Patent application number | Description | Published |
20090094250 | Ensuring data integrity on a dispersed storage grid - An improved system is disclosed for ensuring the integrity of data stored on a dispersed data storage network. Checksums are used to ensure integrity of both data segments and data slices. Checksums appended to data slices are checked by receiving slice servers to ensure that no errors occurred during transmission. Slice servers also periodically recalculate checksums for stored data slices to ensure that data slices have not been corrupted during storage. Checksums appended to data segments are checked when data segments are read from the storage network. | 04-09-2009 |
20090094320 | File system adapted for use with a dispersed data storage network - A file system interface to a dispersed data storage network is disclosed. The disclosed interface accepts read and write commands from a file system resident on a user's computer and generates network commands that are forwarded to slice servers that form the storage component of the dispersed data storage network. The slice servers then fulfill the read and write commands. | 04-09-2009 |
20100023524 | Block based access to a dispersed data storage network - A block-based interface to a dispersed data storage network is disclosed. The disclosed interface accepts read and write commands from a file system resident on a user's computer and generates network commands that are forwarded to slice servers that form the storage component of the dispersed data storage network. The slice servers then fulfill the read and write commands. | 01-28-2010 |
20100169391 | OBJECT INTERFACE TO A DISPERSED DATA STORAGE NETWORK - A data object interface to a dispersed data storage network is disclosed. The disclosed interface accepts read and write commands from a client computer and generates network commands that are forwarded to slice servers that form the storage component of the dispersed data storage network. The slice servers then fulfill the read and write commands. | 07-01-2010 |
20100169415 | SYSTEMS, METHODS, AND APPARATUS FOR IDENTIFYING ACCESSIBLE DISPERSED DIGITAL STORAGE VAULTS UTILIZING A CENTRALIZED REGISTRY - A centralized depository for storing information regarding a collection of servers and other hardware used to implement a plurality of virtual dispersed data storage containers is disclosed. The centralized depository describes each virtual dispersed data storage container as well as the hardware used to provide the plurality of virtual dispersed data storage containers. Computers operating on or seeking to access specific virtual dispersed data storage containers can obtain the information required for access from the centralized depository. | 07-01-2010 |
20100169500 | SYSTEMS, METHODS, AND APPARATUS FOR MATCHING A CONNECTION REQUEST WITH A NETWORK INTERFACE ADAPTED FOR USE WITH A WITH A DISPERSED DATA STORAGE NETWORK - A gateway module translates access requests from client computers into commands for a plurality of slice servers storing data for a dispersed data storage network. The gateway program maintains a plurality of gateway modules, each providing a different access protocol to the dispersed data storage network, and each also maintaining one or more virtual storage vaults. | 07-01-2010 |
20100217796 | INTEGRATED CLIENT FOR USE WITH A DISPERSED DATA STORAGE NETWORK - An integrated client computer for accessing a dispersed data storage network is disclosed. A client program operating on the client computer accepts commands from a user and in response, issues network messages to a plurality of slice servers implementing a dispersed data storage network. Data slices can be read, written or modified using the disclosed integrated client computer. | 08-26-2010 |
20100250751 | SLICE SERVER METHOD AND APPARATUS OF DISPERSED DIGITAL STORAGE VAULTS - A slicer server includes a network port, memory, and a central processing module. The central processing unit functions to obtain, via the network port, an information record regarding a virtual dispersed data storage container. The central processing unit further functions to determine whether its list of virtual dispersed data storage containers includes the virtual dispersed data storage container. The central processing unit further functions to, when the list does not include the virtual dispersed data storage container, update the list to include the virtual dispersed data storage container and allocate a portion of the memory to the virtual dispersed data storage container. | 09-30-2010 |
20100332751 | DISTRIBUTED STORAGE PROCESSING MODULE - A dispersed storage (DS) processing module may include a gateway module operable to communicate data and/or corresponding information with a user device and may include an access module operable to segment outbound data of the data into one or more outbound data segments and aggregate one or more inbound data segments into inbound data of the data. The DS processing module may include a grid module operable to encode an outbound data segment of the one or more outbound data segments into a plurality of outbound encoded data slices and decode a plurality of inbound encoded data slices into an inbound data segment of the one or more inbound data segments. The DS processing module may include a storage module operable to output the plurality of outbound encoded data slices to a plurality of DS storage units and receive the plurality of inbound encoded data slices from the plurality of DS storage units. | 12-30-2010 |
20110072115 | BLOCK BASED ACCESS TO A DISPERSED DATA STORAGE NETWORK - A computer includes a data transform algorithm, a data dispersal algorithm, and a network port. The data transform algorithm performs a data transformation on a data block to produce a transformed data block. The data dispersal algorithm performs a data dispersal function on the transformed data block to produce a plurality of data slices, wherein each of the plurality of data slices includes less than all data contained in the transformed data block. The network port is operable to transmit a plurality of write commands to a plurality of slice servers, wherein each of the plurality of write commands includes a corresponding one of the plurality of data slices. The network port is further operable to receive verification of storage of at least some of the plurality of data slices from at least some of the plurality of slice servers. | 03-24-2011 |
20110107026 | CONCURRENT SET STORAGE IN DISTRIBUTED STORAGE NETWORK - For each original data segment, a distributed storage processing unit generates encoded slices designed to prevent the original data segment from being reconstructed using fewer than a threshold number of encoded slices. Multiple encoded slices are generated for each of two different data segments, and the slices associated with the first and second data segment are stored substantially concurrently in different storage sets employing different distributed storage units. Encoded slices for even and odd data segments can be stored in different storage sets, or longer sequences of data segments can be stored in alternating storage sets. Storage sets can also be determined by the vault generation of a particular data segment. | 05-05-2011 |
20110261838 | DISPERSED STORAGE NETWORK FRAME PROTOCOL HEADER - A method to generate a protocol header of a dispersed storage network (DSN) frame begins by a processing module generating a protocol class field and generating a protocol class version field. The method continues with the processing module generating an operation code (opcode) field and generating a request/response field. The method continues with the processing module generating a request number field and generating a payload length field. The method continues with the processing module outputting, in order, the protocol class field, the protocol class version field, the opcode field, the request/response field, the request number field, and the payload length field. | 10-27-2011 |
20110264989 | DISPERSED STORAGE NETWORK SLICE NAME VERIFICATION - A method begins by a processing module dispersed storage error encoding data to produce a plurality of sets of encoded data slices in accordance with dispersed storage error coding parameters. The method continues with the processing module determining a plurality of sets of slice names corresponding to the plurality of sets of encoded data slices. The method continues with the processing module determining integrity information for the plurality of sets of slice names and sending the plurality of sets of encoded data slices, the plurality of sets of slice names, and the integrity information to a dispersed storage network memory for storage therein. | 10-27-2011 |
20130246865 | IDENTIFYING A STORAGE ERROR OF A DATA SLICE - A method begins by a processing module obtaining common storage name information regarding data that is stored in storage units of a distributed storage network (DSN) as a set of data slices. Each data slice of the set of data slices has a unique storage name, where each of the unique storage names for the set of data slices has common naming information regarding the data. The method continues where the processing module interprets the common storage name information to determine whether a difference exists between the common naming information of a data slice of the set of data slices and the common naming information of other data slices of the set of data slices. When the difference exists, the method continues where the processing module indicates a potential storage error of the data slice and implements a storage error process regarding the potential storage error of the data slice. | 09-19-2013 |
20140012899 | OBJECT INTERFACE TO A DISPERSED DATA STORAGE NETWORK - A data object interface to a dispersed data storage network is disclosed. The disclosed interface accepts read and write commands from a client computer and generates network commands that are forwarded to slice servers that form the storage component of the dispersed data storage network. The slice servers then fulfill the read and write commands. | 01-09-2014 |
20140075134 | CONCURRENT SET STORAGE IN DISTRIBUTED STORAGE NETWORK - For each original data segment, a distributed storage processing unit generates encoded slices designed to prevent the original data segment from being reconstructed using fewer than a threshold number of encoded slices. Multiple encoded slices are generated for each of two different data segments, and the slices associated with the first and second data segment are stored substantially concurrently in different storage sets employing different distributed storage units. Encoded slices for even and odd data segments can be stored in different storage sets, or longer sequences of data segments can be stored in alternating storage sets. Storage sets can also be determined by the vault generation of a particular data segment. | 03-13-2014 |
20140101184 | FILE SYSTEM ADAPTED FOR USE WITH A DISPERSED DATA STORAGE NETWORK - A computer a network interface and a central processing unit. The network interface communicates with a network. The central processing unit (CPU) is operable to receive a networked file system access request packet and to identify a root directory based on the networked file system access request packet. The CPU then identifies a file directory based on the root directory and the networked file system access request packet. The CPU then identifies file object metadata based on the file directory and identifies a set of slice servers based on the file object metadata and the networked file system access request packet. The CPU then issues, via the network interface, a set of commands to a set of slice servers regarding the networked file system access request packet. | 04-10-2014 |
20140126585 | DISPERSED STORAGE NETWORK FRAME PROTOCOL HEADER - A method to generate a protocol header of a dispersed storage network (DSN) frame begins by a processing module generating a protocol class field and generating a protocol class version field. The method continues with the processing module generating an operation code (opcode) field and generating a request/response field. The method continues with the processing module generating a request number field and generating a payload length field. The method continues with the processing module outputting, in order, the protocol class field, the protocol class version field, the opcode field, the request/response field, the request number field, and the payload length field. | 05-08-2014 |
20140325259 | IDENTIFYING A STORAGE ERROR OF A DATA SLICE - A method begins by a processing module obtaining common storage name information regarding data that is stored in storage units of a distributed storage network (DSN) as a set of data slices. Each data slice of the set of data slices has a unique storage name, where each of the unique storage names for the set of data slices has common naming information regarding the data. The method continues where the processing module interprets the common storage name information to determine whether a difference exists between the common naming information of a data slice of the set of data slices and the common naming information of other data slices of the set of data slices. When the difference exists, the method continues where the processing module indicates a potential storage error of the data slice and implements a storage error process regarding the potential storage error of the data slice. | 10-30-2014 |
20140372607 | ADJUSTING ALLOCATION OF DISPERSED STORAGE NETWORK RESOURCES - A method begins by a processing module of a dispersed storage network (DSN) monitoring, over time for a user device, an actual service level in comparison to a subscription service level, where the subscription service level has a range of acceptable service, where the actual service level is a statistical measure of accessing the DSN, where the DSN includes a plurality of DSN resources that, in turn, includes a first performance level dispersed storage processing unit, a second performance level dispersed storage processing unit, a plurality of first performance level storage units, and a plurality of second performance level storage units. When the actual service level is outside of the range of acceptable service, the method continues with the processing module adjusting allocation of one or more DSN resources of the plurality of DSN resources to bring a future service level back inside the range of acceptable service. | 12-18-2014 |