Patent application number | Description | Published |
20090292748 | SYSTEM AND METHOD FOR ENABLING A STORAGE SYSTEM TO SUPPORT MULTIPLE VOLUME FORMATS SIMULTANEOUSLY - A plurality of types of volumes are maintained, a volume being a logical arrangement of storage space on one or more data storage devices. A volume type field is used to designate the type of a particular volume, and a flexible volume paradigm is selected by the volume type field for interpreting data within a data structure written to a data storage device of the one or more data storage devices. A physical volume block number to virtual volume block number mapping pair (pvbn/vvbn pair) is designated by the volume type field, the pvbn/vvbn pair is used to translate a physical volume block number to a virtual volume block number. A request to write a data to a first block of the particular volume is received, a pvbn/vvbn pair is determined. The data is written to the physical block designated by the pvbn/vvbn pair. | 11-26-2009 |
20100077406 | SYSTEM AND METHOD FOR PARALLELIZED REPLAY OF AN NVRAM LOG IN A STORAGE APPLIANCE - A system and method for operating a storage system is provided. A plurality of operating system transaction entries are stored in a log, and a swarm of messages with respect to the plurality of operating system transaction entries is established. The swarm of messages is delivered to an operating system of the storage system. A processor performs a parallel retrieval process for a plurality of messages in the swarm of messages by processing the plurality of messages in an arbitrary order without regard to an underlying order of the messages. | 03-25-2010 |
20100325377 | SYSTEM AND METHOD FOR RESTORING DATA ON DEMAND FOR INSTANT VOLUME RESTORATION - A technique is disclosed for restoring data of sparse volumes, where one or more block pointers within the file system structure are marked as ABSENT, and fetching the appropriate data from an alternate location on demand. Client data access requests to the local storage system initiate a restoration of the data from a backing store as required. A demand generator can also be used to restore the data as a background process by walking through the sparse volume and restoring the data of absent blocks. A pump module is also disclosed to regulate the access of the demand generator. Once all the data has been restored, the volume contains all data locally, and is no longer a sparse volume. | 12-23-2010 |
20110225364 | EXTENSION OF WRITE ANYWHERE FILE LAYOUT WRITE ALLOCATION - A plurality of storage devices is organized into a physical volume called an aggregate, and the aggregate is organized into a global storage space, and a data block is resident on one of the storage devices of the plurality of storage devices. A plurality of virtual volumes is organized within the aggregate and he data block is allocated to a virtual volume. A physical volume block number (pvbn) is selected for the data block from a pvbn space of the aggregate, and virtual volume block number (vvbn) for the data block is selected from a vvbn space of the selected vvol. Both the selected pvbn and the selected vvbn are inserted in a parent block as block pointers to point to the allocated data block on the storage device. | 09-15-2011 |
20120150807 | TECHNIQUE FOR INCREASING THE NUMBER OF PERSISTENT CONSISTENCY POINT IMAGES IN A FILE SYSTEM - An on-disk storage arrangement increases the number of persistent consistency point images (PCPIs) that may be maintained for a volume of a storage system. The on-disk storage arrangement comprises a novel volume information (volinfo) block representing a root of the volume; the volinfo block is stored at predefined locations on disk and comprises various system wide configuration data. The volinfo block further comprises a data structure configured to provide a level of indirection that increases the number of PCPIs maintainable by a file system executing on the storage system. To that end, the data structure may be organized as an array of pointers, wherein each pointer references a block containing a snapshot root, thereby enabling efficient access to each PCPI maintained by the file system. | 06-14-2012 |
20120179891 | EXTENSION OF WRITE ANYWHERE FILE SYSTEM LAYOUT - A file system layout apportions an underlying physical volume into one or more virtual volumes (vvols) of a storage system. The underlying physical volume is an aggregate comprising one or more groups of disks, such as RAID groups, of the storage system. The aggregate has its own physical volume block number (pvbn) space and maintains metadata, such as block allocation structures, within that pvbn space. Each vvol has its own virtual volume block number (vvbn) space and maintains metadata, such as block allocation structures, within that vvbn space. Notably, the block allocation structures of a vvol are sized to the vvol, and not to the underlying aggregate, to thereby allow operations that manage data served by the storage system (e.g., snapshot operations) to efficiently work over the vvols. | 07-12-2012 |
20130073519 | HANDLING DATA EXTENT SIZE ASYMMETRY DURING LOGICAL REPLICATION IN A STORAGE SYSTEM - A technique to name data is disclosed to allow preservation of storage efficiency over a link between a source and a destination in a replication relationship as well as in storage at the destination. The technique allows the source to send named data to the destination once and refer to it by name multiple times in the future, without having to resend the data. The technique also allows the transmission of data extents to be decoupled from the logical containers that refer to the data extents. Additionally, the technique allows a replication system to accommodate different extent sizes between replication source and destination while preserving storage efficiency. | 03-21-2013 |
20140019704 | EXTENSION OF WRITE ANYWHERE FILE LAYOUT WRITE ALLOCATION - A plurality of storage devices is organized into a physical volume called an aggregate, and the aggregate is organized into a global storage space, and a data block is resident on one of the storage devices of the plurality of storage devices. A plurality of virtual volumes is organized within the aggregate and the data block is allocated to a virtual volume. A physical volume block number (pvbn) is selected for the data block from a pvbn space of the aggregate, and virtual volume block number (vvbn) for the data block is selected from a vvbn space of the selected vvol. Both the selected pvbn and the selected vvbn are inserted in a parent block as block pointers to point to the allocated data block on the storage device. | 01-16-2014 |
20140068184 | ASSIMILATION OF FOREIGN LUNS INTO A NETWORK STORAGE SYSTEM - A storage system provides highly flexible data layouts that can be tailored to various different applications and use cases. The system defines several types of data containers, including “regions”, “logical extents” and “slabs”. Each region includes one or more logical extents. Allocated to each logical extent is at least part of one or more slabs allocated to the region that includes the extent. Each slab is a set of blocks of storage from one or more physical storage devices. The slabs can be defined from a heterogeneous pool of physical storage. The system also maintains multiple “volumes” above the region layer. Each volume includes one or more logical extents from one or more regions. A foreign LUN can be assimilated into the system by defining slabs as separate portions of the foreign LUN. Layouts of the extents within the regions are not visible to any of the volumes. | 03-06-2014 |
20140082281 | EXTENSION OF WRITE ANYWHERE FILE SYSTEM LAYOUT - A file system layout apportions an underlying physical volume into one or more virtual volumes (vvols) of a storage system. The underlying physical volume is an aggregate comprising one or more groups of disks, such as RAID groups, of the storage system. The aggregate has its own physical volume block number (pvbn) space and maintains metadata, such as block allocation structures, within that pvbn space. Each vvol has its own virtual volume block number (vvbn) space and maintains metadata, such as block allocation structures, within that vvbn space. Notably, the block allocation structures of a vvol are sized to the vvol, and not to the underlying aggregate, to thereby allow operations that manage data served by the storage system (e.g., snapshot operations) to efficiently work over the vvols. The file system layout extends the file system layout of a conventional write anywhere file layout system implementation, yet maintains performance properties of the conventional implementation. | 03-20-2014 |
20140281308 | STORAGE UNIT SELECTION FOR VIRTUALIZED STORAGE UNITS - Performance information for storage units located at a virtual data center is determined by executing storage administrator logic whose execution is controlled by a management entity different than the virtual data center provider. Performance expectations are automatically determined based on the determined performance information. In response to determining that a particular storage unit is incompatible with performance expectations applicable to the particular storage unit, embodiments cause a reduction in utilization of the particular storage unit. Based on determined performance information, another embodiment determines that a performance pattern indicating a physical co-location of a first storage unit and a second storage unit has occurred. In response to determining that the performance pattern indicating a physical co-location of a first storage unit and a second storage unit has occurred, the embodiment disables use of a selected storage unit of the first storage unit or the second storage unit for at least a particular purpose. | 09-18-2014 |
20140281350 | MULTI-LAYERED STORAGE ADMINISTRATION FOR FLEXIBLE PLACEMENT OF DATA - A storage administrator may maintain location information in separate layers. A data storage system may identify the location of particular data by identifying the virtual location of data, such as the logical extent to which the data belongs. Object stores may maintain mappings of virtual locations to physical locations, such as mappings of extent identifiers to virtual storage objects and mappings of virtual storage objects to storage unit locations. When particular data is relocated to a new location, a storage administrator may update mappings used to translate virtual locations to physical locations, such as an extent-object mapping or an object-storage unit mapping. References to the virtual locations, such as references to logical extent identifiers, may not be updated in response to the relocation of data. | 09-18-2014 |
20140282824 | AUTOMATIC TUNING OF VIRTUAL DATA CENTER RESOURCE UTILIZATION POLICIES - A computer-implemented process receives a request to utilize one or more virtual data center (VDC) resources at a virtual data center and determines a particular service level applicable to request. Based on the particular service level and mapping information that indicates associations between VDC resource utilization policies and service levels, the process determines a particular VDC resource utilization policy corresponding to the request and causes completion of the request according to the particular VDC resource utilization policy. Another process determines that a resource utilization performance is incompatible with a requested service level and selects a new resource utilization based in part on the resource utilization performance information and mapping information. The process causes data distributed according to a prior resource utilization policy to be distributed according to the new resource utilization policy in one or more resources at a virtual data center. | 09-18-2014 |
20140372832 | ONLINE DATA CONSISTENCY CHECKING IN A NETWORK STORAGE SYSTEM WITH OPTIONAL COMMITTAL OF REMEDIAL CHANGES - A network storage server includes a tool for detecting and fixing errors while the network storage server remains online (available for servicing client requests), which includes enabling a user to approve or disapprove remedial changes before the changes are committed. The technique bypasses the usual consistency point process for new or modified data blocks representing potential remedial changes. At a consistency point, dirty data blocks representing the potential remedial changes are written to a change log file residing outside the volume. The modified data blocks are written in sequential order to logical blocks of the change log file. In response to a user input indicating that a potential change should be committed, the corresponding modified data blocks are read from the change log file in the order in which they were written to the change log file, and they are written to persistent storage in that order. | 12-18-2014 |
20150046504 | EXTENSION OF WRITE ANYWHERE FILE LAYOUT WRITE ALLOCATION - A write allocation technique extends a conventional write allocation procedure employed by a write anywhere file system of a storage system. A write allocator of the file system implements the extended write allocation technique in response to an event in the file system. The extended write allocation technique efficiently allocates blocks, and frees blocks, to and from a virtual volume (vvol) of an aggregate. The aggregate is a physical volume comprising one or more groups of disks, such as RAID groups, underlying one or more vvols of the storage system. The aggregate has its own physical volume block number (pvbn) space and maintains metadata, such as block allocation structures, within that pvbn space. Each vvol also has its own virtual volume block number (vvbn) space and maintains metadata, such as block allocation structures, within that vvbn space. The inventive technique extends input/output efficiencies of the conventional write allocation procedure to comport with an extended file system layout of the storage system. | 02-12-2015 |