Patent application number | Description | Published |
20100179831 | UNIVERSAL PERSONAL MEDICAL DATABASE ACCESS CONTROL - Various embodiments for configuring a medical database by a processor in communication with at least one storage device in a computing environment are provided. Medical data are assigned to a patient. A plurality of data types is organized for the medical data. Portions of each of the plurality of data types are designated as public and private data. A plurality of access levels is organized for the medical data. Each of the plurality of data types includes the plurality of access levels. A first access level of the plurality of access levels corresponds to the patient. The medical data is classified according to the plurality of data types, for each of the plurality of data types, according to the plurality of access levels, and according to one of the public and the private data. The medical data is encrypted in a hierarchical structure corresponding to each of the plurality of access levels. | 07-15-2010 |
20120089795 | MULTIPLE INCREMENTAL VIRTUAL COPIES - Provided are techniques for, in response to establishing each incremental virtual copy from a source to a target, creating a target change recording structure for the target. While performing destage to a source data block at the source, it is determined that there is at least one incremental virtual copy target for this source data block. For each incremental virtual copy relationship where the source data block is newer than the incremental virtual copy relationship and an indicator is set in a target inheritance structure on the target for a corresponding target data block, the source data block is copied to each corresponding target data block, and an indicator is set in each target change recording structure on each target for the target data block corresponding to the source data block being destaged. | 04-12-2012 |
20120191930 | DATA INTEGRITY PROTECTION IN STORAGE VOLUMES - A plurality of logical volumes are stored at a plurality of sites. A command to execute an operation on a logical volume is received. A determination is made as to whether a rule associated with the logical volume permits execution of the operation on the logical volume. In response to determining that the rule associated with the logical volume permits execution of the operation on the logical volume, the operation is executed on the logical volume. | 07-26-2012 |
20120198150 | ASSIGNING DEVICE ADAPTORS AND BACKGROUND TASKS TO USE TO COPY SOURCE EXTENTS TO TARGET EXTENTS IN A COPY RELATIONSHIP - Provided are a computer program product, system, and method for assigning device adaptors and background tasks to use to copy source extents to target extents in a copy relationship. A relation is provided of a plurality of source extents in source ranks to copy to a plurality of target extents in target ranks in the storage system. One target rank in the relation is used to determine an order in which the target ranks in the relation are selected to register for copying. For each selected target rank in the relation selected according to the determined order, an iteration of a registration operation is performed to register the selected target rank and a selected source rank copied to the selected target rank in the relation. The registration operation comprises indicating in a device adaptor assignment data structure a source device adaptor and target device adaptor to use to copy the selected rank to the selected target rank and adding an entry to a priority queue for the relation for the selected target rank. The selected source rank is copied to the selected target rank using as the source and target device adaptors indicated in the device adaptor assignment data structure for the selected target rank in response to processing the entry in the priority queue added to the priority queue for the selected target rank. | 08-02-2012 |
20120216009 | SOURCE-TARGET RELATIONS MAPPING - A data preservation function is provided which, in one embodiment, includes mapping in a plurality of maps for a target storage device, map extent ranges of each map, to corresponding target extent ranges of storage locations on the target storage device. Usage of a particular map extent range by a relationship between a source extent range of storage locations on a source storage device containing data to be preserved in the source extent range, and the target extent range mapped to the map particular extent range, may be indicated by the map. In another aspect, in response to receipt of a data preservation command, a data preservation operation is performed including determining whether a map indicates availability of a map extent range mapped to the identified target extent range. Upon determining that a particular map indicates availability of a map extent range mapped to the identified target extent range, a relationship between the identified source extent range and the identified target extent range is established. In yet another aspect, upon determining that no map indicates availability of a map extent range mapped to the identified target extent range, establishing of a relationship between the identified source extent range and the identified target extent range may be delayed until it is determined that a particular map indicates availability of a map extent range mapped to the identified target extent range. Other features and aspects may be realized, depending upon the particular application. | 08-23-2012 |
20120221823 | MULTIPLE INCREMENTAL VIRTUAL COPIES - Provided are techniques for, in response to establishing each incremental virtual copy from a source to a target, creating a target change recording structure for the target. While performing destage to a source data block at the source, it is determined that there is at least one incremental virtual copy target for this source data block. For each incremental virtual copy relationship where the source data block is newer than the incremental virtual copy relationship and an indicator is set in a target inheritance structure on the target for a corresponding target data block, the source data block is copied to each corresponding target data block, and an indicator is set in each target change recording structure on each target for the target data block corresponding to the source data block being destaged. | 08-30-2012 |
20120233121 | DELETING RELATIONS BETWEEN SOURCES AND SPACE-EFFICIENT TARGETS IN MULTI-TARGET ARCHITECTURES - A method for deleting a relation between a source and a target in a multi-target architecture is described. The multi-target architecture includes a source and multiple space-efficient (SE) targets mapped thereto. In one embodiment, such a method includes initially identifying a relation for deletion from the multi-target architecture. A space-efficient (SE) target associated with the relation is then identified. A mapping structure maps data in logical tracks of the SE target to physical tracks of a repository. The method then identifies a sibling SE target that inherits data from the SE target. Once the SE target and the sibling SE target are identified, the method modifies the mapping structure to map the data in the physical tracks of the repository to the logical tracks of the sibling SE target. The relation is then deleted between the source and the SE target. A corresponding computer program product is also described herein. | 09-13-2012 |
20120233136 | DELETING RELATIONS BETWEEN SOURCES AND SPACE-EFFICIENT TARGETS IN MULTI-TARGET ARCHITECTURES - A method for deleting a relation between a source and a target in a multi-target architecture is described. The multi-target architecture includes a source and multiple space-efficient (SE) targets mapped thereto. In one embodiment, such a method includes initially identifying a relation for deletion from the multi-target architecture. A space-efficient (SE) target associated with the relation is then identified. A mapping structure maps data in logical tracks of the SE target to physical tracks of a repository. The method then identifies a sibling SE target that inherits data from the SE target. Once the SE target and the sibling SE target are identified, the method modifies the mapping structure to map the data in the physical tracks of the repository to the logical tracks of the sibling SE target. The relation is then deleted between the source and the SE target. | 09-13-2012 |
20120233404 | DELETING RELATIONS IN MULTI-TARGET, POINT-IN-TIME-COPY ARCHITECTURES WITH DATA DEDUPLICATION - A method for deleting a relation between a source and a target in a multi-target architecture is described. The multi-target architecture includes a source and multiple targets mapped thereto. In one embodiment, such a method includes initially identifying a relation for deletion from the multi-target architecture. A target associated with the relation is then identified. The method then identifies a sibling target that inherits data from the target. Once the target and the sibling target are identified, the method copies the data from the target to the sibling target. The relation between the source and the target is then deleted. A corresponding computer program product is also disclosed and claimed herein. | 09-13-2012 |
20120233416 | MULTI-TARGET, POINT-IN-TIME-COPY ARCHITECTURE WITH DATA DEDUPLICATION - A method for performing a write to a source volume in a multi-target architecture is described. The multi-target architecture includes a source volume and multiple target volumes mapped thereto. In one embodiment, such a method includes copying data in a track of the source volume to a corresponding track of a target volume (target x). The method enables one or more sibling target volumes (siblings) mapped to the source volume to inherit the data from the target x. When the data is successfully copied to the target x, the method performs a write to the track of the source volume. Other methods for reading and writing data to volumes in the multi-target architecture are also described. | 09-13-2012 |
20120233421 | CYCLIC POINT-IN-TIME-COPY ARCHITECTURE WITH DATA DEDUPLICATION - A method for performing a write to a volume x in a cyclic point-in-time-copy architecture is described. In one embodiment, such a method includes determining whether the volume x has a child volume. The method then determines whether the target bit maps (TBMs) of both the volume x and the child volume are set. If the TBMs are set, the method finds a higher source (HS) volume from which to copy the desired data to the child volume. Once the HS volume is found, the method determines whether the HS volume and the child volume are the same volume. If the HS volume and the child volume are not the same volume, the method copies the data from the HS volume to the child volume. The method then performs the write to the volume x. | 09-13-2012 |
20120233422 | DATA INTEGRITY PROTECTION IN STORAGE VOLUMES - A plurality of logical volumes are stored at a plurality of sites. A command to execute an operation on a logical volume is received. A determination is made as to whether a rule associated with the logical volume permits execution of the operation on the logical volume. In response to determining that the rule associated with the logical volume permits execution of the operation on the logical volume, the operation is executed on the logical volume. | 09-13-2012 |
20120233429 | CASCADED, POINT-IN-TIME-COPY ARCHITECTURE WITH DATA DEDUPLICATION - A method for performing a write to a volume x in a cascaded architecture is described. In one embodiment, such a method includes determining whether the volume x has a child volume, wherein each of the volume x and the child volume have a target bit map (TBM) associated therewith. The method then determines whether the TBMs of both the volume x and the child volume are set. If the TBMs are set, the method finds a higher source (HS) volume from which to copy the desired data to the child volume. Finding the HS volume includes travelling up the cascaded architecture until the source of the data is found. Once the HS volume is found, the method copies the data from the HS volume to the child volume and performs the write to the volume x. A method for performing a read is also disclosed herein. | 09-13-2012 |
20120233430 | CYCLIC POINT-IN-TIME-COPY ARCHITECTURE WITH DATA DEDUPLICATION - A method for performing a write to a volume x in a cyclic point-in-time-copy architecture is described. In one embodiment, such a method includes determining whether the volume x has a child volume. The method then determines whether the target bit maps (TBMs) of both the volume x and the child volume are set. If the TBMs are set, the method finds a higher source (HS) volume from which to copy the desired data to the child volume. Once the HS volume is found, the method determines whether the HS volume and the child volume are the same volume. If the HS volume and the child volume are not the same volume, the method copies the data from the HS volume to the child volume. The method then performs the write to the volume x. A corresponding computer program product is also described. | 09-13-2012 |
20120254122 | NEAR CONTINUOUS SPACE-EFFICIENT DATA PROTECTION - A method for providing rolling continuous data protection of source data is disclosed. In one embodiment, such a method includes enabling a user to select source data and establish a first interval when point-in-time copies of the source data are generated. The method further enables the user to specify a first number of point-in-time copies to retain at the first interval. The method further enables the user to specify a second number of point-in-time copies to retain at a second interval, wherein the second interval is a (n≧2) multiple of the first interval. The method further enables the user to specify a third number of point-in-time copies to retain at a third interval, wherein the third interval is a (n≧2) multiple of the second interval. A corresponding apparatus and computer program product are also disclosed. | 10-04-2012 |
20120254547 | MANAGING METADATA FOR DATA IN A COPY RELATIONSHIP - Provided are a computer program product, system, and method for managing metadata for data in a copy relationship copied from a source storage to a target storage. Information is maintained on a copy relationship of source data in the source storage and target data in the target storage. The source data is copied from the source storage to the cache to copy to target data in the target storage indicated in the copy relationship. Target metadata is generated for the target data comprising the source data copied to the cache. An access request to requested target data comprising the target data in the cache is processed and access is provided to the requested target data in the cache. A determination is made as to whether the requested target data in the cache has been destaged to the target storage. The target metadata for the requested target data in the target storage is discarded in response to determining that the requested target data in the cache has not been destaged to the target storage. | 10-04-2012 |
20130080704 | MANAGEMENT OF POINT-IN-TIME COPY RELATIONSHIP FOR EXTENT SPACE EFFICIENT VOLUMES - A storage controller receives a request to establish a point-in-time copy operation by placing a space efficient source volume in a point-in-time copy relationship with a space efficient target volume, wherein subsequent to being established the point-in-time copy operation is configurable to consistently copy the space efficient source volume to the space efficient target volume at a point in time. A determination is made as to whether any track of an extent is staging into a cache from the space efficient target volume or destaging from the cache to the space efficient target volume. In response to a determination that at least one track of the extent is staging into the cache from the space efficient target volume or destaging from the cache to the space efficient target volume, release of the extent from the space efficient target volume is avoided. | 03-28-2013 |
20130145100 | MANAGING METADATA FOR DATA IN A COPY RELATIONSHIP - Provided is a method for managing metadata for data in a copy relationship copied from a source storage to a target storage. Information is maintained on a copy relationship of source data in the source storage and target data in the target storage. The source data is copied from the source storage to the cache to copy to target data in the target storage indicated in the copy relationship. Target metadata is generated for the target data comprising the source data copied to the cache. An access request to requested target data comprising the target data in the cache is processed and access is provided to the requested target data in the cache. The target metadata for the requested target data in the target storage is discarded in response to determining that the requested target data in the cache has not been destaged to the target storage. | 06-06-2013 |
20130173878 | SOURCE-TARGET RELATIONS MAPPING - A data preservation function is provided which, in one embodiment, includes indicating by a map, usage of a particular map extent range by a relationship between a source extent range of storage locations on a source storage device containing data to be preserved in the source extent range, and a target extent range mapped to the map particular extent range. In another aspect, in response to receipt of a data preservation command, a data preservation operation is performed including determining whether a map indicates availability of a map extent range mapped to the identified target extent range. Upon determining that a particular map indicates availability of a map extent range mapped to the identified target extent range, a relationship between the identified source extent range and the identified target extent range is established. Other features and aspects may be realized, depending upon the particular application. | 07-04-2013 |
20130204854 | EFFICIENT METADATA INVALIDATION FOR TARGET CKD VOLUMES - A method for invalidating metadata associated with a target count-key-data (CKD) volume is disclosed. The method initially receives a command for a target CKD volume. The command is either an “establish” command for establishing a point-in-time copy relationship, or a “withdraw” command for withdrawing a point-in-time copy relationship. The method determines a track range, spanning a number of data tracks in the CKD volume, associated with the command. Each data track in the track range is associated with a metadata track. For each metadata track whose associated data tracks are fully contained in the track range, the method performs a first procedure. For each metadata track whose associated data tracks are not fully contained in the track range, the method performs a second procedure different from the first procedure. A corresponding apparatus and computer program product are also disclosed. | 08-08-2013 |
20130205093 | MANAGEMENT OF POINT-IN-TIME COPY RELATIONSHIP FOR EXTENT SPACE EFFICIENT VOLUMES - A storage controller receives a request to establish a point-in-time copy operation by placing a space efficient source volume in a point-in-time copy relationship with a space efficient target volume, wherein subsequent to being established the point-in-time copy operation is configurable to consistently copy the space efficient source volume to the space efficient target volume at a point in time. A determination is made as to whether any track of an extent is staging into a cache from the space efficient target volume or destaging from the cache to the space efficient target volume. In response to a determination that at least one track of the extent is staging into the cache from the space efficient target volume or destaging from the cache to the space efficient target volume, release of the extent from the space efficient target volume is avoided. | 08-08-2013 |
20140059309 | MULTI-VOLUME INSTANT VIRTUAL COPY FREEZE - Provided are a computer implemented method, computer program product, and system for creating a consistency group. For each source volume that has an instant virtual copy relationship with a target volume, an indicator for the source volume is set to true in a Fast Incremental with Freeze (FIF) map. The consistency group for each source volume whose indicator is set to true in the FIF map and each associated target volume is created by: performing a quick Instant Virtual Copy (IVC) freeze command to freeze each source volume whose indicator is set to true in the FIF map and performing a consistency group created command to thaw each source volume whose indicator is set to true in the FIF map. | 02-27-2014 |
20140108345 | EXCHANGING LOCATIONS OF AN OUT OF SYNCHRONIZATION INDICATOR AND A CHANGE RECORDING INDICATOR VIA POINTERS - A first data structure stores indications of storage locations that need to be copied for forming a consistency group. A second data structure stores indications of new host writes, subsequent to starting a point in time copy operation to form the consistency group. Locations of the first data structure and the second data structure are exchanged, subsequent to the consistency group being formed successfully. | 04-17-2014 |
20140108349 | MERGING AN OUT OF SYNCHRONIZATION INDICATOR AND A CHANGE RECORDING INDICATOR IN RESPONSE TO A FAILURE IN CONSISTENCY GROUP FORMATION - A first data structure stores indications of storage locations that need to be copied for forming a consistency group. A second data structure stores indications of new host writes subsequent to starting a point in time copy operation to form the consistency group. Read access is secured to a metadata storage area and a determination is made as to whether the second data structure indicates that there are any new host writes. In response to determining that the second data structure indicates that there are new host writes, write access is secured to the metadata storage area, the first data structure is updated with contents of the second data structure to determine which additional storage locations need to be copied for formation of a next consistency group, and the second data structure is updated to indicate that that the second data structure is in an initialized state. | 04-17-2014 |
20140108680 | QUIESCING INPUT/OUTPUT (I/O) REQUESTS TO SUBSETS OF LOGICAL ADDRESSES IN A STORAGE FOR A REQUESTED OPERATION - Provided are a computer program product, system, and method for quiescing Input/Output (I/O) requests to subsets of logical addresses in a storage for a requested operation. A requested operation is received to a subset of addresses in the storage that requires that Input/Output (I/O) requests to the subset of addresses received following the requested operation be quiesced. The subset of addresses is indicated in quiesce information. I/O requests received following the receiving of the requested operation are quiesced when one address subject to the I/O request is included in the subset of addresses. If there are in-progress I/O requests pending against the subset of addresses when the requested operation was received, then the requested operation is indicated as executable. A quiesced I/O request is executed when no address subject to the quiesced I/O request is included in the subset of addresses indicated in the quiesce information. | 04-17-2014 |
20140108750 | ESTABLISHING A POINT-IN-TIME COPY RELATIONSHIP BETWEEN SOURCE LOGICAL ADDRESSES AND TARGET LOGICAL ADDRESSES - Provided are a computer program product, system, and method for establishing a point-in-time copy relationship between source logical addresses and target logical addresses. A point-in-time (PiT) copy establish command specifies a source set comprising a subset of source logical addresses in at least one storage and a target set comprising a subset of target logical addresses in the at least one storage. The source set of source logical addresses are copied to the target set of target logical addresses. The source logical addresses map to source tracks and wherein the target logical addresses map to target tracks. Copy information is generated indicating whether the source logical addresses in the source set have been copied to the target set. Complete is returned to the PiT copy establish command after generating the copy information and before copying all the source logical addresses to the target logical addresses. | 04-17-2014 |
20140108751 | PROCESSING A COPY COMMAND DIRECTED TO A FIRST STORAGE ARCHITECTURE FOR DATA THAT IS STORED IN A SECOND STORAGE ARCHITECTURE - Provided are a computer program product, system, and method for processing a copy command indicating a source set comprising a subset of source logical addresses to copy to an indicated target set comprising a subset of target logical addresses. Complete is expected to be returned to the copy command in response to completing the copying of the source set to the target set. A point-in-time (PiT) copy establish command is generated in response to receiving the copy command, indicating the source and target sets in the copy command, The generated PiT copy command is executed to generate copy information indicating the source and target sets of source logical addresses and whether they have been copied to the target set. Complete is returned to the copy command after generating the copy information and before copying all the source logical addresses to the target logical addresses. | 04-17-2014 |
20140108752 | MANAGING UPDATES AND COPYING DATA IN A POINT-IN-TIME COPY RELATIONSHIP EXPRESSED AS SOURCE LOGICAL ADDRESSES AND TARGET LOGICAL ADDRESSES - Provided are a computer program product, system, and method for managing updates and copying data in a point-in-time copy relationship expressed as source logical addresses and target logical addresses. A copy relationship indicates a source set of a subset of source logical addresses to copy to a target set comprising a subset of target logical addresses. An update is received to a source logical address that has not been copied. Determinations are made of the target logical address corresponding to the source logical address to be updated according to the copy relationship, a target group of target logical addresses in the target set that include the determined target logical address, and the source logical addresses in the source set that correspond to the target logical addresses in the target group. The determined source logical addresses are copied to the target logical addresses in the determined target group. | 04-17-2014 |
20140108753 | MERGING AN OUT OF SYNCHRONIZATION INDICATOR AND A CHANGE RECORDING INDICATOR IN RESPONSE TO A FAILURE IN CONSISTENCY GROUP FORMATION - A first data structure stores indications of storage locations that need to be copied for forming a consistency group. A second data structure stores indications of new host writes subsequent to starting a point in time copy operation to form the consistency group. Read access is secured to a metadata storage area and a determination is made as to whether the second data structure indicates that there are any new host writes. In response to determining that the second data structure indicates that there are new host writes, write access is secured to the metadata storage area, the first data structure is updated with contents of the second data structure to determine which additional storage locations need to be copied for formation of a next consistency group, and the second data structure is updated to indicate that that the second data structure is in an initialized state. | 04-17-2014 |
20140108756 | BITMAP SELECTION FOR REMOTE COPYING OF UPDATES - In one embodiment of the present description, a copy relationship is established between a storage location at a first site and a storage location at a second site in a data storage system, wherein a dynamically assignable bitmap preset to one of a plurality of different predetermined bit patterns is selected as a function of both the availability of the selected bitmap and the type of predetermined bit pattern identified for the selected bitmap. The selected bitmap may be assigned as an out-of-sync bitmap wherein updates to the storage location at one site, which are to be copied to the storage location at the other site, are indicated in the selected bitmap, and data writes being written to the storage location at the one site, are copied to the storage location at the other site, using the selected bitmap as an out-of-sync bitmap. Other aspects are described. | 04-17-2014 |
20140108757 | PROCESSING A COPY COMMAND DIRECTED TO A FIRST STORAGE ARCHITECTURE FOR DATA THAT IS STORED IN A SECOND STORAGE ARCHITECTURE - Provided are a computer program product, system, and method for processing a copy command indicating a source set comprising a subset of source logical addresses to copy to an indicated target set comprising a subset of target logical addresses. Complete is expected to be returned to the copy command in response to completing the copying of the source set to the target set. A point-in-time (PiT) copy establish command is generated in response to receiving the copy command, indicating the source and target sets in the copy command, The generated PiT copy command is executed to generate copy information indicating the source and target sets of source logical addresses and whether they have been copied to the target set. Complete is returned to the copy command after generating the copy information and before copying all the source logical addresses to the target logical addresses. | 04-17-2014 |
20140108857 | BITMAP SELECTION FOR REMOTE COPYING OF UPDATES - In one embodiment of the present description, a copy relationship is established between a storage location at a first site and a storage location at a second site in a data storage system, wherein a dynamically assignable bitmap preset to one of a plurality of different predetermined bit patterns is selected as a function of both the availability of the selected bitmap and the type of predetermined bit pattern identified for the selected bitmap. The selected bitmap may be assigned as an out-of-sync bitmap wherein updates to the storage location at one site, which are to be copied to the storage location at the other site, are indicated in the selected bitmap, and data writes being written to the storage location at the one site, are copied to the storage location at the other site, using the selected bitmap as an out-of-sync bitmap. Other aspects are described. | 04-17-2014 |
20140223081 | POINT IN TIME COPY OPERATIONS FROM SOURCE VOLUMES TO SPACE EFFICIENT TARGET VOLUMES IN TWO STAGES VIA A NON-VOLATILE STORAGE - A request is received to perform a point in time copy operation from a source volume to a space efficient target volume. A controller copies data stored in a group of data storage units, from the source volume to a non-volatile storage, to preserve the point in time copy operation. A background process asynchronously copies the data from the non-volatile storage to the space efficient target volume to commit a physical point in time copy of the data from the source volume to the target volume. | 08-07-2014 |
20140223121 | POINT IN TIME COPY OPERATIONS FROM SOURCE VOLUMES TO SPACE EFFICIENT TARGET VOLUMES IN TWO STAGES VIA A NON-VOLATILE STORAGE - A request is received to perform a point in time copy operation from a source volume to a space efficient target volume. A controller copies data stored in a group of data storage units, from the source volume to a non-volatile storage, to preserve the point in time copy operation. A background process asynchronously copies the data from the non-volatile storage to the space efficient target volume to commit a physical point in time copy of the data from the source volume to the target volume. | 08-07-2014 |
20140344526 | METADATA MANAGEMENT - In one embodiment, a copy relationship is established between a storage location at a first site and a storage location at a second site, in a manner which includes selectively either 1) synchronously writing a modified metadata track from a cache to data storage if the metadata track in cache is a mixture of ones and zeros, before staging from data storage into the cache, the next track of the sequence of tracks of metadata, or 2) instead of synchronously writing from cache the modified metadata track, entering a journal entry to protect the modified metadata track in cache if the metadata track in cache is one of all ones and all zeros, so that asynchronous writing of the modified metadata track from cache is substituted for synchronous writing from cache. Other aspects are described. | 11-20-2014 |
20140344828 | ASSIGNING LEVELS OF POOLS OF RESOURCES TO A SUPER PROCESS HAVING SUB-PROCESSES - Provided are a computer program product, system, and method for assigning levels of pools of resources in an operating system to a super process having sub-processes. A plurality of first level pools of resources are reserved in the operating system for first level processes to perform a first level operation and invoke at least one second level process to perform a second level operation. A plurality of second level pools of resources are reserved in the operating system for second level processes. One of the second level pools of resources assigned to one of the second level processes is released and available to assign to another second level process when the second level process completes the second level operation for which it was invoked. | 11-20-2014 |
20140351533 | PARALLEL PROCESSES FOR PERFORMING MULTIPLE INCREMENTAL COPIES - A storage controller receives a write command with respect to a track, from a host. A first process determines that the track is a source track and also determines that at least one corresponding target track is in an incremental copy relation to the source track. A second process is generated to modify a target change recording structure, where the second process executes in parallel with the first process. | 11-27-2014 |
20140372718 | DATA INTEGRITY PROTECTION IN STORAGE VOLUMES - A plurality of logical volumes are stored at a plurality of sites. A command to execute an operation on a logical volume is received. A determination is made as to whether a rule associated with the logical volume permits execution of the operation on the logical volume. In response to determining that the rule associated with the logical volume permits execution of the operation on the logical volume, the operation is executed on the logical volume. | 12-18-2014 |
20150026423 | DATA INTEGRITY PROTECTION IN STORAGE VOLUMES - A plurality of logical volumes are stored at a plurality of sites. A command to execute an operation on a logical volume is received. A determination is made as to whether a rule associated with the logical volume permits execution of the operation on the logical volume. In response to determining that the rule associated with the logical volume permits execution of the operation on the logical volume, the operation is executed on the logical volume. | 01-22-2015 |
20150081628 | FLASHCOPY RESERVATION FOR FLASHCOPY ONTO A SYNCHRONOUSLY-MIRRORED SOURCE - A method, system and computer-usable medium are disclosed for improved point-in-time copying of data within an asynchronous data mirroring environment. A first establish for a first point-in-time copying process is generated, followed by submission of a request to initiate an asynchronous data mirroring process associated with the first point-in-time copying process. In response, a point-in-time establish reservation is generated for a second point-in-time copying process. If it is not possible to successfully perform the second point-in-time copying process, then the point-in-time establish reservation is cancelled and the first point-in-time copy establish is failed. Otherwise, the point-in-time establish reservation is then used to generate an establish for the second point-in-time copying process, which is then initiated. | 03-19-2015 |
20150089509 | DATA PROCESSING RESOURCE MANAGEMENT - In accordance with one aspect of the present description execution of a particular command by a data processor such as a storage controller, may include obtaining priority over a resource which is also associated with execution of another command, setting a timer for the duration of a dynamically set timeout period, and detecting a potential deadlock condition as a function of expiration of the dynamically set timeout period before execution of the particular command is completed. In one embodiment, the particular command releases priority over the resource upon detection of the potential deadlock condition, and then reobtains priority over the resource in a retry of the command. It is believed that such an arrangement can relieve a potential deadlock condition, allowing execution of one or more commands including the particular command to proceed. Other features and aspects may be realized, depending upon the particular application. | 03-26-2015 |