| Patent application number | Description | Published |
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| 20080222619 | DETECTION OF ERRORS CAUSED BY INTERACTIONS OF INDEPENDENT SOFTWARE VENDOR CODE WITH HOST CODE - A method is provided for isolating errors which occur when code supplied by independent software vendors (ISV code) interacts with code supplied by a primary vendor (host code). Code suspected of containing ISV code with host code is executed. If the results are in error, the code is scanned and then compared with a master host code. Any differences are stored in a delta file, including locations in the host code where ISV code hooks into the host code. The code is then modified to by-pass the hooks to ISV code to generate a side-executable code and both codes are executed and the results are compared. A lack of substantial difference in the results is indicative that the ISV code adversely affects the host code while a difference between the results is indicative of an error in the modified code. | 09-11-2008 |
| 20090094413 | Techniques for Dynamic Volume Allocation in a Storage System - A technique for operating a storage system includes determining utilization of multiple storage volumes over a time period. One or more application datasets are then reassigned to a different one of the multiple storage volumes based on the utilization of the multiple storage volumes over the time period and a requested performance level for an associated application. | 04-09-2009 |
| 20090193062 | STORING INFORMATION IN OTHERWISE UNUSED SPACE IN VTOC AND VVDS FOR RECOVERY OF DATA - When a VTOC and a VVDS are established for information used to access data sets of a volume, unused space remains in both structures. The data sets, VTOC and VVDS are stored on a recordable medium. For VSAM data sets, other, vital information about the data set is also stored in the VTOC; for non-VSAM data sets, vital information about the data set is also stored in the VVDS. If the VOTC entry of a non-VSAM data set becomes corrupted, the vital information in the VVDS may be used to access the stored data set. Similarly, If the VVDS entry of a VSAM data set becomes corrupted, the vital information in the VTOC may be used to access the stored data set. | 07-30-2009 |
| 20090210617 | MULTI-LEVEL VOLUME TABLE OF CONTENTS - Methods, data structures and systems provide organize a table of contents for a volume (VTOC) stored in a storage system. The volume is divided into a plurality of ranges of tracks, including a first track range. For each track range, an associated sub-VTOC is created containing information about the contents of the track range. A master VTOC is also created containing a plurality of pointers, each pointer pointing to one of the plurality of sub-VTOCs. A first data set stored on one or more tracks within the first track range is updated and the sub-VTOC associated with the first track range is locked, whereby access to other sub-VTOCs is unaffected. The sub-VTOC associated with the first track range may then be accessed, updated and unlocked. Thus, updating data sets stored within different track ranges on the volume may proceed at the same time. | 08-20-2009 |
| 20090216781 | Technique for Dynamic Creation of a User Catalog for a Storage System - A technique for operating a storage system includes determining, based on a response (e.g., return and reason codes from catalog services) from a storage operating system, that a desired user catalog is unavailable for storage of a new dataset. A new user catalog is then dynamically created, when the desired user catalog is unavailable. An alias entry in a master catalog is then updated to point to the new user catalog, when the desired user catalog is unavailable. | 08-27-2009 |
| 20090240988 | METHOD OF CORRECTING JOB CONTROL LANGUAGE JOB ERRORS - A method of correcting job control language (JCL) jobs scans a JCL job against a set of JCL syntax rules. The method automatically corrects any syntax errors discovered during the scanning, thereby forming a corrected JCL job. The method then runs the corrected JCL job. If the corrected JCL ends abnormally due to an execution error, the method then automatically determines if the execution error is recoverable. If the execution error is recoverable, the method automatically corrects the recoverable error to form a recovered corrected JCL job. The method reruns the recovered corrected JCL job. | 09-24-2009 |
| 20090307283 | DYNAMIC BACKUP WINDOW OPTIMIZATION APPARATUS AND METHOD - An apparatus, method, and computer program product to dynamically optimize a backup window for a data store is disclosed herein. In one embodiment, an apparatus may include tracking module, a determination module, a window module, and a backup module. The tracking module may track usage of a data store over a period of time. A determination module may determine a period of minimal usage associated with the data store. The determination module may also determine an expected backup duration for the data store. Once the expected backup duration and period of minimal usage are known, a window module may calculate an optimal backup window for the data store. A backup module may then backup the data store during the backup window. | 12-10-2009 |
| 20100049937 | VOLUME RECORD DATA SET OPTIMIZATION APPARATUS AND METHOD - A method, apparatus, and computer program product for optimizing the organization of volume records stored in a volume record data set is disclosed herein. In certain embodiments, a method may include monitoring a volume comprising multiple data sets. Each data set may have associated therewith a volume record stored in a volume record data set. The method may further include tracking read and write operations to each of the data sets over a period of time. A count value may be stored in the volume record of each data set. The count value may be increased each time a read operation is performed to the associated data set. The count value may be decreased each time a write operation is performed to the associated data set. The volume records in the volume record data set may then be reorganized according to the size of the count values. | 02-25-2010 |
| 20100094832 | Catalog Performance Plus - A method, system and computer-usable medium are disclosed for managing an integrated catalog facility (ICF) catalog. An ICF catalog is monitored by a contention detection module. Information related to a detected catalog resource contention is used by the contention detection module to generate a contention event. Information related to the contention event is then provided to a contention resolution module, which uses the information to perform a contention resolution operation. Once the resolution operation has been performed, contention events and contention resolution operations are reported by a contention reporting module. | 04-15-2010 |
| 20100185688 | VARIABLE-LENGTH RECORD, CORRUPTION RECOVERY APPARATUS, SYSTEM, AND METHOD - A method for identifying records of variable length within a data block containing corrupted data is disclosed herein. In certain embodiments, such a method may include scanning backward from an end of a data block containing variable-length records. The backward scan may proceed, one record at a time, to identify a first span of good (i.e., non-corrupt) records. The method may further include scanning forward from a front of the data block, also proceeding one record at a time, to identify a second span of good records. The method may include identifying a problem region by identifying data that resides between the first span and the second span. The method may also include creating a new record between the first span and the second span that contains the problem region. A corresponding computer program product, apparatus, and system are also disclosed. | 07-22-2010 |
| 20100287354 | VSAM SMART REORGANIZATION - Various embodiments for adaptive reorganization of a virtual storage access method (VSAM) data set are provided. In one exemplary embodiment, upon each control interval (CI) split of a plurality of CI splits occurring over a period of time, historical data including a key value for a record causing each CI split is recorded in a data repository. The historical data is analyzed with a predictive algorithm to determine an amount of free space to be allocated to each of a plurality of control intervals generated pursuant to the adaptive reorganization. The predictive algorithm allocates a greater percentage of the free space to a first location of the VVDS having a larger proportion of historically placed key values than a second location of the VVDS having a smaller proportion of the historically placed key values. | 11-11-2010 |
| 20110072230 | ON DEMAND STORAGE GROUP MANAGEMENT WITH RECAPTURE - A method to dynamically adjust the amount of free space in a storage group is disclosed herein. In certain embodiments, such a method may include monitoring the amount of free space in an active storage group. The method may further include maintaining an overflow storage group containing unused volumes. When the free space in the active storage group falls below a lower threshold value, the method may automatically move a volume from the overflow storage group to the active storage group. Conversely, when the free space in the active storage group exceeds an upper threshold value, the method may automatically transfer data from a volume in the active storage group to other volumes in the active storage group, and move the volume from the active storage group to the overflow storage group. A corresponding computer program product and apparatus are also disclosed herein. | 03-24-2011 |
| 20110167158 | MULTI-SYSTEM DEADLOCK REDUCTION - Method, system, and computer program embodiments for reducing deadlock in multi-system computing environments are provided. A set of default, current wait times is initialized for resource requests of each of a plurality of resources. A plurality of resource holders and resource waiters is monitored within an address space. If one resource holder of the plurality of resource holders of one of the plurality of resources is determined to be one resource waiter on another of the plurality of resources, a current wait time for the one resource holder is incremented and a deadlock indicator for both the one resource holder and the one resource waiter is activated. Following expiration of a predefined interval, the plurality of resource holders and resource waiters are parsed through to determine an original resource holder, indicating a system deadlock. The resource holder associated with the system deadlock having a lowest current wait time is restarted. | 07-07-2011 |
| 20110167302 | DIAGNOSTIC DATA SET COMPONENT - Various embodiments for retaining diagnostic information for data in a computing storage environment are provided. In one such embodiment, a diagnostic component associated with a base data set via a catalog association record is initialized. The diagnostic component configured to retain base data set-specific diagnostic information retrievable by the computing storage environment to assist in error diagnosis. | 07-07-2011 |
