Patent application number | Description | Published |
20090063575 | SYSTEMS, METHODS AND COMPUTER PRODUCTS FOR DYNAMIC IMAGE CREATION FOR COPY SERVICE DATA REPLICATION MODELING - Modeling a set of images representing a group of data replication states and displaying, to a customer, the group of data replication states and generating the model that graphically displays a copy solution; including creating an image data modeling definition, where the image data modeling definition includes a definition of the set of images representing the group of data replication states. The method also includes creating a group of dynamic images, using the definition of the set of images representing the group of data replication states included in the image data modeling definition, where creating the group of dynamic images includes: specifying how to draw site and role specific parts of the group of dynamic images and specifying how to draw arrows that connect each role of the group of dynamic images. | 03-05-2009 |
20090144344 | APPARATUS, SYSTEM, AND METHOD FOR REPLICATION OF DATA MANAGEMENT INFORMATION - An apparatus, system, and method are disclosed for replication of data management information. A base replication module replicates a base table on an active server to a first and second standby server. The base table comprises configuration parameters for storage devices, logical volumes, physical interconnections, logical interconnections, and logical subsystems of a storage system, and the like. A session replication module replicates first sessions from a session table stored on the active server to the first standby server and second sessions to the second standby server. The session table stores a plurality of sessions. Each session comprises a plurality of copy sets. The active server manages the sessions using the base table and the session table, and the first and second standby servers do not manage the sessions. A transfer module transfers management of the first sessions to the first standby server. | 06-04-2009 |
20110264878 | Volume Swapping of Point-In-Time Read-Only Target Volumes - A mechanism is provided for adding point-in-time copy relationships to a data processing system. A request is received to establish a first point-in-time copy relationship. Responsive to determining that a first target of the first point-in-time copy relationship is target write inhibited, that a source of the first point-in-time copy relationship is a source of a first continuous synchronous copy relationship, that a target of the first continuous synchronous copy relationship is part of a second point-in-time copy relationship, and that the source of the first point-in-time copy relationship is part of a volume swap configuration, a volume swap relationship is added between the first point-in-time target volume and the second point-in-time target volume to the volume swap configuration. Both point-in-time copy relationships are established and any continuous synchronous copy requirements of the volume swap relationship between the first point-in-time target volume and the second point-in-time target volume are disabled. | 10-27-2011 |
20130318317 | Volume Swapping of Point-In-Time Read-Only Target Volumes - A mechanism is provided for adding point-in-time copy relationships to a data processing system. A request is received to establish a first point-in-time copy relationship. Responsive to determining that a first target of the first point-in-time copy relationship is target write inhibited, that a source of the first point-in-time copy relationship is a source of a first continuous synchronous copy relationship, that a target of the first continuous synchronous copy relationship is part of a second point-in-time copy relationship, and that the source of the first point-in-time copy relationship is part of a volume swap configuration, a volume swap relationship is added between the first point-in-time target volume and the second point-in-time target volume to the volume swap configuration. Both point-in-time copy relationships are established and any continuous synchronous copy requirements of the volume swap relationship between the first point-in-time target volume and the second point-in-time target volume are disabled. | 11-28-2013 |
20140059003 | AUTOMATED MIGRATION TO A NEW TARGET VOLUME VIA MERGED BITMAPS TO MAINTAIN CONSISTENCY - Aspects of the present invention relate to data migration and/or disaster recovery. One embodiment enables merging of bitmaps to allow for automation of the process of switching to a different target volume on the same storage subsystem without major interruption of data recovery capability and limited interruption of host I/O to the source volumes during the migration. In one approach, the migration of data onto a new target volume within the same storage subsystem as the original target volume is automated, without requiring the user to manually create or remove any new copy relationships | 02-27-2014 |
20140059009 | AUTOMATED MIGRATION TO A NEW COPY SERVICES TARGET STORAGE SYSTEM TO MANAGE MULTIPLE RELATIONSHIPS SIMULTANEOUSLY WHILE MAINTAINING DISASTER RECOVERY CONSISTENCY - In one embodiment, a method for switching a storage subsystem in a disaster recovery configuration includes receiving instruction to change from an original target storage subsystem in a disaster recovery configuration including: a source storage subsystem including one or more source volumes from which data is copied in first copy services relationships, the one or more source volumes being accessible to an application, and the original target storage subsystem including one or more original target volumes to which data is copied in the first copy services relationships; selecting a new target storage subsystem to replace the original target storage subsystem, creating second copy services relationships between one or more new target volumes on the new target storage subsystem and the one or more source volumes on the source storage subsystem using multi-target functionality, and terminating the first copy services relationships after all the second copy services relationships are full duplex. | 02-27-2014 |
20140059307 | AUTOMATED MIGRATION TO A NEW COPY SERVICES TARGET STORAGE SYSTEM TO MANAGE MULTIPLE RELATIONSHIPS SIMULTANEOUSLY WHILE MAINTAINING DISASTER RECOVERY CONSISTENCY - A system according to one embodiment, includes one or more source volumes on a source storage subsystem from which data is copied in first copy services relationships, the one or more source volumes being accessible to an application; one or more original target volumes on an original target storage subsystem to which data is copied in the first copy services relationships; logic configured for selecting a new target storage subsystem to replace the original target storage subsystem; logic configured for creating second copy services relationships between one or more new target volumes on the new target storage subsystem and the one or more source volumes on the source storage subsystem using multi-target functionality; and logic configured for terminating the first copy services relationships after all of the second copy services relationships are full duplex. | 02-27-2014 |
20140059308 | AUTOMATED MIGRATION TO A NEW TARGET VOLUME VIA MERGED BITMAPS TO MAINTAIN CONSISTENCY - Aspects of the present invention relate to data migration and/or disaster recovery. One embodiment enables merging of bitmaps to allow for automation of the process of switching to a different target volume on the same storage subsystem without major interruption of data recovery capability and limited interruption of host I/O to the source volumes during the migration. In one approach, the migration of data onto a new target volume within the same storage subsystem as the original target volume is automated, without requiring the user to manually create or remove any new copy relationships. | 02-27-2014 |
20150052324 | AUTOMATED MIGRATION TO A NEW COPY SERVICES TARGET STORAGE SYSTEM TO MANAGE MULTIPLE RELATIONSHIPS SIMULTANEOUSLY WHILE MAINTAINING DISASTER RECOVERY CONSISTENCY - A method according to one embodiment includes receiving instruction to change from an original target storage subsystem in a disaster recovery configuration-to a new target storage subsystem. Second copy services relationships are created between one or more new target volumes on the new target storage subsystem and one or more source volumes on a source storage subsystem using multi-target functionality. Existing first copy services relationships between the source storage subsystem and the original target storage subsystem are terminated after all of the second copy services relationships are full duplex. | 02-19-2015 |
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 |
20150088821 | DATA MIGRATION USING MULTI-STORAGE VOLUME SWAP - In one embodiment of the present description, data is migrated to a replacement source storage unit of a storage subsystem while being mirrored from the original source storage unit of a storage subsystem to an original target storage unit of a storage subsystem, and the original source storage unit and the replacement storage unit are swapped in a multi-storage volume swap to write updates to the replacement source storage unit instead of the original source storage unit, in input/output operations issued by at least one host. Further, data stored in the replacement source storage unit, is mirrored from the replacement source storage unit to the original target unit. Other aspects are described. | 03-26-2015 |