utilization of code stored in the protected region of memory to handle the error associated with the interrupt request. | 01-26-2012 |
20120047396 | IDENTIFYING A DEFECT IN A DATA-STORAGE MEDIUM - An embodiment of a data-read path includes a defect detector and a data-recovery circuit. The defect detector is operable to identify a defective region of a data-storage medium, and the data-recovery circuit is operable to recover data from the data-storage medium in response to the defect detector. For example, such an embodiment may allow identifying a defective region of a data-storage disk caused, e.g., by a scratch or contamination, and may allow recovering data that was written to the defective region. | 02-23-2012 |
20120110376 | Systems and Methods for Managing End of Life in a Solid State Drive - Various embodiments of the present invention provide systems and methods for managing solid state drives. As an example, a storage system is described that include at least a first flash memory block and a second flash memory block, and a control circuit. The first flash memory block and the second flash memory block are addressable in the storage system. The control circuit is operable to identify the first flash memory block as partially failed, receive a write request directed to the first flash memory block; and direct the write request to the second flash memory block. | 05-03-2012 |
20120137167 | SYSTEMATIC MITIGATION OF MEMORY ERRORS - A system and method for mitigating memory errors in a computer system. Faulty memory is identified and tested by a memory manager of an operating system. The memory manager may perform diagnostic tests while the operating system is executing on the computer system. Regions of memory that are being used by software components of the computer system may also be tested. The memory manager maintains a stored information about faulty memory regions. Regions are added to the stored information when they are determined to be faulty by a diagnostic test tool. Memory regions are allocated to software components by the memory manager after checking the stored information about faulty memory regions. This ensures a faulty memory region is never allocated to a software component of the computer system. | 05-31-2012 |
20120159240 | RECOVERY OF A COMPUTER THAT INCLUDES VIRTUAL DISKS - Described is the backup and/or restore of virtual disks In general, metadata is backed up for restoring a virtual disk. To restore the disk, a physical disk is created, with the virtual disk the created on a partition of the physical disk. Backup and restore is described for nested virtual disks, including for block level restore. Further described is backing up of critical virtual disks and their containers, and virtual disk backup with respect to basic disks and dynamic volumes. | 06-21-2012 |
20130067273 | Optimizing and Enhancing Performance for Parity Based Storage - A mechanism is provided for optimizing and enhancing performance for parity based storage, particularly redundant array of independent disk (RAID) storage. The mechanism optimizes a repetitive pattern write command for performance for storage configurations that require parity calculations. The mechanism eliminates the need for laborious parity calculations that are resource intensive and add to IO latency. For repetitive write commands that span across the full stripe of a RAID5 or similar volume, the mechanism calculates parity by looking at the pattern and the number of columns in the volume. The mechanism may avoid the XOR operation altogether for repetitive pattern write commands. The mechanism may enhance secure delete operations that use repetitive pattern write commands by eliminating data reliability operations like parity generation and writing altogether. | 03-14-2013 |
20130111263 | SYSTEMS AND METHODS FOR RECOVERING INFORMATION FROM NAND GATES ARRAY MEMORY SYSTEMS | 05-02-2013 |
20130124917 | RECOVERING FROM STACK CORRUPTION FAULTS IN EMBEDDED SOFTWARE SYSTEMS - A method and system for recovering from stack-overflow or stack-underflow faults without restarting software or hardware. At every task switch operation in an application program, a portion of the memory stack is copied to a backup location, so that portion of the stack can be restored if it is subsequently corrupted by a stack-overflow or stack-underflow fault during the execution of the next task. State variable data is similarly copied to a backup location, so that it can be used to restore or estimate the output of the next task if that task experiences a fault. Techniques are disclosed for selecting which state variable data and which portion of the memory stack to copy to backup, and for detecting a stack-overflow or stack-underflow fault and restoring state variable and memory data in the event of such a fault. | 05-16-2013 |
20140040661 | DATA RECOVERY FOR FAILED MEMORY DEVICE OF MEMORY DEVICE ARRAY - Some aspects of the disclosure relate to a data storage system that includes multiple memory device storage devices. If a memory device of a memory device array fails within a first data storage device, some portions of the lost or corrupted data from the failed memory device are recovered by reading them from a second data storage device. Other portions of the lost or corrupted data from the failed memory device are recovered from parity information in the first data storage device. | 02-06-2014 |
20140082412 | STORAGE CONTROL SYSTEM, RECORDING MEDIUM STORING RECOVERY PROGRAM, AND METHOD - A storage control system includes: storage units each including a first storage area storing information and a second storage area storing management information that contains attribute information of partition information indicating how information is stored in partitions obtained by partitioning the first storage area; an obtaining unit to obtain the management information from the plurality of storage units; a determination unit to determine whether abnormal management information is present in the obtained management information by comparing the obtained management information with itself; and a recovery unit to reconfigure, when it is determined there is the abnormal management information, for each unit of partition, information stored in the first storage area of the storage unit from which the abnormal management information has been obtained by using one of the storage units from which normal management information has been obtained, based on attribute information of the normal management information in each partition. | 03-20-2014 |
20140095927 | ACHIEVING ULTRA-HIGH AVAILABILITY USING A SINGLE CPU - Techniques for achieving high-availability using a single processor (CPU). In a system comprising a multi-core processor, at least two partitions may be configured with each partition being allocated one or more cores of the multiple cores. The partitions may be configured such that one partition operates in active mode while another partition operates in standby mode. In this manner, a single processor is able to provide active-standby functionality, thereby enhancing the availability of the system comprising the processor. | 04-03-2014 |
20140208154 | STORING DATA IN A DISPERSED STORAGE NETWORK - A method begins by creating a vault as a virtual memory block within memory of a dispersed storage network (DSN). A segment of data is encoded into a set of encoded data slices and stored in the vault. The method continues by dividing the virtual memory block into a set of vault regions. The method continues by determining, for each vault region of the set of vault regions, vault parameters to produce a set of vault parameters. Vault parameters include a decode threshold number of encoded data slices and a total number of encoded data slices for encoding the segment of data. The method continues by facilitating data access to the vault in accordance with the set of vault parameters. | 07-24-2014 |
20140281686 | COOPERATIVE MEMORY ERROR DETECTION AND REPAIR - Some embodiments include apparatuses and methods having a memory structure included in a memory device and a control unit included in the memory device. The control unit can provide information obtained from the memory structure during a memory operation to a host device (e.g., a processor) in response to a command from the host device. If the control unit receives a notification from the host device indicating that the host device has detected an error in the information obtained from the memory structure, then a repair unit included in the memory device performs a memory repair operation to repair a portion in the memory structure. | 09-18-2014 |
20140310556 | MANAGEMENT APPARATUS AND MANAGEMENT METHOD - Management apparatus and method to prevent a drop in the service quality of data. In a computer system which replicates and holds data which is stored in a storage apparatus by a communication terminal in other storage apparatuses, physical position information of the storage apparatuses and the communication terminal is collected and, at the time of the disaster recovery processing, a storage apparatus for which the data of the secondary system is to be switched to the primary system is selected from among the storage apparatuses which hold the data of the secondary system on the basis of physical position information in a first predetermined period among the collected physical position information of the communication terminal, and a policy preconfigured for the data, and an instruction is issued to the selected storage apparatus to switch the data of the secondary system held by the storage apparatus to the primary system. | 10-16-2014 |
20140380090 | STORAGE CONTROL DEVICE AND STORAGE CONTROL METHOD - A storage control device includes a processor. The processor is configured to detect medium error regions in a first memory device. A medium error has occurred in each of the medium error regions. The processor is configured to conduct, on a first medium error region, data recovery processing for recovering data stored therein. The processor is configured to conduct copy processing for copying first data of a peripheral region of the first medium error region from the first memory device to a second memory device other than the first memory device. | 12-25-2014 |
20150026511 | PARTITIONABLE DATA BUS - A method and a system are provided for partitioning a system data bus. The method can include partitioning off a portion of a system data bus that includes one or more faulty bits to form a partitioned data bus. Further, the method includes transferring data over the partitioned data bus to compensate for data loss due to the one or more faulty bits in the system data bus. | 01-22-2015 |
20150026512 | INTEGRATED CIRCUIT AND MEMORY DEVICE - A memory device includes a boot-up control unit configured to control a start of boot-up operation by starting the boot-up operation when an initialization signal is activated, and ignore the initialization signal after a complete signal is activated, a nonvolatile memory unit configured to store repair data, and output the stored repair data during the boot-up operation, a plurality of registers configured to store the repair data outputted from the nonvolatile memory unit, a plurality of memory banks configured to replace a normal cell with a redundant cell, using the repair data stored in the corresponding registers among the plurality of resistors, and a verification unit configured to generate the complete signal to notify that the boot-up operation is completed. | 01-22-2015 |
20150052386 | TECHNIQUE FOR REPAIRING MEMORY MODULES IN DIFFERENT POWER REGIONS - A reshift unit within a computer system is configured to store repair information associated with random-access memory (RAM) modules that reside in different power regions. When one or more RAM modules in a given power region need to be repaired, the reshift unit identifies a portion of the repair information that is relevant to those RAM modules. The reshift unit then transmits that portion to the RAM modules, thereby repairing those RAM modules. Accordingly, RAM modules in a given power region can be repaired independently of RAM modules in other power regions. Advantageously, RAM modules can be repaired between cold boots without implementing the slow repair procedure performed by the fuse block during cold boot. | 02-19-2015 |
20150067388 | SERIAL ADVANCED TECHNOLOGY ATTACHMENT DUAL IN-LINE MEMORY MODULE DEVICE - A serial advanced technology attachment dual in-line memory module (SATA DIMM) device includes a circuit board. A storage chip is arranged on the circuit board and stores a first firmware. A memory is arranged on the circuit board and stores a second firmware. A control chip is arranged on the circuit board and connected to the memory, to read the second firmware from the memory and load the second firmware in the storage chip when the first firmware stored in the storage chip is damaged. The control chip is also connected to the storage chip, to control the storage chip to read or to write data. | 03-05-2015 |
20150089278 | VARIABLE DATA RECOVERY SCHEME HIERARCHY - Method and apparatus for managing data in a memory, such as a flash memory. In accordance with some embodiments, a memory has a plurality of solid-state non-volatile memory cells. A processing circuit is connected to the memory and configured to direct the execution of a plurality of read error recovery routines in response to at least one uncorrectable read error in a data set retrieved from the memory. The recovery routines are executed in a selected order based on an elapsed recovery time parameter for each of the recovery routines and an estimated probability of success of each of the recovery routines. | 03-26-2015 |
20150089279 | IMPLEMENTING MEMORY MODULE COMMUNICATIONS WITH A HOST PROCESSOR IN MULTIPORTED MEMORY CONFIGURATIONS - A method, system and computer program product are provided for implementing ECC (Error Correction Codes) memory module communications with a host processor in multi-ported memory configurations in a computer system. Each of multiple memory modules operating in unison is enabled to identify which memory module is the one required to communicate module specific information back to the host processor. All of the multiple memory modules operating in unison are enabled to generate back to the host processor a valid ECC word, while other multiple memory modules individually being unaware of data contents of the one memory module required to communicate back to the processor. | 03-26-2015 |
20150089280 | RECOVERY FROM MULTIPLE DATA ERRORS - Mechanisms for handling multiple data errors that occur simultaneously are provided. A processing device may determine whether multiple data errors occur in memory locations that are within a range of memory locations. If the multiple memory locations are within the range of memory locations, the processing device may continue with a recovery process. If one of the multiple memory locations is outside of the range of memory locations, the processing device may halt the recovery process. | 03-26-2015 |
20150089281 | MEMORY CONTROLLER, INFORMATION PROCESSING APPARATUS, AND METHOD OF CONTROLLING INFORMATION PROCESSING APPARATUS - A memory controller is provided between a CPU and a main memory, controls access from the CPU to the main memory, and includes a data storage area and a controller. In a case where error information indicating that an error occurs is included in write data from the CPU to the main memory, the controller stores the write data in a data storage area in association with a writing destination address. Therefore, even in a case where the error information is not written in the main memory, the error information can be recorded. | 03-26-2015 |
20150100819 | Method of Recovering Data in a Storage Device - A method and system for recovering data written onto a storage device when system failure and/or damage occur during use is provided. A memory of the storage device is divided into a plurality of information zones, for storing data as a codeword set, and a plurality of check zones, for storing checksums, of equal size selected from different parts of the storage device. A computing unit calculates etalon checksums with an established formula during each write data operation for each codeword set in the information zones. If failure, damage or data corruption occurs, computing unit calculates current checksums using an established formula. The values of the stored etalon checksums and the current checksums are used for data recovery, which is performed by solving the system of equations, received from the formula for computing the checksums. Parallel calculation schemes are used in checksum computing and for data recovery. | 04-09-2015 |
20150100820 | PROTECTING VOLATILE DATA OF A STORAGE DEVICE IN RESPONSE TO A STATE RESET - An imminent state reset of a data storage device is detected. In response to determining volatile data of the data storage device could be lost in response to the state reset, the volatile data of the data storage device is stored to a backup memory of the data storage device together with first header data that facilitates recovering the volatile data. The backup memory includes non-volatile, solid-state memory. In response to determining the volatile data would not be lost in response to the state reset, second header data is stored in the backup memory. After the state reset, a recovery of the volatile data from in the backup memory is attempted if the first header data is detected, or a host device is alerted if neither the first header data or second header data is detected. | 04-09-2015 |
20150143165 | MEMORY SYSTEMS AND METHODS OF MANAGING FAILED MEMORY CELLS OF SEMICONDUCTOR MEMORIES - A memory system includes a memory controller configured to replace a memory block including a failed memory cell with a unit cache block of a cache memory in response to detection of the failed memory cell in the memory block. The unit cache block is smaller than a minimum size of a memory cell array capable of being blocked by an operating system, and the unit cache block has substantially the same storage capacity as the memory block. | 05-21-2015 |
20150339182 | FUZZY COUNTERS FOR NVS TO REDUCE LOCK CONTENTION - A system for data management in a computing storage environment includes a processor device, operable in the computing storage environment, that divides a plurality of counters tracking write and discard storage operations through Non Volatile Storage (NVS) space into first, accurate, and second, fuzzy, groups where the first, accurate, group is one of updated on a per operation basis, while the second, fuzzy, group is one of updated on a more infrequent basis as compared to the first, accurate group. | 11-26-2015 |
20150339195 | METHOD AND SYSTEM FOR SECURE SYSTEM RECOVERY - Apparatus and methods implemented therein are disclosed for recovery of information stored in non-volatile memory of embedded and external solid-state memory devices. The apparatus comprises a memory system. The memory system has a non-volatile memory and a memory controller. The memory controller is coupled to the non-volatile memory. The memory controller is also coupled to a memory interface. The memory controller searches the non-volatile memory to locate initialization information required to initialize the memory controller. The memory controller, in response to failing to successfully locate or execute the initialization information, is configured to transmit an indication via the memory interface. | 11-26-2015 |
20150363285 | METHODS AND SYSTEMS FOR USING A WRITE CACHE IN A STORAGE SYSTEM - Methods and systems for storing data at a storage device of a storage system are provided. The data is first temporarily stored at a first write cache and an input/output request for a persistence storage device used as a second write cache is generated, when an I/O request size including the received data has reached a threshold value. The data from the first cache is transferred to the persistence storage device and a recovery control block with a location of the data stored at the persistence storage device is updated. An entry is added to a linked list that is used to track valid data stored at the persistence storage device and then the data is transferred from the persistence storage device to the storage device of the storage system. | 12-17-2015 |
20150378841 | Techniques to Communicate with a Controller for a Non-Volatile Dual In-Line Memory Module - Examples may include communicating with a controller for a non-volatile dual in-line memory module through a system management bus (SMBus) interface. In some examples, selective assertion of bits maintained in registers accessible through the SMBus interface may enable communication with the controller. The selective assertion may be based on a register map. | 12-31-2015 |
20160004614 | Method Of Starting Up Device, Device And Computer Readable Medium - The embodiments herein relate to the field of computer technology, and specifically relate to a method of starting up a device, a device and a computer readable medium. Some embodiments disclosed herein provide a method of starting up a device, including: when starting up the device, determining whether the triggering condition of integrity check is met; if the triggering condition is met, conducting integrity check for main partition information; after confirming that the main partition information is lack of integrity, conducting integrity check for backup partition information; and after confirming that the backup partition information is of integrity, starting up the device using the backup partition information, and restoring the main partition information using the backup partition information. Some embodiments herein disclose a method of restoring main partition information of a device, which may ensure the integrity of the main partition information, and may enhance the performance of the device. | 01-07-2016 |
20160011815 | SOLID-STATE MASS STORAGE MEDIA HAVING DATA VOLUMES WITH DIFFERENT SERVICE LEVELS FOR DIFFERENT DATA TYPES | 01-14-2016 |
20160019111 | PARTIAL BAD BLOCK DETECTION AND RE-USE USING EPWR FOR BLOCK BASED ARCHITECTURES - Systems and methods for partial bad block reuse may be provided. Data may be copied from a block of a first memory to a block of a second memory. A post write read error may be detected in a first portion the data copied to the block of the second memory without detection of a post write read error in a second portion of the data copied to the block of the second memory. The block of the second memory may be determined to be a partial bad block usable for storage in response to detection of the post write read error in the first portion of the data but not in the second portion of the data. | 01-21-2016 |
20160034336 | UNCORRECTABLE MEMORY ERRORS IN PIPELINED CPUS - Uncorrectable memory errors in pipelined central processing units. A processor core may be connected to a memory system and it may include a processor cache. In response to determining an uncorrectable error in data stored in the memory system, the address of a memory location of the uncorrectable error is stored in an address buffer and a recovery procedure is performed for the processor core. When fetching data from a memory location and if it is determined that the address of this memory location is stored in the address buffer, the content of a cache line related to the address is moved into a quarantine buffer of the processor core. When detecting an error in the data of the moved cache line, a repair procedure for the data of this address is triggered. | 02-04-2016 |
20160085649 | DISK DRIVE REPAIR - According to an example, to repair a disk drive error, a determination is made if a disk field-repair is possible, if an operating system recovery image is available, and if any failed sectors exist in the operating system recovery image. A user is prompted to begin a repair. Failed sectors on the disk drive are read and overwritten, and an operating system recovery is started. In some examples, the disk drive error is an uncorrectable disk drive error. | 03-24-2016 |
20160110246 | DISK DATA MANAGEMENT - Embodiments of the present invention provide a method, a computer program product and apparatus for disk data management, that includes comprises obtaining BMS data from a disk, determining a bad sector in the disk based on the BMS data, and recovering data stored in the determined bad sector. | 04-21-2016 |
20160124820 | Data Storage Device and Flash Memory Control Method - A flash memory control technology with high reliability. In a power recovery process, a microcontroller is configured to duplicate a last write page of a run-time write block of a flash memory and thereby generate a duplicated page in the run-time write block. The microcontroller is further configured use the mapping information accessed from the duplicated page in rebuilding a physical-to-logical address mapping table rather than the mapping information accessed from the last write page. The microcontroller is configured to maintain the physical-to-logical address mapping table on a random access memory for the run-time write block and is further configured to use the physical-to-logical address mapping table to update a logical-to-physical address mapping table maintained in the flash memory. | 05-05-2016 |
20160139993 | STORAGE DEVICE FAILURE RECOVERY SYSTEM - A storage device failure recovery system includes a storage IHS and a user IHS coupled together over a network. The user IHS includes a storage system having a storage device, and a storage repair function that periodically provides a storage device image over the network to the storage IHS using data from the storage device. The storage repair function detects a failure of the storage device and streams an operating system on the user IHS using the storage device image stored on the storage IHS. While streaming the operating system on the user IHS using the storage device image stored on the storage IHS, the storage repair function analyzes the failure of the storage device, determines a storage system failure recovery procedure, and performs the storage system failure recovery procedure to restore the storage system while a user remains productive on the user IHS via the streamed operating system. | 05-19-2016 |
20160203053 | SYSTEMS AND METHODS FOR STORAGE COLLISION MANAGEMENT | 07-14-2016 |
20160378603 | AUTOMATED FAULT RECOVERY - Systems and methods for automated fault recovery. In some embodiments, an Information Handling System (IHS) includes a processor and a Basic I/O System (BIOS) coupled to the processor, the BIOS having program instructions that, upon execution, cause the IHS to: identify a failure during execution of an Operating System; select, by the BIOS, a given one of a plurality of recovery tools previously registered with the BIOS; and launch the given recovery tool by the BIOS. | 12-29-2016 |
20180024897 | EFFICIENT DATA RECOVERY FOR WRITE PATH ERRORS | 01-25-2018 |
20220138065 | SEMICONDUCTOR DIE FAILURE RECOVERY IN A DATA STORAGE DEVICE - Apparatus and method for a die kill and recovery sequence for a non-volatile memory (NVM). Data are stored in the NVM as data sets in garbage collection units (GCUs) that span multiple semiconductor dies. A die failure management circuit is configured to detect a die failure event associated with a selected die, and to generate a recovery strategy to accommodate the detected die failure event by selecting recovery actions to be taken in a selected sequence to maintain a current level of data transfer performance with a client device. The selected recovery actions are carried out in the selected sequence to transfer at least a portion of the user data stored in the selected die to a new replacement die, after which the selected die is decommissioned from further use. The NVM may be a flash memory of a solid-state drive (SSD). | 05-05-2022 |