Patent application number | Description | Published |
20080225474 | APPARATUS, SYSTEM, AND METHOD FOR SCALABLE, COMPOSITE, RECONFIGURABLE BACKPLANE - An apparatus, system, and method are disclosed for a scalable, composite, reconfigurable backplane. The backplane is made up of one or more blade aggregation modules which provide switching for attached devices. The blade aggregation module connects to transition cards that then connect with blade modules. The blade aggregation module provides connectivity to the connected modules, which may connect to a second blade aggregation module through the transition cards. The transition cards may additionally connect with unit aggregation modules to connect rows of blade modules together. Transition cards can also provide outside connectivity. The backplane, made up of blade aggregation modules, transition cards, and unit aggregation modules, is highly scalable and versatile, and also provides an unblocked airflow path to facilitate cooling the blades. | 09-18-2008 |
20080229079 | APPARATUS, SYSTEM, AND METHOD FOR MANAGING COMMANDS OF SOLID-STATE STORAGE USING BANK INTERLEAVE - An apparatus, system, and method are disclosed for efficiently managing commands in a solid-state storage device that includes a solid-state storage arranged in two or more banks. Each bank is separately accessible and includes two or more solid-state storage elements accessed in parallel by a storage input/output bus. The solid-state storage includes solid-state, non-volatile memory. The solid-state storage device includes a bank interleave that directs one or more commands to two or more queues, where the one or more commands are separated by command type into the queues. Each bank includes a set of queues in the bank interleave controller. Each set of queues includes a queue for each command type. The bank interleave controller coordinates among the banks execution of the commands stored in the queues, where a command of a first type executes on one bank while a command of a second type executes on a second bank. | 09-18-2008 |
20080256183 | APPARATUS, SYSTEM, AND METHOD FOR A FRONT-END, DISTRIBUTED RAID - An apparatus, system, and method are disclosed for a front-end, distributed redundant array of independent drives (“RAID”). A storage request receiver module receives a storage request to store object or file data in a set of autonomous storage devices forming a RAID group. The storage devices independently receive storage requests from a client over a network, and one or more of the storage devices are designated as parity-mirror storage devices for a stripe. The striping association module calculates a stripe pattern for the data. Each stripe includes N data segments, each associated with N storage devices. The parity-mirror association module associates a set of the N data segments with one or more parity-mirror storage devices. The storage request transmitter module transmits storage requests to each storage device. Each storage request is sufficient to store onto the storage device the associated data segments. The storage requests are substantially free of data. | 10-16-2008 |
20080256292 | APPARATUS, SYSTEM, AND METHOD FOR A SHARED, FRONT-END, DISTRIBUTED RAID - An apparatus, system, and method are disclosed for a shared, front-end, distributed redundant array of independent drives (“RAID”). A multiple storage request receiver module receives at least two storage requests from at least two clients to store file or object data in one or more storage devices of a storage device set. The storage requests are concurrent and have at least a portion of the data in common. The storage device set includes autonomous storage devices forming a RAID group. Each storage device is capable of independently receiving storage requests from a client over a network. A striping module calculates a stripe pattern and writes N data segments per stripe to N storage devices. A parity-mirror module writes a set of N data segments to parity-mirror storage devices. A sequencer module ensures completion of a first storage request prior to executing a second storage request. | 10-16-2008 |
20080313312 | Apparatus, system, and method for a reconfigurable baseboard management controller - An apparatus, system, and method are disclosed for a baseboard management controller (BMC) which includes an FPGA with a monitor module for monitoring the operations parameters of a host computer device. In addition, the BMC has a host connector that connects the BMC to the system bus of the host computing device, allowing the BMC access to the computing elements on the host. The host connector has reconfigurable pins with connection configuration controlled by the FPGA. In addition, the BMC has a server with a processor and associated non-volatile memory on board. The operating system provides services to the host computing device and its constituent components, as well as allowing advanced networking and interconnectivity with other BMCs in a management network. | 12-18-2008 |
20080313364 | APPARATUS, SYSTEM, AND METHOD FOR REMOTE DIRECT MEMORY ACCESS TO A SOLID-STATE STORAGE DEVICE - An apparatus, system, and method are disclosed for sharing a device between multiple hosts. The apparatus, system, and method include an RDMA setup module and an RDMA execution module. The RDMA setup module prepares a solid-state storage controller for an RDMA operation to transfer data of a file or of an object between the solid-state storage controller and a requesting device in response to a storage request. The storage request may be substantially free of the data, and the solid-state storage controller may control a solid-state storage via a storage input/output (“I/O”) bus. The solid-state controller controls storage of data in the solid-state storage, and the requesting device is connected to the solid-state controller through a computer network. The RDMA execution module executes the RDMA operation to transfer the data between the requesting device and the solid-state storage controller. | 12-18-2008 |
20090125671 | APPARATUS, SYSTEM, AND METHOD FOR STORAGE SPACE RECOVERY AFTER REACHING A READ COUNT LIMIT - An apparatus, system, and method are disclosed for storage space recovery after reaching a read count limit. A read module reads data in a storage division of solid-state storage. A read counter module then increments a read counter corresponding to the storage division. A read counter limit module determines if the read count exceeds a maximum read threshold, and if so, a storage division selection module selects the corresponding storage division for recovery. A data recovery module reads valid data packets from the selected storage division, stores the valid data packets in another storage division of the solid-state storage, and updates a logical index with a new physical address of the valid data. | 05-14-2009 |
20090132760 | APPARATUS, SYSTEM, AND METHOD FOR SOLID-STATE STORAGE AS CACHE FOR HIGH-CAPACITY, NON-VOLATILE STORAGE - An apparatus, system, and method are disclosed for solid-state storage as cache for high-capacity, non-volatile storage. The apparatus, system, and method are provided with a plurality of modules including a cache front-end module and a cache back-end module. The cache front-end module manages data transfers associated with a storage request. The data transfers between a requesting device and solid-state storage function as cache for one or more HCNV storage devices, and the data transfers may include one or more of data, metadata, and metadata indexes. The solid-state storage may include an array of non-volatile, solid-state data storage elements. The cache back-end module manages data transfers between the solid-state storage and the one or more HCNV storage devices. | 05-21-2009 |
20090150605 | APPARATUS, SYSTEM, AND METHOD FOR CONVERTING A STORAGE REQUEST INTO AN APPEND DATA STORAGE COMMAND - An apparatus, system, and method are disclosed for converting a storage request to an append data storage command. A storage request receiver module receives a storage request from a requesting device. The storage request is to store a data segment onto a data storage device. The storage request includes source parameters for the data segment. The source parameters include a virtual address. A translation module translates the storage request to storage commands. At least one storage command includes an append data storage command that directs the data storage device to store data of the data segment and the one or more source parameters with the data, including a virtual address, at one or more append points. A mapping module maps source parameters of the data segment to locations where the data storage device appended the data packets of the data segment and source parameters. | 06-11-2009 |
20090150641 | APPARATUS, SYSTEM, AND METHOD FOR EFFICIENT MAPPING OF VIRTUAL AND PHYSICAL ADDRESSES - An apparatus, system, and method are disclosed for efficiently mapping virtual and physical addresses. A forward mapping module uses a forward map to identify physical addresses of data of a data segment from a virtual address. The data segment is identified in a storage request. The virtual addresses include discrete addresses within a virtual address space where the virtual addresses sparsely populate the virtual address space. A reverse mapping module uses a reverse map to determine a virtual address of a data segment from a physical address. The reverse map maps the data storage device into erase regions such that a portion of the reverse map spans an erase region of the data storage device erased together during a storage space recovery operation. A storage space recovery module uses the reverse map to identify valid data in an erase region prior to an operation to recover the erase region. | 06-11-2009 |
20090150744 | APPARATUS, SYSTEM, AND METHOD FOR ENSURING DATA VALIDITY IN A DATA STORAGE PROCESS - An apparatus, system, and method are disclosed for ensuring data validity in a data storage process. A data receiver module receives a storage block and existing parity information. An ECC generation module generates error correcting code (“ECC”) check bits for the data of the storage block in response to receiving the storage block and the existing parity information. The ECC check bits for the storage block are generated using a block code, a convolutional code, etc. A pre-storage consistency module uses the data of the storage block, the existing parity information, and the ECC check bits to determine if the data of the storage block, the existing parity information, and the ECC check bits are consistent. A data storage module stores the data of the storage block and the ECC check bits the data storage device without storing the existing parity information. | 06-11-2009 |
20090222596 | APPARATUS, SYSTEM, AND METHOD FOR COORDINATING STORAGE REQUESTS IN A MULTI-PROCESSOR/MULTI-THREAD ENVIRONMENT - An apparatus, system, and method are disclosed for coordinating storage requests in a multi-processor/multi-thread environment. A append/invalidate module generates a first append data storage command from a first storage request and a second append data storage command from a second storage request. The storage requests overwrite existing data with first and second data including where the first and second data have at least a portion of overlapping data. The second storage request is received after the first storage request. The append/invalidate module updates an index by marking data being overwritten as invalid. A restructure module updates the index based on the first data and updates the index based on the second data. The updated index is organized to indicate that the second data is more current than the first data regardless of processing order. The modules prevent access to the index until the modules have completed updating the index. | 09-03-2009 |
20090282301 | APPARATUS, SYSTEM, AND METHOD FOR BAD BLOCK REMAPPING - An apparatus, system, and method are disclosed for bad block remapping. A bad block identifier module identifies one or more data blocks on a solid-state storage element as bad blocks. A log update module writes at least a location of each bad block identified by the bad block identifier module into each of two or more redundant bad block logs. A bad block mapping module accesses at least one bad block log during a start-up operation to create in memory a bad block map. The bad block map includes a mapping between the bad block locations in the bad block log and a corresponding location of a replacement block for each bad block location. Data is stored in each replacement block instead of the corresponding bad block. The bad block mapping module creates the bad block map using one of a replacement block location and a bad block mapping algorithm. | 11-12-2009 |
20090287956 | APPARATUS, SYSTEM, AND METHOD FOR DETECTING AND REPLACING FAILED DATA STORAGE - An apparatus, system, and method are disclosed for detecting and replacing failed data storage. A read module reads data from an array of memory devices. The array includes two or more memory devices and one or more extra memory devices storing parity information from the memory devices. An ECC module determines, using an error correcting code (“ECC”), if one or more errors exist in tested data and if the errors are correctable using the ECC. The tested data includes data read by the read module. An isolation module selects a memory device in response to the ECC module determining that errors exists in the data read by the read module and that the errors are uncorrectable using the ECC. The isolation module also replaces data read from the selected memory device with replacement data and available data wherein the tested data includes the available data combined with the replacement data. | 11-19-2009 |
20100031000 | APPARATUS, SYSTEM, AND METHOD FOR VALIDATING THAT A CORRECT DATA SEGMENT IS READ FROM A DATA STORAGE DEVICE - An apparatus, system, and method are disclosed for validating that correct data is read from a storage device. A read request receiver module receives a read storage request to read a data segment of a file or object stored on a data storage device. The storage request includes one or more source parameters for the data segment. The source parameters include one or more virtual addresses that identify the data segment. A hash generation module generates one or more hash values from the virtual addresses. A read data module reads the requested data segment and returns one or more data packets and corresponding stored hash values stored with the data packets. The stored hash values were generated from a data segment written to the data storage device that contains data of the data packets. A hash check module verifies that the generated hash values match the respective stored hash values. | 02-04-2010 |
20100122019 | APPARATUS, SYSTEM, AND METHOD FOR MANAGING PHYSICAL REGIONS IN A SOLID-STATE STORAGE DEVICE - An apparatus, system, and method are disclosed for managing physical regions in a solid-state storage device. The definition module defines a physical storage region on solid-state storage media of a solid-state storage device. The physical storage region includes a subset of total physical storage capacity on the solid-state storage media. The storage controller performs memory operations within the physical storage region such that the memory operations are bounded to the physical storage region. The implementation module implements the physical storage region definition with respect to the storage controller for the solid-state storage media. | 05-13-2010 |
20100122148 | APPARATUS, SYSTEM, AND METHOD FOR PREDICTING FAILURES IN SOLID-STATE STORAGE - An apparatus, system, and method are disclosed for predicting failures in solid-state storage and include a determination module a threshold module, a storage region error module, and a retirement module. The determination module determines that data stored in an ECC chunk contains Error Correcting Code (“ECC”) correctable errors and further determines a bit error count for the ECC chunk. The ECC chunk originates from non-volatile solid-state storage media. The threshold module determines that the bit error count satisfies an ECC chunk error threshold. The storage region error module determines that a storage region that contained contains at least a portion of the ECC chunk satisfies a region retirement criteria. The retirement module retires the storage region that contains at least a portion of the ECC chunk where the storage region satisfies the region retirement criteria. | 05-13-2010 |
20100211737 | APPARATUS, SYSTEM, AND METHOD FOR DATA BLOCK USAGE INFORMATION SYNCHRONIZATION FOR A NON-VOLATILE STORAGE VOLUME - An apparatus, system, and method are disclosed for data block usage information synchronization for a non-volatile storage volume. The method includes referencing first data block usage information for data blocks of a non-volatile storage volume managed by a storage manager. The first data block usage information is maintained by the storage manager. The method also includes synchronizing second data block usage information managed by a storage controller with the first data block usage information maintained by the storage manager. The storage manager maintains the first data block usage information separate from second data block usage information managed by the storage controller. | 08-19-2010 |
20100235715 | APPARATUS, SYSTEM, AND METHOD FOR USING MULTI-LEVEL CELL SOLID-STATE STORAGE AS SINGLE-LEVEL CELL SOLID-STATE STORAGE - An apparatus, system, and method are disclosed for storing information in a storage device that includes multi-level memory cells. The method involves storing data that is written to the storage device in the LSBs of the multi-level memory cells, and storing audit data in the MSBs of the multi-level memory cells. The audit data can be read separately from the data and used to determine whether or not there has been any unintended drift between states in the multi-level cells. The audit data may be used to correct data when the errors in the data are too numerous to be corrected using error correction code (ECC). The audit data may also be used to monitor the general health of the storage device. The monitoring process may run as a background process on the storage device. The storage device may transition the multi-level memory cells to operate as single-level memory cells. | 09-16-2010 |
20100293439 | APPARATUS, SYSTEM, AND METHOD FOR RECONFIGURING AN ARRAY TO OPERATE WITH LESS STORAGE ELEMENTS - An apparatus, system, and method are disclosed for reconfiguring an array of solid-state storage elements protected using parity data. The storage element error module determines that one or more storage elements are unavailable to store data (“unavailable storage elements”). The storage element resides in an array with N number of storage elements storing a first ECC chunk and P number of storage elements storing first parity data. The reconfigure data read module reads data from storage elements other than the unavailable storage elements. The data regeneration module uses the first parity data to regenerate missing data from the first ECC chunk. The data reconfiguration module creates a second ECC chunk. The new configuration storage module stores a portion of the second ECC chunk and associated second parity data on (N+P)−Z number of storage elements, wherein 1≦Z≦P. | 11-18-2010 |
20100293440 | APPARATUS, SYSTEM, AND METHOD TO INCREASE DATA INTEGRITY IN A REDUNDANT STORAGE SYSTEM - An apparatus, system, and method are disclosed to increase data integrity in a redundant storage system. The receive module receives a read request to read data from a logical page spanning an array of N+P number of storage elements. The array of storage elements includes N number of the storage elements each storing a portion of an ECC chunk and P number of the storage elements storing parity data. The data read module reads data from at least a portion of a physical page on each of X number of storage elements of the N+P number of storage elements where X equals N. The regeneration module regenerates missing data. The ECC module determines if the read data and any regenerated missing data includes an error. The read data combined with any regenerated missing data includes the ECC chunk. | 11-18-2010 |
20110022801 | APPARATUS, SYSTEM, AND METHOD FOR REDUNDANT WRITE CACHING - An apparatus, system, and method are disclosed for redundant write caching. The apparatus, system, and method are provided with a plurality of modules including a write request module, a first cache write module, a second cache write module, and a trim module. The write request module detects a write request to store data on a storage device. The first cache write module writes data of the write request to a first cache. The second cache write module writes the data to a second cache. The trim module trims the data from one of the first cache and the second cache in response to an indicator that the storage device stores the data. The data remains available in the other of the first cache and the second cache to service read requests. | 01-27-2011 |
20110029496 | Apparatus, System, and Method for Coordinating Storage Requests in a Multi-Processor/Multi-Thread Environment - An apparatus, system, and method are disclosed for coordinating storage requests in a multi-processor/multi-thread environment. An append/invalidate module generates a first append data storage command from a first storage request and a second append data storage command from a second storage request. The storage requests overwrite existing data with first and second data including where the first and second data have at least a portion of overlapping data. The second storage request is received after the first storage request. The append/invalidate module updates an index by marking data being overwritten as invalid. A restructure module updates the index based on the first data and updates the index based on the second data. The updated index is organized to indicate that the second data is more current than the first data regardless of processing order. The modules prevent access to the index until the modules have completed updating the index. | 02-03-2011 |
20110047356 | APPARATUS,SYSTEM,AND METHOD FOR MANAGING COMMANDS OF SOLID-STATE STORAGE USING BANK INTERLEAVE - An apparatus, system, and method are disclosed for efficiently managing commands in a solid-state storage device that includes a solid-state storage arranged in two or more banks. Each bank is separately accessible and includes two or more solid-state storage elements accessed in parallel by a storage input/output bus. The solid-state storage includes solid-state, non-volatile memory. The solid-state storage device includes a bank interleave that directs one or more commands to two or more queues, where the one or more commands are separated by command type into the queues. Each bank includes a set of queues in the bank interleave controller. Each set of queues includes a queue for each command type. The bank interleave controller coordinates among the banks execution of the commands stored in the queues, where a command of a first type executes on one bank while a command of a second type executes on a second bank. | 02-24-2011 |
20110047437 | APPARATUS, SYSTEM, AND METHOD FOR GRACEFUL CACHE DEVICE DEGRADATION - An apparatus, system, and method are disclosed for graceful cache device degradation. The method may include determining the risk of data loss on the cache device, which may increase (as with Flash memory) with use and age. If the risk of data loss on the cache devices exceeds a threshold risk level, a modified cache policy may be implemented for the cache device to reduce the risk of data loss below the threshold level. This process may iterate until the cache device cannot guarantee performance sufficient to merit continued use of the cache device, and the cache device is logically removed from the system. The changes in cache policy and in the risk of data loss may be hidden from clients that make use of the cache device. The cache policies may transition, for example, in the following order: write back; write through; write around; read only; and bypass. | 02-24-2011 |
20110055471 | APPARATUS, SYSTEM, AND METHOD FOR IMPROVED DATA DEDUPLICATION - An apparatus, system, and method are disclosed for improved deduplication. The apparatus includes an input module, a hash module, and a transmission module that are implemented in a nonvolatile storage device. The input module receives hash requests from requesting entities that may be internal or external to the nonvolatile storage device; the hash requests include a data unit identifier that identifies the data unit for which the hash is requested. The hash module generates a hash for the data unit using a hash function. The hash is generated using the computing resources of the nonvolatile storage device. The transmission module sends the hash to a receiving entity when the input module receives the hash request. A deduplication agent uses the hash to determine whether or not the data unit is a duplicate of a data unit already stored in the storage system that includes the nonvolatile storage device. | 03-03-2011 |
20110058440 | APPARATUS, SYSTEM, AND METHOD FOR POWER REDUCTION MANAGEMENT IN A STORAGE DEVICE - An apparatus, system, and method are disclosed for power loss management in a nonvolatile data storage device. A monitor module initiates a power loss mode in the nonvolatile data storage device in response to a primary power source failing to supply electric power above a predefined threshold to the nonvolatile data storage device. A secondary power source supplies electric power to the nonvolatile data storage device for at least a power hold-up time during the power loss mode. A power loss module adjusts execution of in-process operations on the nonvolatile data storage device during the power loss mode so that essential in-process operations execute within the power hold-up time. | 03-10-2011 |
20110060887 | APPARATUS, SYSTEM, AND METHOD FOR ALLOCATING STORAGE - An apparatus, system, and method are disclosed for allocating non-volatile storage. The storage device may present a logical address, which may exceed a physical storage capacity of the device. The storage device may allocate logical capacity in the logical address space. An allocation request may be allowed when there is sufficient unassigned and/or unallocated logical capacity to satisfy the request. Data may be stored on the non-volatile storage device by requesting physical storage capacity. A physical storage request, such as a storage request or physical storage reservation, when there is sufficient available physical storage capacity to satisfy the request. The device may maintain an index to associate logical identifiers (LIDs) in the logical address space with storage locations on the storage device. This index may be used to make logical capacity allocations and/or to manage physical storage space. | 03-10-2011 |
20110066808 | Apparatus, System, and Method for Caching Data on a Solid-State Storage Device - An apparatus, system, and method are disclosed for caching data on a solid-state storage device. The solid-state storage device maintains metadata pertaining to cache operations performed on the solid-state storage device, as well as storage operations of the solid-state storage device. The metadata indicates what data in the cache is valid, as well as information about what data in the nonvolatile cache has been stored in a backing store. A backup engine works through units in the nonvolatile cache device and backs up the valid data to the backing store. During grooming operations, the groomer determines whether the data is valid and whether the data is discardable. Data that is both valid and discardable may be removed during the grooming operation. The groomer may also determine whether the data is cold in determining whether to remove the data from the cache device. The cache device may present to clients a logical space that is the same size as the backing store. The cache device may be transparent to the clients. | 03-17-2011 |
20110157992 | APPARATUS, SYSTEM, AND METHOD FOR BIASING DATA IN A SOLID-STATE STORAGE DEVICE - An apparatus, system, and method are disclosed for improving performance in a non-volatile solid-state storage device. Non-volatile solid-state storage media includes a plurality of storage cells. The plurality of storage cells is configured such that storage cells in an empty state store initial binary values that satisfy a bias. An input module receives source data for storage in the plurality of storage cells of the non-volatile solid-state storage media. Bits of the source data have a source bias that is different from the bias of the plurality of storage cells. A bit biasing module biases the bits of the source data toward the bias of the plurality of storage cells. A write module writes the biased source data to the plurality of storage cells of the non-volatile solid-state storage media. | 06-30-2011 |
20110179225 | APPARATUS, SYSTEM, AND METHOD FOR A SHARED, FRONT-END, DISTRIBUTED RAID - An apparatus, system, and method are disclosed for a shared, front-end, distributed redundant array of independent drives (“RAID”). A multiple storage request receiver module receives at least two storage requests from at least two clients to store file or object data in one or more storage devices of a storage device set. The storage requests are concurrent and have at least a portion of the data in common. The storage device set includes autonomous storage devices forming a RAID group. Each storage device is capable of independently receiving storage requests from a client over a network. A striping module calculates a stripe pattern and writes N data segments per stripe to N storage devices. A parity-mirror module writes a set of N data segments to parity-mirror storage devices. A sequencer module ensures completion of a first storage request prior to executing a second storage request. | 07-21-2011 |
20110182119 | APPARATUS, SYSTEM, AND METHOD FOR DETERMINING A READ VOLTAGE THRESHOLD FOR SOLID-STATE STORAGE MEDIA - An apparatus, system, and method are disclosed for determining a read voltage threshold for solid-state storage media. A data set read module reads a data set from storage cells of solid-state storage media. The data set is originally stored in the storage cells with a known bias. A deviation module determines that a read bias for the data set deviates from the known bias. A direction module determines a direction of deviation for the data set. The direction of deviation is based on a difference between the read bias of the data set and the known bias. An adjustment module adjusts a read voltage threshold for the storage cells of the solid-state storage media based on the direction of deviation. | 07-28-2011 |
20110252190 | Apparatus, System, and Method for Managing Data From a Requesting Device with an Empty Data Token Directive - An apparatus, system, and method are disclosed for managing data with an empty data segment directive at the requesting device. The apparatus, system, and method include a token directive generation module and a token directive transmission module. The token directive generation module generates a storage request with a token directive. The token directive includes a request to store on the storage device a data segment token. The token directive substitutes for a series of repeated, identical characters or a series of repeated, identical character strings to be stored as a data segment. The token directive includes at least a data segment identifier and a data segment length. The data segment token and the token directive are substantially free from data of the data segment. The token directive transmission module transmits the token directive to the storage device. | 10-13-2011 |
20110258391 | APPARATUS, SYSTEM, AND METHOD FOR DESTAGING CACHED DATA - An apparatus, system, and method are disclosed for destaging cached data. A controller detects one or more write requests to store data in a backing store. The cache controller sends the write requests to a storage controller for a nonvolatile solid-state storage device. The storage controller receives the write requests and caches the data associated with the write requests in the nonvolatile solid-state storage device by appending the data to a log of the nonvolatile solid-state storage device. The log includes a sequential, log-based structure preserved in the nonvolatile solid-state storage device. The cache controller receives at least a portion of the data from the storage controller in a cache log order and destages the data to the backing store in the cache log order. The cache log order comprises an order in which the data was appended to the log of the nonvolatile solid-state storage device. | 10-20-2011 |
20110258512 | Apparatus, System, and Method for Storing Data on a Solid-State Storage Device - An apparatus, system, and method are disclosed for storing data on a solid-state storage device. A method includes receiving a storage request to store data on the solid-state storage device, representing the data in an object entry in an object index maintained by a solid-state storage device controller, storing the data as one or more object data segments on the solid-state storage device, and referencing in the object entry the one or more object data segments on the solid-state storage device. | 10-20-2011 |
20110289267 | APPARATUS, SYSTEM, AND METHOD FOR SOLID-STATE STORAGE AS CACHE FOR HIGH-CAPACITY, NON-VOLATILE STORAGE - An apparatus, system, and method are disclosed for solid-state storage as cache for high-capacity, non-volatile storage. The apparatus, system, and method are provided with a plurality of modules including a cache front-end module and a cache back-end module. The cache front-end module manages data transfers associated with a storage request. The data transfers between a requesting device and solid-state storage function as cache for one or more HCNV storage devices, and the data transfers may include one or more of data, metadata, and metadata indexes. The solid-state storage may include an array of non-volatile, solid-state data storage elements. The cache back-end module manages data transfers between the solid-state storage and the one or more HCNV storage devices. | 11-24-2011 |
20110296133 | APPARATUS, SYSTEM, AND METHOD FOR CONDITIONAL AND ATOMIC STORAGE OPERATIONS - An apparatus, system, and method are disclosed for implementing conditional storage operations. Storage clients access and allocate portions of an address space of a non-volatile storage device. A conditional storage request is provided, which causes data to be stored to the non-volatile storage device on the condition that the address space of the device can satisfy the entire request. If only a portion of the request can be satisfied, the conditional storage request may be deferred or fail. An atomic storage request is provided, which may comprise one or more storage operations. The atomic storage request succeeds if all of the one or more storage operations are complete successfully. If one or more of the storage operations fails, the atomic storage request is invalidated, which may comprise deallocating logical identifiers of the request and/or invalidating data on the non-volatile storage device pertaining to the request. | 12-01-2011 |
20110296277 | APPARATUS, SYSTEM, AND METHOD FOR A FRONT-END, DISTRIBUTED RAID - An apparatus, system, and method are disclosed for a front-end, distributed redundant array of independent drives (“RAID”). A storage request receiver module receives a storage request to store object or file data in a set of autonomous storage devices forming a RAID group. The storage devices independently receive storage requests from a client over a network, and one or more of the storage devices are designated as parity-mirror storage devices for a stripe. The striping association module calculates a stripe pattern for the data. Each stripe includes N data segments, each associated with N storage devices. The parity-mirror association module associates a set of the N data segments with one or more parity-mirror storage devices. The storage request transmitter module transmits storage requests to each storage device. Each storage request is sufficient to store onto the storage device the associated data segments. The storage requests are substantially free of data. | 12-01-2011 |
20120005443 | APPARATUS, SYSTEM, AND METHOD FOR COORDINATING STORAGE REQUESTS IN A MULTI-PROCESSOR/MULTI-THREAD ENVIRONMENT - An apparatus, system, and method are disclosed for coordinating storage requests in a multi-processor/multi-thread environment. An append/invalidate module generates a first append data storage command from a first storage request and a second append data storage command from a second storage request. The storage requests overwrite existing data with first and second data including where the first and second data have at least a portion of overlapping data. The second storage request is received after the first storage request. The append/invalidate module updates an index by marking data being overwritten as invalid. A restructure module updates the index based on the first data and updates the index based on the second data. The updated index is organized to indicate that the second data is more current than the first data regardless of processing order. The modules prevent access to the index until the modules have completed updating the index. | 01-05-2012 |
20120011340 | Apparatus, System, and Method for a Virtual Storage Layer - A virtual storage layer (VSL) for a non-volatile storage device presents a large, logical address space having a logical capacity that may exceed the storage capacity of the non-volatile storage device. The VSL implements persistent storage operations within the logical address space; storage operations performed within the logical address space may be persisted on the non-volatile storage device. The VSL maintains storage metadata to allocate ranges of the logical address space to storage entities. The VSL provides for allocation of contiguous logical address ranges, which may be implemented by segmenting logical identifiers into a first portion referencing storage entities, and a second portion referencing storage entity offsets. The VSL persists data on the non-volatile storage device in a sequential, log-based format. Accordingly, storage clients, such as file systems, databases, and other applications, may delegate logical allocations, physical storage bindings, and/or crash-recovery to the VSL. | 01-12-2012 |
20120030408 | APPARATUS, SYSTEM, AND METHOD FOR ATOMIC STORAGE OPERATIONS - A virtual storage layer (VSL) for a non-volatile storage device presents a logical address space of a non-volatile storage device to storage clients. Storage metadata assigns logical identifiers in the logical address space to physical storage locations on the non-volatile storage device. Data is stored on the non-volatile storage device in a sequential log-based format. Data on the non-volatile storage device comprises an event log of the storage operations performed on the non-volatile storage device. The VSL presents an interface for requesting atomic storage operations. Previous versions of data overwritten by the atomic storage device are maintained until the atomic storage operation is successfully completed. Data pertaining to a failed atomic storage operation may be identified using a persistent metadata flag stored with the data on the non-volatile storage device. Data pertaining to failed or incomplete atomic storage requests may be invalidated and removed from the non-volatile storage device. | 02-02-2012 |
20120059981 | APPARATUS, SYSTEM, AND METHOD FOR STORAGE SPACE RECOVERY - An apparatus, system, and method are disclosed for storage space recovery. A storage division selection module selects a first storage division for recovery. The first storage division comprises a portion of solid-state storage in a solid-state storage device. A data recovery module reads valid data from the first storage division in response to selecting the first storage division for recovery. The data recovery module stores the valid data in a second storage division of the solid-state storage device. The data recovery module passes the valid data through at least a portion of a write data pipeline for the solid-state storage device without passing the valid data to a host device and/or without routing the valid data outside of a solid-state storage controller for the solid-state storage device. | 03-08-2012 |
20120079175 | APPARATUS, SYSTEM, AND METHOD FOR DATA TRANSFORMATIONS WITHIN A DATA STORAGE DEVICE - An apparatus, system, and method are disclosed for executing data transformations for a data storage device. A storage controller module executes a storage operation for a set of data within a data storage device. A transformation module determines to apply a data transformation to the set of data in response to a transformation indicator. A processing module applies the data transformation to the set of data internally on the data storage device prior to completing the storage operation. | 03-29-2012 |
20120084611 | Apparatus, System, and Method for Bad Block Remapping - An apparatus, system, and method are disclosed for bad block remapping. A bad block identifier module identifies one or more data blocks on a solid-state storage element as bad blocks. A log update module writes at least a location of each bad block identified by the bad block identifier module into each of two or more redundant bad block logs. A bad block mapping module accesses at least one bad block log during a start-up operation to create in memory a bad block map. The bad block map includes a mapping between the bad block locations in the bad block log and a corresponding location of a replacement block for each bad block location. Data is stored in each replacement block instead of the corresponding bad block. The bad block mapping module creates the bad block map using one of a replacement block location and a bad block mapping algorithm. | 04-05-2012 |
20120131413 | APPARATUS, SYSTEM, AND METHOD TO INCREASE DATA INTEGRITY IN A REDUNDANT STORAGE SYSTEM - An apparatus, system, and method are disclosed to increase data integrity in a redundant storage system. The receive module receives a read request to read data from an ECC chunk spanning N storage elements of an array of N+P storage elements. The N storage elements each store a portion of the ECC chunk and the P storage elements store parity data. The data read module reads data from each of X number of storage elements of the N+P storage elements where (N+P)>X≧N. The ECC correction module corrects the read data of the ECC chunk using Error Correcting Code (“ECC”) in response to the ECC chunk comprising a number of bit errors below a correctable bit error threshold. The substitution module may correct the read data with substitute data from a substitute storage element. | 05-24-2012 |
20120151118 | APPARATUS, SYSTEM, AND METHOD FOR AUTO-COMMIT MEMORY - An auto-commit memory is capable of implementing a pre-configured, triggered commit action in response to a failure condition, such as a loss of power, invalid shutdown, fault, or the like. A computing device may access the auto-commit memory using memory access semantics (using a memory mapping mechanism or the like), bypassing system calls typically required in virtual memory operations. Since the auto-commit memory is pre-configured to commit data stored thereon in the event of a failure, users of the auto-commit memory may view these memory semantic operations as being instantly committed. Since operations to commit the data are taken out of the write-commit path, the performance of applications that are write-commit bound may be significantly improved. | 06-14-2012 |
20120179869 | APPARATUS, SYSTEM, AND METHOD FOR DATA STORAGE USING PROGRESSIVE RAID - An apparatus, system, and method are disclosed for data storage with progressive redundant array of independent drives (“RAID”). A storage request receiver module, a striping module, a parity-mirror module, and a parity progression module are included. The storage request receiver module receives a request to store data of a file or of an object. The striping module calculates a stripe pattern for the data. The stripe pattern includes one or more stripes, and each stripe includes a set of N data segments. The striping module writes the N data segments to N storage devices. Each data segment is written to a separate storage device within a set of storage devices assigned to the stripe. The parity-mirror module writes a set of N data segments to one or more parity-mirror storage devices within the set of storage devices. The parity progression module calculates a parity data segment on each parity-mirror device in response to a storage consolidation operation, and stores the parity data segments. The storage consolidation operation is conducted to recover storage space and/or data on a parity-mirror storage device. | 07-12-2012 |
20120203980 | APPARATUS, SYSTEM, AND METHOD FOR VALIDATING THAT A CORRECT DATA SEGMENT IS READ FROM A DATA STORAGE DEVICE - An apparatus, system, and method are disclosed for validating that correct data is read from a storage device. A read request receiver module receives a read storage request to read a data segment of a file or object stored on a data storage device. The storage request includes one or more source parameters for the data segment. The source parameters include one or more virtual addresses that identify the data segment. A hash generation module generates one or more hash values from the virtual addresses. A read data module reads the requested data segment and returns one or more data packets and corresponding stored hash values stored with the data packets. The stored hash values were generated from a data segment written to the data storage device that contains data of the data packets. A hash check module verifies that the generated hash values match the respective stored hash values. | 08-09-2012 |
20120203986 | APPARATUS, SYSTEM, AND METHOD FOR MANAGING OPERATIONS FOR DATA STORAGE MEDIA - An apparatus, system, and method are disclosed for managing operations for data storage media. An adjustment module interrupts or otherwise adjusts execution of an executing operation on the data storage media. A schedule module executes a pending operation on the data storage media in response to adjusting execution of the executing operation. The pending operation comprises a higher execution priority than the executing operation. The schedule module finishes execution of the executing operation in response to completing execution of the pending operation. | 08-09-2012 |
20120210021 | Apparatus, System, and Method for Coordinating Storage Requests in a Multi-Processor/Multi-Thread Environment - An apparatus, system, and method are disclosed for coordinating storage requests in a multi-processor/multi-thread environment. An append/invalidate module generates a first append data storage command from a first storage request and a second append data storage command from a second storage request. The storage requests overwrite existing data with first and second data including where the first and second data have at least a portion of overlapping data. The second storage request is received after the first storage request. The append/invalidate module updates an index by marking data being overwritten as invalid. A restructure module updates the index based on the first data and updates the index based on the second data. The updated index is organized to indicate that the second data is more current than the first data regardless of processing order. The modules prevent access to the index until the modules have completed updating the index. | 08-16-2012 |
20120210041 | APPARATUS, SYSTEM, AND METHOD FOR CACHING DATA - An apparatus, system, and method are disclosed for caching data. A storage request module detects an input/output (“I/O”) request for a storage device cached by solid-state storage media of a cache. A direct mapping module references a single mapping structure to determine that the cache comprises data of the I/O request. The single mapping structure maps each logical block address of the storage device directly to a logical block address of the cache. The single mapping structure maintains a fully associative relationship between logical block addresses of the storage device and physical storage addresses on the solid-state storage media. A cache fulfillment module satisfies the I/O request using the cache in response to the direct mapping module determining that the cache comprises at least one data block of the I/O request. | 08-16-2012 |
20120215961 | APPARATUS, SYSTEM, AND METHOD FOR BIASING DATA IN A SOLID-STATE STORAGE DEVICE - An apparatus, system, and method are disclosed for improving performance in a non-volatile solid-state storage device. Non-volatile solid-state storage media includes a plurality of storage cells. The plurality of storage cells is configured such that storage cells in an empty state store initial binary values that satisfy a bias. An input module receives source data for storage in the plurality of storage cells of the non-volatile solid-state storage media. Bits of the source data have a source bias that is different from the bias of the plurality of storage cells. A bit biasing module biases the bits of the source data toward the bias of the plurality of storage cells. A write module writes the biased source data to the plurality of storage cells of the non-volatile solid-state storage media. | 08-23-2012 |
20120221774 | APPARATUS, SYSTEM, AND METHOD FOR MANAGING CONTENTS OF A CACHE - An apparatus, system, and method are disclosed for managing contents of a cache. A storage request module monitors storage requests received by a cache. The storage requests include read requests and write requests. A read pool module adjusts a size of a read pool of the cache to maximize a read hit rate of the storage requests. A dirty write pool module adjusts a size of a dirty write pool of the cache to maximize a dirty write hit rate of the storage requests. | 08-30-2012 |
20120221924 | APPARATUS, SYSTEM, AND METHOD FOR DETECTING AND REPLACING FAILED DATA STORAGE - An apparatus, system, and method are disclosed for detecting and replacing failed data storage. A read module reads data from an array of memory devices. The array includes two or more memory devices and one or more extra memory devices storing parity information from the memory devices. An ECC module determines, using an error correcting code (“ECC”), if one or more errors exist in tested data and if the errors are correctable using the ECC. The tested data includes data read by the read module. An isolation module selects a memory device in response to the ECC module determining that errors exists in the data read by the read module and that the errors are uncorrectable using the ECC. The isolation module also replaces data read from the selected memory device with replacement data and available data wherein the tested data includes the available data combined with the replacement data. | 08-30-2012 |
20120233396 | APPARATUS, SYSTEM, AND METHOD FOR EFFICIENT MAPPING OF VIRTUAL AND PHYSICAL ADDRESSES - An apparatus, system, and method are disclosed for efficiently mapping virtual and physical addresses. A forward mapping module uses a forward map to identify physical addresses of data of a data segment from a virtual address. The data segment is identified in a storage request. The virtual addresses include discrete addresses within a virtual address space where the virtual addresses sparsely populate the virtual address space. A reverse mapping module uses a reverse map to determine a virtual address of a data segment from a physical address. The reverse map maps the data storage device into erase regions such that a portion of the reverse map spans an erase region of the data storage device erased together during a storage space recovery operation. A storage space recovery module uses the reverse map to identify valid data in an erase region prior to an operation to recover the erase region. | 09-13-2012 |
20120239860 | APPARATUS, SYSTEM, AND METHOD FOR PERSISTENT DATA MANAGEMENT ON A NON-VOLATILE STORAGE MEDIA - Data is stored on a non-volatile storage media in a sequential, log-based format. The formatted data defines an ordered sequence of storage operations performed on the non-volatile storage media. A virtual storage layer maintains volatile metadata, which may include a forward index associating logical identifiers with respective physical storage units on the non-volatile storage media. The volatile metadata may be reconstructed from the ordered sequence of storage operations. Persistent notes may be used to maintain consistency between the volatile metadata and the contents of the non-volatile storage media. Persistent notes may identify data that does not need to be retained on the non-volatile storage media and/or is no longer valid. | 09-20-2012 |
20120266046 | APPARATUS, SYSTEM, AND METHOD FOR USING MULTI-LEVEL CELL SOLID-STATE STORAGE AS SINGLE-LEVEL CELL SOLID-STATE STORAGE - An apparatus, system, and method are disclosed for storing information in a storage device that includes multi-level memory cells. The method involves storing data that is written to the storage device in the LSBs of the multi-level memory cells, and storing audit data in the MSBs of the multi-level memory cells. The audit data can be read separately from the data and used to determine whether or not there has been any unintended drift between states in the multi-level cells. The audit data may be used to correct data when the errors in the data are too numerous to be corrected using error correction code (ECC). The audit data may also be used to monitor the general health of the storage device. The monitoring process may run as a background process on the storage device. The storage device may transition the multi-level memory cells to operate as single-level memory cells. | 10-18-2012 |
20120297258 | Apparatus, System, and Method for Bad Block Remapping - An apparatus, system, and method are disclosed for bad block remapping. A bad block identifier module identifies one or more data blocks on a solid-state storage element as bad blocks. A log update module writes at least a location of each bad block identified by the bad block identifier module into each of two or more redundant bad block logs. A bad block mapping module accesses at least one bad block log during a start-up operation to create in memory a bad block map. The bad block map includes a mapping between the bad block locations in the bad block log and a corresponding location of a replacement block for each bad block location. Data is stored in each replacement block instead of the corresponding bad block. The bad block mapping module creates the bad block map using one of a replacement block location and a bad block mapping algorithm. | 11-22-2012 |
20120324311 | APPARATUS, SYSTEM, AND METHOD FOR MANAGING DATA USING A DATA PIPELINE - An apparatus, system, and method are disclosed for managing data in a solid-state storage device. A solid-state storage and solid-state controller are included. The solid-state storage controller includes a write data pipeline and a read data pipeline The write data pipeline includes a packetizer and an ECC generator. The packetizer receives a data segment and creates one or more data packets sized for the solid-state storage. The ECC generator generates one or more error-correcting codes (“ECC”) for the data packets received from the packetizer. The read data pipeline includes an ECC correction module, a depacketizer, and an alignment module. The ECC correction module reads a data packet from solid-state storage, determines if a data error exists using corresponding ECC and corrects errors. The depacketizer checks and removes one or more packet headers. The alignment module removes unwanted data, and re-formats the data as data segments of an object. | 12-20-2012 |
20120331206 | APPARATUS, SYSTEM, AND METHOD FOR MANAGING DATA IN A STORAGE DEVICE WITH AN EMPTY DATA TOKEN DIRECTIVE - An apparatus, system, and method are disclosed for managing data with an empty data segment directive at the storage device. The apparatus, system, and method for managing data include a write request receiver module and a data segment token storage module. The write request receiver module receives a storage request from a requesting device. The storage request includes a request to store a data segment in a storage device. The data segment includes a series of repeated, identical characters or a series of repeated, identical character strings. The data segment token storage module stores a data segment token in the storage device. The data segment token includes at least a data segment identifier and a data segment length. The data segment token is substantially free of data from the data segment. | 12-27-2012 |
20130019072 | APPARATUS, SYSTEM, AND METHOD FOR MANAGING OUT-OF-SERVICE CONDITIONS - An adaptive logical storage element comprises a plurality of solid-state storage elements accessible in parallel. The logical storage element includes logical storage units, which may include logical page, logical storage divisions (erase blocks), and so on. Each logical storage unit comprises a plurality of physical storage units. A logical storage unit may include one or more physical storage units that are out-of-service (OOS). The OOS status of logical storage units is tracked by OOS metadata. When data is stored on the logical storage element, padding data is provided to physical storage units that are OOS, and valid and/or parity data is provided to in-service physical storage units. A write data pipeline accesses the OOS metadata to insert padding data, and a read data pipeline accesses the OOS metadata to strip padding data. | 01-17-2013 |
20130024642 | APPARATUS, SYSTEM, AND METHOD FOR IDENTIFYING DATA THAT IS NO LONGER IN USE - An apparatus, system, and method are disclosed for managing a non-volatile storage medium. A storage controller receives a message that identifies data that no longer needs to be retained on the non-volatile storage medium. The data may be identified using a logical identifier. The message may comprise a hint, directive, or other indication that the data has been erased and/or deleted. In response to the message, the storage controller records an indication that the contents of a physical storage location and/or physical address associated with the logical identifier do not need to be preserved on the non-volatile storage medium. | 01-24-2013 |
20130036262 | APPARATUS, SYSTEM, AND METHOD FOR TESTING PHYSICAL REGIONS IN A SOLID-STATE STORAGE DEVICE - An apparatus, system, and method are disclosed for testing physical regions in a solid-state storage device. The method includes defining a physical storage region on solid-state storage media of a solid-state storage device. The physical storage region includes a subset of storage capacity of the solid-state storage media. The method includes implementing the physical storage region definition on a storage controller such that memory operations are bounded to the physical storage region. The method includes testing wear of solid-state storage media associated with the physical storage region using memory operations bounded to the physical storage region. | 02-07-2013 |
20130036327 | APPARATUS, SYSTEM, AND METHOD FOR RECONFIGURING AN ARRAY OF STORAGE ELEMENTS - An apparatus, system, and method are disclosed for reconfiguring an array of solid-state storage elements. The method includes determining that one or more storage elements are unavailable to store data. The storage elements are configured in an array of N storage elements that each store a portion of a first ECC chunk and P storage elements that store first parity data corresponding to the first ECC chunk. The method includes generating a second ECC chunk comprising at least a portion of the data of the first ECC chunk. The method includes storing the second ECC chunk and associated second parity data across (N+P)−Z storage elements where 1≦Z≦P. | 02-07-2013 |
20130039141 | APPARATUS, SYSTEM, AND METHOD FOR POWER REDUCTION MANAGEMENT IN A STORAGE DEVICE - An apparatus, system, and method are disclosed for power reduction management. The method includes determining that a power source has failed to supply electric power above a predefined threshold. The method includes terminating one or more non-essential in-process operations on a nonvolatile memory device during a power hold-up time. The method includes executing one or more essential in-process operations on the nonvolatile memory device within the power hold-up time. | 02-14-2013 |
20130067294 | APPARATUS, SYSTEM, AND METHOD FOR A FRONT-END, DISTRIBUTED RAID - An apparatus, system, and method are disclosed for a front-end, distributed redundant array of independent drives (“RAID”). A storage request receiver module receives a storage request to store object or file data in a set of autonomous storage devices forming a RAID group. The storage devices independently receive storage requests from a client over a network, and one or more of the storage devices are designated as parity-mirror storage devices for a stripe. The striping association module calculates a stripe pattern for the data. Each stripe includes N data segments, each associated with N storage devices. The parity-mirror association module associates a set of the N data segments with one or more parity-mirror storage devices. The storage request transmitter module transmits storage requests to each storage device. Each storage request is sufficient to store onto the storage device the associated data segments. The storage requests are substantially free of data. | 03-14-2013 |
20130073821 | LOGICAL INTERFACE FOR CONTEXTUAL STORAGE - A virtual storage layer (VSL) presents logical address space of a non-volatile storage device. The VSL maintains logical interfaces to the non-volatile storage device, which may include arbitrary, any-to-any mappings between logical identifiers and storage resources. Data may be stored on the non-volatile storage device in a contextual format, which includes persistent metadata that defines the logical interface of the data. The VSL may modify the logical interface of data that is stored in the contextual format. The modified logical interface may be inconsistent with the existing contextual format of the data on the non-volatile storage media. The VSL may provide access to the data in the inconsistent contextual format through the modified logical interface. The contextual format of the data may be updated to be consistent with the modified logical interface in a write out-of-place storage operation. | 03-21-2013 |
20130097367 | APPARATUS, SYSTEM, AND METHOD FOR SOLID-STATE STORAGE AS CACHE FOR HIGH-CAPACITY, NON-VOLATILE STORAGE - An apparatus, system, and method are disclosed for solid-state storage as cache for high-capacity, non-volatile storage. The apparatus, system, and method are provided with a plurality of modules including a cache front-end module and a cache back-end module. The cache front-end module manages data transfers associated with a storage request. The data transfers between a requesting device and solid-state storage function as cache for one or more HCNV storage devices, and the data transfers may include one or more of data, metadata, and metadata indexes. The solid-state storage may include an array of non-volatile, solid-state data storage elements. The cache back-end module manages data transfers between the solid-state storage and the one or more HCNV storage devices. | 04-18-2013 |
20130124791 | APPARATUS, SYSTEM, AND METHOD FOR STORAGE SPACE RECOVERY IN SOLID-STATE STORAGE - An apparatus, system, and method are disclosed for storage space recovery in solid-state storage. A sequential storage module sequentially writes data packets in a storage division. The storage division includes a portion of a solid-state storage. The data packets are derived from an object. The data packets are sequentially stored by order of processing. A storage division selection module selects a storage division for recovery. A data recovery module reads valid data packets from the storage division selected for recovery, queues the valid data packets with other data packets to be written sequentially, and updates an index with a new physical address of the valid data. The index includes a mapping of physical addresses of data packets to object identifiers. A storage division recovery module marks the storage division selected for recovery as available for sequentially writing data packets in response to completing copying valid data from the storage division. | 05-16-2013 |
20130166816 | Apparatus, System, and Method for Managing Contents of a Cache - Apparatuses, systems, and methods are disclosed for managing contents of a cache. A method includes receiving a read request for data stored in a non-volatile cache. A method includes determining whether a read request satisfies a frequent read threshold for a cache. A method includes writing data of a read request forward on a sequential log-based writing structure of a cache in response to determining that the read request satisfies a frequent read threshold. | 06-27-2013 |
20130166831 | Apparatus, System, and Method for Storing Metadata - Apparatuses, systems, and methods are disclosed for storing metadata. A mapping module is configured to maintain a mapping structure for logical addresses of a non-volatile device. A metadata module is configured to store membership metadata for the logical addresses with logical-to-physical mappings for the logical addresses in the mapping structure. | 06-27-2013 |
20130179753 | SYSTEMS AND METHODS FOR ADAPTIVE DATA STORAGE - A storage module is configured to store data segments, such as error-correcting code (ECC) codewords, within an array comprising two or more solid-state storage elements. The data segments may be arranged in a horizontal arrangement, a vertical arrangement, a hybrid channel arrangement, and/or vertical stripe arrangement within the array. The data arrangement may determine input/output performance characteristics. An optimal adaptive data storage configuration may be based on read and/or write patterns of storage clients, read time, stream time, and so on. Data of failed storage elements may be reconstructed by use of parity data and/or other ECC codewords stored within the array. | 07-11-2013 |
20130185532 | APPARATUS, SYSTEM, AND METHOD FOR LOG STORAGE - A storage controller is configured to append data to a sequential log. The data may be appended sequentially within erase regions of the non-volatile storage medium. An order of the sequential log may be defined by, inter alia, the order in which the erase regions are filled and/or the sequential order of physical storage locations and/or addresses within the erase regions. The erase regions may comprise sequence information which may be applied in response to recovering the erase regions, appending data to the erase regions, or the like. Data appended to the sequential log may be associated with source parameters, which may include a virtual identifier of the data. The physical storage location of the data on the non-volatile storage medium may be independent of the source parameters. The sequential log may, therefore, comprise a set of mappings between virtual identifiers and physical storage locations. | 07-18-2013 |
20130205097 | ENHANCED INTEGRITY THROUGH ATOMIC WRITES IN CACHE - A system and method facilitate processing atomic storage requests. The method includes receiving, from a storage client, an atomic storage request for a first storage device that is incapable of processing atomic write operations. The method also includes processing the atomic storage request at a translation interface. The method also includes storing the atomic storage request in one or more storage operations in a second storage device capable of processing the atomic storage request. | 08-08-2013 |
20130205183 | SYSTEMS AND METHODS FOR ADAPTIVE ERROR-CORRECTION CODING - A storage module is configured to store data segments, such as error-correcting code (ECC) codewords, within an array comprising a plurality of columns. The ECC codewords may comprise ECC codeword symbols. The ECC symbols of a data segment may be arranged in a horizontal arrangement, a vertical arrangement, a hybrid channel arrangement, and/or vertical stripe arrangement within the array. The individual ECC symbols may be stored within respective columns of the array (e.g., may not cross column boundaries). Data of an unavailable ECC symbol may be reconstructed by use of other ECC symbols stored on other columns of the array. | 08-08-2013 |
20130227201 | Apparatus, System, and Method for Accessing Auto-Commit Memory - Apparatuses, systems, methods, and computer program products are disclosed for providing access to auto-commit memory. An auto-commit memory module is configured to cause an auto-commit memory to commit stored data to a non-volatile memory medium in response to a failure condition. A mapping module is configured to determine whether to associate a range of data with the auto-commit memory. A bypass module is configured to service a request for the range of data directly from the auto-commit memory in response to the auto-commit mapping module determining to associate the range of data with the auto-commit memory. | 08-29-2013 |
20130227236 | SYSTEMS AND METHODS FOR STORAGE ALLOCATION - Resources of an address space are managed in dynamically sized ranges, extents, sets, and/or blocks. The address space may be divided into regions, each corresponding to a different, respective allocation granularity. Allocating a block within a first region of the address space may comprise allocating a particular number of logical addresses (e.g., a particular range, set, and/or block of addresses), and allocating a block within a different region may comprise allocating a different number of logical addresses. The regions may be configured to reduce the metadata overhead needed to identify free address blocks (and/or maintain address block allocations), while facilitating efficient use of the address space for differently sized data structures. | 08-29-2013 |
20130282953 | SYSTEMS AND METHODS FOR REFERENCING DATA ON A STORAGE MEDIUM - A storage layer is configured to store data at respective offsets within storage units of a storage device. Physical addresses of the data may be segmented into a first portion identifying the storage unit in which the data is stored, and a second portion that indicates the offset of the data within the identified storage unit. An index of the data offsets (e.g., second portions of the physical addresses) may be persisted on the storage device. The first portion of the address may be associated with logical addresses of the data in a forward index. The forward index may omit the second portion of the physical addresses, which may reduce the memory overhead of the index and/or allow the forward index to reference larger storage devices. Data of a particular logical address may be accessed using the first portion of the physical address maintained in the forward index, and the second portion of the media address stored on the storage device. | 10-24-2013 |
20130297880 | NON-VOLATILE CACHE - Apparatuses, systems, and methods are disclosed for caching data. A method includes directly mapping a logical address of a backing store to a logical address of a non-volatile cache. A method includes mapping, in a logical-to-physical mapping structure, the logical address of the non-volatile cache to a physical location in the non-volatile cache. The physical location may store data associated with the logical address of the backing store. A method includes removing the mapping from the logical-to-physical mapping structure in response to evicting the data from the non-volatile cache so that membership in the logical-to-physical mapping structure denotes storage in the non-volatile cache. | 11-07-2013 |
20130304872 | APPARATUS, SYSTEM, AND METHOD FOR A STORAGE AREA NETWORK - An apparatus and system are disclosed for a storage area network (“SAN”). In one embodiment, a computer system includes an internal storage device and an internal storage controller. In this embodiment, the internal storage controller is configured to implement a SAN that includes at least the internal storage device and a storage device external to the computer system. In this embodiment, the internal storage controller is further configured to service a storage request received from a client that involves data stored by the internal storage device. In this embodiment, the internal storage controller is configured to communicate with the external storage device via a network. | 11-14-2013 |
20130332660 | Hybrid Checkpointed Memory - Apparatuses, systems, methods, and computer program products are disclosed for hybrid checkpointed memory. A method includes referencing data of a range of virtual memory of a host. The referenced data is already stored by a non-volatile medium. A method includes writing, to a non-volatile medium, data of a range of virtual memory that is not stored by the non-volatile medium. A method includes providing access to data of a range of virtual memory from a non-volatile medium using a persistent identifier associated with referenced data and written data. | 12-12-2013 |
20130336072 | ADAPTIVE VOLTAGE RANGE MANAGEMENT IN NON-VOLATILE MEMORY - A method for adaptive voltage range management in non-volatile memory is described. The method includes establishing an adaptive voltage range for a memory element of an electronic memory device. The memory element includes at least two states. The adaptive voltage range comprises a lower state and an upper state. The method also includes establishing an adjustment process to implement a first adjustment of an abode characteristic of a first state and to implement a second adjustment of an abode characteristic of a second state in the adaptive voltage range in response to a trigger event, wherein the first adjustment of an abode characteristic of the first state is different from the second adjustment of an abode characteristic of the second state. | 12-19-2013 |
20130346793 | PRESERVING DATA OF A VOLATILE MEMORY - Apparatuses, systems, methods, and computer program products for auto-commit memory are presented. A monitor module determines that a triggering event for an auto-commit memory has occurred. An identification module identifies a triggered commit action for an auto-commit memory. An auto-commit memory module performs a triggered commit action for an auto-commit memory in response to a triggering event occurring. | 12-26-2013 |
20140025872 | SYSTEMS AND METHODS FOR CONTEXTUAL STORAGE - A storage layer presents logical address space of a non-volatile storage device. The storage layer maintains logical interfaces to the non-volatile storage device, which may include arbitrary, any-to-any mappings between logical identifiers and storage resources. Data may be stored on the non-volatile storage device in a contextual format, which includes persistent metadata that defines the logical interface of the data. The storage layer may modify the logical interface of data that is stored in the contextual format. The modified logical interface may be inconsistent with the existing contextual format of the data on the non-volatile storage media. The storage layer may provide access to the data in the inconsistent contextual format through the modified logical interface. The contextual format of the data may be updated to be consistent with the modified logical interface in a write out-of-place storage operation. | 01-23-2014 |
20140025877 | AUTO-COMMIT MEMORY METADATA - Apparatuses, systems, methods, and computer program products are disclosed. A method includes tracking which portions of data stored in a volatile memory buffer are not yet stored in a non-volatile memory medium. A volatile memory buffer may be accessible using memory semantics. A volatile memory buffer may be associated with logic configured to ensure that the data stored in the volatile memory buffer is non-volatile. A method includes maintaining consistency of data between a volatile memory buffer and a non-volatile memory medium based on tracked portions of the data. A method includes copying at least portions of data not yet stored in a non-volatile memory medium to the non-volatile memory medium in response to a trigger. | 01-23-2014 |
20140056068 | CONFIGURING STORAGE CELLS - Apparatuses, systems, methods, and computer program products are disclosed for configuring storage cells. A method includes determining a usage history for a set of storage cells of a solid-state storage medium. A method includes adjusting a voltage threshold for a set of storage cells by an amount based at least in part on a usage history. A method includes configuring a set of storage cells to use an adjusted voltage threshold. | 02-27-2014 |
20140068183 | SYSTEMS, METHODS, AND INTERFACES FOR ADAPTIVE PERSISTENCE - A storage module may be configured to service I/O requests according to different persistence levels. The persistence level of an I/O request may relate to the storage resource(s) used to service the I/O request, the configuration of the storage resource(s), the storage mode of the resources, and so on. In some embodiments, a persistence level may relate to a cache mode of an I/O request. I/O requests pertaining to temporary or disposable data may be serviced using an ephemeral cache mode. An ephemeral cache mode may comprise storing I/O request data in cache storage without writing the data through (or back) to primary storage. Ephemeral cache data may be transferred between hosts in response to virtual machine migration. | 03-06-2014 |
20140068197 | SYSTEMS, METHODS, AND INTERFACES FOR ADAPTIVE CACHE PERSISTENCE - A storage module may be configured to service I/O requests according to different persistence levels. The persistence level of an I/O request may relate to the storage resource(s) used to service the I/O request, the configuration of the storage resource(s), the storage mode of the resources, and so on. In some embodiments, a persistence level may relate to a cache mode of an I/O request. I/O requests pertaining to temporary or disposable data may be serviced using an ephemeral cache mode. An ephemeral cache mode may comprise storing I/O request data in cache storage without writing the data through (or back) to primary storage. Ephemeral cache data may be transferred between hosts in response to virtual machine migration. | 03-06-2014 |
20140089265 | Time Sequence Data Management - An apparatus, system, and method are disclosed for data management. The method includes writing data in a sequential log structure. The method also includes receiving a time sequence request from a client. The method further includes servicing the time sequence request based on a temporal order of the data in the sequential log structure. | 03-27-2014 |
20140095959 | APPARATUS, SYSTEM, AND METHOD FOR RECONFIGURING AN ARRAY OF STORAGE ELEMENTS - Apparatuses, systems, and methods are disclosed for reconfiguring an array of storage elements. A storage element error module is configured to determine that one or more storage elements in an array of storage elements are in error. An array of storage elements stores a first ECC block and first parity data generated from the first ECC block. A data reconfiguration module is configured to generate a second ECC block comprising at least a portion of data of a first ECC block. A new configuration storage module is configured to store a second ECC block and associated second parity data on fewer storage elements than a number of storage elements in an array. | 04-03-2014 |
20140101375 | APPARATUS, SYSTEM, AND METHOD FOR ALLOCATING STORAGE - An apparatus, system, and method are disclosed for allocating non-volatile storage. The storage device may present a logical address, which may exceed a physical storage capacity of the device. The storage device may allocate logical capacity in the logical address space. An allocation request may be allowed when there is sufficient unassigned and/or unallocated logical capacity to satisfy the request. Data may be stored on the non-volatile storage device by requesting physical storage capacity. A physical storage request, such as a storage request or physical storage reservation, when there is sufficient available physical storage capacity to satisfy the request. The device may maintain an index to associate logical identifiers (LIDs) in the logical address space with storage locations on the storage device. This index may be used to make logical capacity allocations and/or to manage physical storage space. | 04-10-2014 |
20140101376 | APPARATUS, SYSTEM, AND METHOD FOR CONDITIONAL AND ATOMIC STORAGE OPERATIONS - An apparatus, system, and method are disclosed for implementing conditional storage operations. Storage clients access and allocate portions of an address space of a non-volatile storage device. A conditional storage request is provided, which causes data to be stored to the non-volatile storage device on the condition that the address space of the device can satisfy the entire request. If only a portion of the request can be satisfied, the conditional storage request may be deferred or fail. An atomic storage request is provided, which may comprise one or more storage operations. The atomic storage request succeeds if all of the one or more storage operations are complete successfully. If one or more of the storage operations fails, the atomic storage request is invalidated, which may comprise deallocating logical identifiers of the request and/or invalidating data on the non-volatile storage device pertaining to the request. | 04-10-2014 |
20140101389 | CACHE MANAGEMENT - A system includes a data store and a memory cache subsystem. A method for pre-fetching data from the data store for the cache includes determining a performance characteristic of a data store. The method also includes identifying a pre-fetch policy configured to utilize the determined performance characteristic of the data store. The method also includes pre-fetching data stored in the data store by copying data from the data store to the cache according to the pre-fetch policy identified to utilize the determined performance characteristic of the data store. | 04-10-2014 |
20140108891 | MANAGING NON-VOLATILE MEDIA - Apparatuses, systems, and methods are disclosed to manage non-volatile media. A method includes determining a configuration parameter for a set of storage cells of a non-volatile recording medium. A method includes reading data from a set of storage cells using a determined configuration parameter. A method includes adjusting a configuration parameter based on read data. | 04-17-2014 |
20140189216 | APPARATUS, SYSTEM, AND METHOD FOR CONDITIONAL AND ATOMIC STORAGE OPERATIONS - An apparatus, system, and method are disclosed for implementing conditional storage operations. Storage clients access and allocate portions of an address space of a non-volatile storage device. A conditional storage request is provided, which causes data to be stored to the non-volatile storage device on the condition that the address space of the device can satisfy the entire request. If only a portion of the request can be satisfied, the conditional storage request may be deferred or fail. An atomic storage request is provided, which may comprise one or more storage operations. The atomic storage request succeeds if all of the one or more storage operations are complete successfully. If one or more of the storage operations fails, the atomic storage request is invalidated, which may comprise deallocating logical identifiers of the request and/or invalidating data on the non-volatile storage device pertaining to the request. | 07-03-2014 |
20140195480 | PERSISTENT MEMORY MANAGEMENT - Apparatuses, systems, methods, and computer program products are disclosed for persistent memory management. Persistent memory management may include providing a persistent data structure stored at least partially in volatile memory configured to ensure persistence of the data structure in a non-volatile memory medium. Persistent memory management may include replicating a persistent data structure in volatile memory buffers of at least two non-volatile storage devices. Persistent memory management may include preserving a snapshot copy of data in association with completion of a barrier operation for the data. Persistent memory management may include determining which interface of a plurality of supported interfaces is to be used to flush data from a processor complex. | 07-10-2014 |
20140195564 | PERSISTENT DATA STRUCTURES - Apparatuses, systems, methods, and computer program products are disclosed for a persistent data structure. A method includes associating a logical identifier with a data structure. A method includes writing data of a data structure to a first region of a volatile memory module. A volatile memory module may be configured to ensure that data is preserved in response to a trigger. A method includes copying data of a data structure from a volatile memory module to a non-volatile storage medium such that the data of the data structure remains associated with a logical identifier. | 07-10-2014 |
20140223096 | SYSTEMS AND METHODS FOR STORAGE VIRTUALIZATION - An I/O manager may be configured to service I/O requests pertaining to ephemeral data of a virtual machine using a storage device that is separate from and/or independent of a primary storage resource to which the I/O request is directed. Ephemeral data may be removed from ephemeral storage in response to a removal condition and/or trigger, such as a virtual machine reboot. The I/O manager may manage transfers of ephemeral virtual machine data in response to virtual machines migrating between host computing devices. The I/O manager may be further configured to cache virtual machine data, and/or manage shared file data that is common to two or more virtual machines operating on a host computing device. | 08-07-2014 |
20140237147 | SYSTEMS, METHODS, AND INTERFACES FOR ADAPTIVE PERSISTENCE - A storage module may be configured to service I/O requests according to different persistence levels. The persistence level of an I/O request may relate to the storage resource(s) used to service the I/O request, the configuration of the storage resource(s), the storage mode of the resources, and so on. In some embodiments, a persistence level may relate to a cache mode of an I/O request. I/O requests pertaining to temporary or disposable data may be serviced using an ephemeral cache mode. An ephemeral cache mode may comprise storing I/O request data in cache storage without writing the data through (or back) to primary storage. Ephemeral cache data may be transferred between hosts in response to virtual machine migration. | 08-21-2014 |
20140237159 | APPARATUS, SYSTEM, AND METHOD FOR ATOMIC STORAGE OPERATIONS - A virtual storage layer (VSL) for a non-volatile storage device presents a logical address space of a non-volatile storage device to storage clients. Storage metadata assigns logical identifiers in the logical address space to physical storage locations on the non-volatile storage device. Data is stored on the non-volatile storage device in a sequential log-based format. Data on the non-volatile storage device comprises an event log of the storage operations performed on the non-volatile storage device. The VSL presents an interface for requesting atomic storage operations. Previous versions of data overwritten by the atomic storage device are maintained until the atomic storage operation is successfully completed. Data pertaining to a failed atomic storage operation may be identified using a persistent metadata flag stored with the data on the non-volatile storage device. Data pertaining to failed or incomplete atomic storage requests may be invalidated and removed from the non-volatile storage device. | 08-21-2014 |
20140258775 | APPARATUS, SYSTEM, AND METHOD FOR RECONFIGURING AN ARRAY OF STORAGE ELEMENTS - Apparatuses, systems, and methods are disclosed for reconfiguring an array of storage elements. A storage element error module is configured to determine that one or more storage elements in an array of storage elements are in error. An array of storage elements stores a first ECC block and first parity data generated from the first ECC block. A data reconfiguration module is configured to generate a second ECC block comprising at least a portion of data of a first ECC block. A new configuration storage module is configured to store a second ECC block and associated second parity data on fewer storage elements than a number of storage elements in an array. | 09-11-2014 |
20140269090 | Periodic Erase Operation for a Non-Volatile Medium - An apparatus, system, and method are disclosed for managing erase operations for a data storage medium. A method includes determining whether a use threshold for one or more non-volatile storage cells is satisfied. A method includes performing a default erase operation for the one or more storage cells in response to determining that the use threshold is not satisfied. A method includes performing an extended erase operation for the one or more storage cells in response to determining that the use threshold is satisfied. An extended erase operation may include a greater number of erase pulse iterations than a default erase operation. | 09-18-2014 |
20140281819 | Managing Data Reliability - An apparatus, system, and method are disclosed for managing data reliability. A priority module is configured to receive a storage request for a non-volatile memory device. The storage request may include data associated with a priority. The non-volatile memory device includes a plurality of cells, and each cell encodes a plurality of bits. The bits for a cell provide distinct levels of quality of service. A select module is configured to select a bit for storing the data based on the priority of the data and the level of quality of service of the selected bit. A data management module is configured to manage the data to satisfy a write order for the plurality of bits. | 09-18-2014 |
20140281842 | Non-Volatile Cells Having a Non-Power-of-Two Number of States - An apparatus, system, and method are disclosed for accessing non-volatile cells. An interface module is configured to receive data for storage on a non-volatile memory medium. The non-volatile memory medium includes an array of cells, and each cell encodes a non-power-of-two number of states, or abodes per cell. A base conversion module is configured to convert the data from a binary representation to a representation in a non-binary base. The non-binary base uses a number of unique digits equal to the non-power-of-two number of abodes per cell. A write module is configured to store the converted data to the array of cells. | 09-18-2014 |
20140289447 | APPARATUS, SYSTEM, AND METHOD FOR STORAGE SPACE RECOVERY - An apparatus, system, and method are disclosed for storage space recovery. A storage division selection module selects a first storage division for recovery. The first storage division comprises a portion of solid-state storage in a solid-state storage device. A data recovery module reads valid data from the first storage division in response to selecting the first storage division for recovery. The data recovery module stores the valid data in a second storage division of the solid-state storage device. The data recovery module passes the valid data through at least a portion of a write data pipeline for the solid-state storage device without passing the valid data to a host device and/or without routing the valid data outside of a solid-state storage controller for the solid-state storage device. | 09-25-2014 |
20140344488 | VIRTUAL CHANNEL FOR DATA TRANSFERS BETWEEN DEVICES - Apparatuses, systems, and methods are disclosed for a virtual channel for data transfers between devices. A method includes presenting an address space for a memory buffer. The address space may be larger than a physical capacity of the memory buffer. A method includes controlling, from a peripheral device, a rate at which a data source transfers data to a memory buffer using a presented address space based on a rate at which a data target transfers data from the memory buffer using the presented address space so that an amount of data stored in the memory buffer remains at or below a physical capacity of the memory buffer. | 11-20-2014 |
20140365707 | MEMORY DEVICE WITH VOLATILE AND NON-VOLATILE MEDIA - Apparatuses, systems, methods, and computer program products are disclosed for providing a memory device with volatile and non-volatile media. A volatile memory medium is on a circuit board configured to be installed on a memory bus of a processor. A non-volatile memory medium is on the same circuit board. A mapping module is configured to selectively store data in either the volatile memory medium or the non-volatile memory medium. The data is provided by way of one or more commands from the processor. | 12-11-2014 |
20140369118 | CONFIGURING STORAGE CELLS - Apparatuses, systems, methods, and computer program products are disclosed for configuring storage cells. A method includes determining a usage history for a set of storage cells of a solid-state storage medium. A method includes adjusting a voltage threshold for a set of storage cells by an amount based at least in part on a usage history. A method includes configuring a set of storage cells to use an adjusted voltage threshold. | 12-18-2014 |
20140372679 | SYSTEMS AND METHODS FOR IDENTIFYING STORAGE RESOURCES THAT ARE NOT IN USE - An apparatus, system, and method are disclosed for managing a non-volatile storage medium. A storage controller receives a message that identifies data that no longer needs to be retained on the non-volatile storage medium. The data may be identified using a logical identifier. The message may comprise a hint, directive, or other indication that the data has been erased and/or deleted. In response to the message, the storage controller records an indication that the contents of a physical storage location and/or physical address associated with the logical identifier do not need to be preserved on the non-volatile storage medium. | 12-18-2014 |
20140380130 | APPARATUS, SYSTEM, AND METHOD TO INCREASE DATA INTEGRITY IN A REDUNDANT STORAGE SYSTEM - In various embodiments, an apparatus, system, and method may increase data integrity in a redundant storage system. In one embodiment, a request is received for data stored at a storage system having a plurality of storage elements, where one or more of the plurality of storage elements include parity information. A determination is made that one of the plurality of storage elements is unavailable, the unavailable storage element being a functional storage element and including at least a portion of the data. Responsive to the determination, the data is reconstructed based on at least a portion of the parity information and data from one or more of the plurality of storage elements other than the unavailable storage element; a response is provided to the request such that the response includes the reconstructed data. | 12-25-2014 |
20150012689 | SYSTEMS AND METHODS FOR PERSISTENT ADDRESS SPACE MANAGEMENT - Data is stored on a non-volatile storage media in a sequential, log-based format. The formatted data defines an ordered sequence of storage operations performed on the non-volatile storage media. A storage layer maintains volatile metadata, which may include a forward index associating logical identifiers with respective physical storage units on the non-volatile storage media. The volatile metadata may be reconstructed from the ordered sequence of storage operations. Persistent notes may be used to maintain consistency between the volatile metadata and the contents of the non-volatile storage media. Persistent notes may identify data that does not need to be retained on the non-volatile storage media and/or is no longer valid. | 01-08-2015 |
20150032982 | SYSTEMS AND METHODS FOR STORAGE CONSISTENCY - A storage layer is configured to implement efficient open-close consistency operations. Open close consistency may comprise preserving the original state of a file until the file is closed. The storage layer may be configured to clone a file in response to a file open request. Cloning the file may comprise referencing file data by two separate sets of identifiers. One set may be configured to reflect file modifications, and the other set may be configured to preserve the original state of the file. Subsequent operations configured to modify the file may be performed in reference to one of the sets of identifiers, while the storage layer provides access to the unmodified file through the other set of identifiers. Closing the file may comprise merging the sets of identifiers according to a merge policy. | 01-29-2015 |
20150039577 | SYSTEMS AND METHODS FOR ATOMIC STORAGE OPERATIONS - An atomic storage module may be configured to implement atomic storage operation directed to a first set of identifiers in reference to a second, different set of identifiers. In response to completing the atomic storage operation, the atomic storage module may move the corresponding data to the first, target set of identifiers. The move operation may comprise modifying a logical interface of the data. The move operation may further include storing persistent metadata configured to bind the data to the first set of identifiers. | 02-05-2015 |
20150058547 | APPARATUS, SYSTEM, AND METHOD FOR ALLOCATING STORAGE - An apparatus, system, and method are disclosed for allocating non-volatile storage. The storage device may present a logical address, which may exceed a physical storage capacity of the device. The storage device may allocate logical capacity in the logical address space. An allocation request may be allowed when there is sufficient unassigned and/or unallocated logical capacity to satisfy the request. Data may be stored on the non-volatile storage device by requesting physical storage capacity. A physical storage request, such as a storage request or physical storage reservation, when there is sufficient available physical storage capacity to satisfy the request. The device may maintain an index to associate logical identifiers (LIDs) in the logical address space with storage locations on the storage device. This index may be used to make logical capacity allocations and/or to manage physical storage space. | 02-26-2015 |