System and method for allocation of organizational resources
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
G06F-012/00
G06F-013/00
G06F-013/28
출원번호
US-0606371
(2012-09-07)
등록번호
US-8725980
(2014-05-13)
발명자
/ 주소
Kavuri, Srinivas
출원인 / 주소
CommVault Systems, Inc.
대리인 / 주소
Knobbe, Martens, Olson & Bear, LLP
인용정보
피인용 횟수 :
10인용 특허 :
146
초록▼
System and methods for storing electronic data is provided, where the system comprises a storage manager component and a management module associated with the storage manager component. The management module is configured to receive information related to storage activities associated with one or mo
System and methods for storing electronic data is provided, where the system comprises a storage manager component and a management module associated with the storage manager component. The management module is configured to receive information related to storage activities associated with one or more storage operation components within the storage operation system under the direction of the storage manager component. The management module is adapted to predict storage operation resource allocations based on the received information related to the storage activities.
대표청구항▼
1. A method of identifying storage system resources to be added to a storage system, wherein the method is performed by a computing system having a processor and memory, the method comprising: storing primary data created by a plurality of software applications on a plurality of primary storage devi
1. A method of identifying storage system resources to be added to a storage system, wherein the method is performed by a computing system having a processor and memory, the method comprising: storing primary data created by a plurality of software applications on a plurality of primary storage devices in a primary storage system, wherein the primary data is stored in native formats associated with the plurality of software applications;storing at least one or more secondary copies of the primary data on one or more secondary storage devices in a secondary storage system, wherein the one or more secondary copies are stored in one or more different formats than the native formats of the primary data;managing with a storage manager, one or more secondary copy storage operations that copy at least a portion of the primary data to create the one or more secondary copies using a plurality of data agents associated with the plurality of software applications and a plurality of media management components associated with the one or more secondary storage devices, said managing secondary copy storage operations further comprising: packaging primary data on the plurality of primary storage devices with the plurality of data agents to create packaged primary data, wherein each data agent packages primary data of a predefined data type,receiving the packaged primary data at the plurality of media management components, the plurality of media management components configured to process the packaged primary data for different types of the one or more secondary storage devices, andcreating one or more secondary copies of the packaged primary data on the one or more secondary storage devices;receiving information associated with the secondary copy storage operations that relates to at least a trend of a number of active data agents;forecasting with the storage manager, a need for data storage capacity in the primary storage system based at least on the trend of the number of active data agents; andidentifying one or more primary storage system resources to be added to the primary storage system based on the forecasting;forecasting with the storage manager, a need for additional data storage capacity in the secondary storage system based at least on the trend of the number of active data agents in the primary storage system; andidentifying one or more secondary storage system resources to be added to the second storage system based on the forecasting. 2. The method of claim 1, wherein different media management components are configured to process the packaged data for different types of the one or more secondary storage devices, wherein at least one media management component processes the packaged data for a tape drive and at least one media management component processes the packaged data for a disk drive. 3. The method of claim 1, wherein: receiving the packaged data further comprises receiving information relating to at least a trend of a number of data protection jobs; andforecasting the need for data storage capacity in the storage system is further based at least on the trend of the number of data protection jobs. 4. The method of claim 1, wherein: receiving the packaged data further comprises receiving information relating to at least a trend of a number of active clients and sub-clients; andforecasting the need for data storage capacity in the storage system is further based at least on the trend of the number of active clients and sub-clients. 5. The method of claim 1, wherein: receiving the packaged data further comprises receiving information relating to at least a trend of a number of active media agents; andforecasting the need for data storage capacity in the storage system based at least on the trend of the number of active media agents. 6. The method of claim 1, wherein: receiving the packaged data further comprises receiving information relating to at least a trend of a number of fault occurrences; andforecasting the need for data storage capacity in the storage system is further based at least on the trend of the number of fault occurrences. 7. The method of claim 1, further comprising activating a warning upon determining that the number of active data agents has reached a threshold number. 8. A storage operation system for use in a data storage network, the storage operation system comprising: a plurality of primary storage devices comprising primary data created by a plurality of software applications on in a primary storage system, wherein the primary data is stored in native formats associated with the software applications;one or more secondary storage devices configured to store at least one or more secondary copies of the primary data on in a secondary storage system, wherein the one or more secondary copies are stored in one or more different formats than the native formats of the primary data;a storage manager component executing in one or more processors on a computing device and configured to manage one or more secondary copy operations that copies at least a portion of the primary data to create the one or more secondary copies associated with the one or more secondary storage devices using a plurality of data agents associated with the plurality of primary storage devices and a plurality of media management components associated with the one or more secondary storage devices, wherein the one or more data agents are configured to package primary data as directed by the storage manager component prior to a secondary copy storage operation of the primary data, wherein each data agent is configured to package primary data of a predefined data type, andthe plurality of media management components are configured to receive and process the packaged primary data from the one or more data agents for different types of the one or more secondary storage devices; anda reporting component associated with the storage manager component, the reporting component configured to: receive information associated with the secondary copy storage operations that relates to at least a trend of a number of active data agents,forecast a need for data storage capacity in the primary storage system based at least on the trend of the number of active data agents, andidentify one or more primary storage system resources to be added to the primary storage system based on the forecasting;forecast a need for additional data storage capacity in the secondary storage system based at least on the trend of the number of active data agents in the primary storage system; andidentify one or more secondary storage system resources to be added to the second storage system based on the forecasting. 9. The system of claim 8, wherein different media management components are configured to process the packaged data for different types of the one or more storage devices, wherein at least one media management component processes the packaged data for a tape drive and at least one media management component processes the packaged data for a disk drive such that the one or more storage devices contain a backup copy of the data located on the data store. 10. The system of claim 8, wherein the storage system resources comprise at least one of clients, sub-clients, media agents, storage devices, data agents, storage media, and data transfer paths. 11. The system of claim 8, wherein the reporting component further receives information relating to at least a trend of a number of data protection jobs and forecasts the need for data storage capacity in the storage system based at least on the trend of the number of data protection jobs. 12. The system of claim 8, wherein the reporting component further receives information relating to at least a trend of a number of active clients and sub-clients and forecasts the need for data storage capacity in the storage system based at least on the trend of the number of active clients and sub-clients. 13. The system of claim 8, wherein the reporting component further receives information relating to at least a trend of a number of active media agents and forecasts the need for data storage capacity in the storage system based at least on the trend of the number of active media agents. 14. The system of claim 8, wherein the reporting component further receives information relating to at least a trend of a number of fault occurrences and forecasts the need for data storage capacity in the storage system based at least on the trend of the number of fault occurrences. 15. The system of claim 8, wherein the reporting component activates a warning upon determining that the number of active data agents has reached a threshold number.
연구과제 타임라인
LOADING...
LOADING...
LOADING...
LOADING...
LOADING...
이 특허에 인용된 특허 (146)
Gilbert, Matthew M.; Boom, Douglas D., Apparatus and method for dynamic resource allocation in a network environment.
Yuval Ofek ; Zoran Cakeljic ; Samuel Krikler IL; Sharon Galtzur IL; Michael Hirsch IL; Dan Arnon ; Peter Kamvysselis, Apparatus and methods for copying, backing up, and restoring data using a backup segment size larger than the storage block size.
Dawson, Colin Scott; Kissel, Erick Christian; Morton, David Michael; Scheid, III, William J., Apparatus, system, and method for data access management.
Griffin David (Maynard MA) Campbell Jonathan (Acton MA) Reilly Michael (Sterling MA) Rosenbaum Richard (Pepperell MA), Arrangement with cooperating management server node and network service node.
Nakano Toshio (Odawara JPX) Nozawa Masafumi (Odawara JPX) Kurano Akira (Odawara JPX) Hisano Kiyoshi (Odawara JPX) Hoshino Masayuki (Odawara JPX), Backup control method and system in data processing system using identifiers for controlling block data transfer.
Kitajima Hiroyuki (Yokohama) Yamamoto Akira (Yokohama) Doi Takashi (Hadano) Nozawa Masafumi (Odawara JPX), Buffered peripheral system and method for backing up and retrieving data to and from backup memory device.
Cole Leo J. (Raleigh NC) Frantz Curtis J. (Durham NC) Lee Jeannette (Raleigh NC) Ordanic Zvonimir (Raleigh NC) Plank Larry K. (Rochester MN), Centralized management in a computer network.
Carpenter Kelly S. (Fremont CA) Dearing Gerard M. (San Jose CA) Nick Jeffrey M. (Fishkill NY) Strickland Jimmy P. (Saratoga CA) Swanson Michael D. (Poughkeepsie NY) Wilkinson Wendell W. (Hyde Park NY, Coherence controls for store-multiple shared data coordinated by cache directory entries in a shared electronic storage.
MacFarlane, Druce Ian Craig Rattray; Hardin, John Harvey; Donoho, David, Collecting and predicting capacity information for composite network resource formed by combining ports of an access server and/or links of wide arear network.
Senator Steven T. ; Fuller Billy J., Computer system method and apparatus providing for various versions of a file without requiring data copy or log operati.
Fecteau Jean G. (Toronto NY CAX) Gdaniec Joseph M. (Vestal NY) Hennessy James P. (Endicott NY) MacDonald John F. (Vestal NY) Osisek Damian L. (Vestal NY), Computer system which supports asynchronous commitment of data.
Koseki, Michihiko; Yokoyama, Mamoru; Sumi, Masashi; Yamaguchi, Satoru; Taniwaki, Sadayoshi; Hamanaka, Seishiro, Data processing system with mechanism for restoring file systems based on transaction logs.
Dunphy William E. (Westminster CO) Halladay Steven M. (Louisville CO) Moy Michael E. (Lafayette CO) Munro Frederick G. (Broomfield CO), Data storage and protection system.
Yanai Moshe (Framingham MA) Vishlitzky Natan (Brookline MA) Alterescu Bruno (Newton MA) Castel Daniel (Framingham MA) Shklarsky Gadi (Brookline MA), Data storage system controlled remote data mirroring with respectively maintained data indices.
Fortier Richard W. (Acton MA) Mastors Robert M. (Ayer MA) Taylor Tracy M. (Upton MA) Wallace John J. (Franklin MA), Digital data processor with improved backup storage.
Kenley Gregory (Northboro MA) Ericson George (Schrewsbury MA) Fortier Richard (Acton MA) Holland Chuck (Northboro MA) Mastors Robert (Ayer MA) Pownell James (Natick MA) Taylor Tracy (Upton MA) Wallac, Digital data storage system with improved data migration.
Norris David E. ; Hewitt Larry D. ; Blumenthal Jeffrey M., Enhanced register array accessible by both a system microprocessor and a wavetable audio synthesizer.
Xu Yikang ; Vahalia Uresh K. ; Jiang Xiaoye ; Gupta Uday ; Tzelnic Percy, File server system using file system storage, data movers, and an exchange of meta data among data movers for file locking and direct access to shared file systems.
Lagueux, Jr., Richard A.; Stave, Joel H.; Yeaman, John B.; Stevens, Brian E.; Higgins, Robert M.; Collins, James M., Graphical user interface for configuration of a storage system.
Urevig Paul D. ; Malnati James R. ; Ethen Donald J. ; Weber Herbert L., Grouping shared resources into one or more pools and automatically re-assigning shared resources from where they are not currently needed to where they are needed.
Prahlad,Anand; Kavuri,Srinivas; Madeira,Andre Duque; Lunde,Norman R.; Bunte,Alan G.; May,Andreas; Schwartz,Jeremy, Hierarchical systems and methods for providing a unified view of storage information.
Barney Rock D. ; Schwols Keith ; Nelson Ellen M., Integration of a database into file management software for protecting, tracking and retrieving data.
Takagi Shiro,JPX, Large capacity storage apparatus having storage cells, an accessor, a cache memory and a disc update section to set a number of frequently accessed storage media.
Oshinsky, David Alan; Ignatius, Paul; Prahlad, Anand; May, Andreas, Logical view and access to data managed by a modular data and storage management system.
Ignatius, Paul; Theisen, Marjorie H.; Oshinsky, David Alan; Kavuri, Srinivas, Logical view and access to physical storage in modular data and storage management system.
Martin Charles W. (Richardson TX) Reid Fredrick S. (Plano TX) Forbus Gary L. (Dallas TX) Adams Steve M. (Plano TX) Shannon C. Patrick (Garland TX) Pirpich Eric A. (Garland TX), Mass data storage and retrieval system.
Kedem Nadav,ILX, Mass storage subsystem and backup arrangement for digital data processing system which permits information to be backed up while host computer(s) continue(s) operating in connection with information .
Long Robert M., Media element library with non-overlapping subset of media elements and non-overlapping subset of media element drives accessible to first host and unaccessible to second host.
Zalewski Stephen H. ; Mason Andrew H. ; Jordan Gregory H. ; Noel Karen L. ; Kauffman James R., Method and apparatus for migrating resources in a multi-processor computer system.
Arone,Geoffrey; Blumstein,Gregory; Chen,Edward; Mittal,Nalin, Method and apparatus for obtaining metadata from multiple information sources within an organization in real time.
Kullick Steven E. ; Spirakis Charles S. ; Titus Diane J., Method and apparatus for transferring archival data among an arbitrarily large number of computer devices in a networked.
Eastridge Lawrence E. (Tucson AZ) Kern Robert F. (Tucson AZ) Kern Ronald M. (Tucson AZ) Mikkelsen Claus W. (Morgan Hill CA) Ratliff James M. (Tucson AZ), Method and system for automated backup copy ordering in a time zero backup copy session.
Eastridge Lawrence E. (Tucson AZ) Kern Robert F. (Tucson AZ) Micka William F. (Tucson AZ) Mikkelsen Claus W. (Morgan Hill CA) Ratliff James M. (Tucson AZ), Method and system for automated termination and resumption in a time zero backup copy process.
Walter A. Hubis ; William G. Deitz, Method and system for controlling access share storage devices in a network environment by configuring host-to-volume mapping data structures in the controller memory for granting and denying access .
Jammu, Vinay Bhaskar; Bliley, Richard Gerald; Schneider, William Roy, Method and system for estimating time of occurrence of machine-disabling failures.
Ying Tat Leung ; Menachem Levanoni ; Sanjay E. Ramaswamy, Method and system for model-based clustering and signal-bearing medium for storing program of same.
Hideto Furukawa JP; Makoto Yoshida JP; Nami Hatazoe JP, Method for determining reference phase in radio communication system which uses orthogonal M-ary modulation, and coherent detection method using the same.
Hsu,Windsor Wee Sun; Ong,Shauchi; Palmer,John Davis, Method for reducing data loss and unavailability by integrating multiple levels of a storage hierarchy.
Aoyama Yuki,JPX ; Takahashi Toru,JPX ; Wakayama Satoshi,JPX, Method of and an apparatus for displaying version information and configuration information and a computer-readable recording medium on which a version and configuration information display program i.
van Rietschote,Hans F.; Hobbs,Craig W.; Saptarshi,Mahesh P., Migrating virtual machines among computer systems to balance load caused by virtual machines.
Crescenti,John; Kavuri,Srinivas; Oshinsky,David Alan; Prahlad,Anand, Modular backup and retrieval system used in conjunction with a storage area network.
Pisello Thomas (De Bary FL) Crossmier David (Casselberry FL) Ashton Paul (Oviedo FL), Network management system having virtual catalog overview of files distributively stored across network domain.
Raman, Suchitra; Armangau, Philippe; Bergant, Milena; Angelone, Raymond A.; Bono, Jean Pierre; Vahalia, Uresh; Gupta, Uday K., Replication of remote copy data for internet protocol (IP) transmission.
Crockett Robert N. (Tucson AZ) Kern Ronald M. (Tucson AZ) Micka William F. (Tucson AZ), Software directed microcode state save for distributed storage controller.
Mutalik Madhav ; Senie Faith M., System and method for performing file-handling operations in a digital data processing system using an operating system-independent file map.
Huai ReiJane (Old Brookville NY) Daly Robert (Ronkonkoma NY) Curti Walter (Dix Hills NY) Mohan Deepak (Huntington NY) Chueh James Kuang-Ru (Bayside NY) Louie Larry (Forest Hills NY), System and parallel streaming and data stripping to back-up a network.
Courtright ; II William V. ; Delaney William P. ; Fredin Gerald J., System controller with plurality of memory queues for prioritized scheduling of I/O requests from priority assigned clients.
Stoppani ; Jr. Peter (Woodinville WA), System for allocating storage spaces based upon required and optional service attributes having assigned piorities.
Flynn Rex A. (Belmont MA) Anick Peter G. (Marlboro MA), System for reconstructing prior versions of indexes using records indicating changes between successive versions of the.
Saether Christian D. (Seattle WA) Stoppani ; Jr. Peter (Woodinville WA), System of device independent file directories using a tag between the directories and file descriptors that migrate with.
Prahlad, Anand; Kavuri, Srinivas; Madeira, Andre Duque; Lunde, Norman R.; Bunte, Alan G.; May, Andreas; Schwartz, Jeremy, Systems and methods for detecting and mitigating storage risks.
Prahlad,Anand; Kavuri,Srinivas; Madeira,Andre Duque; Lunde,Norman R.; Bunte,Alan G.; May,Andreas; Schwartz,Jeremy, Systems and methods for generating a storage-related metric.
Prahlad, Anand; Kavuri, Srinivas; Madeira, Andre Duque; Lunde, Norman R.; Bunte, Alan G.; May, Andreas; Schwartz, Jeremy, Systems and methods for storage modeling and costing.
Prahlad, Anand; Kavuri, Srinivas; Madeira, Andre Duque; Lunde, Norman R.; Bunte, Alan G.; May, Andreas; Schwartz, Jeremy, Systems and methods for storage modeling and costing.
Prahlad,Anand; Kavuri,Srinivas; Madeira,Andre Duque; Lunde,Norman R.; Bunte,Alan G; May,Andreas; Schwartz,Jeremy, Systems and methods for storage modeling and costing.
Ryoji Ono JP, UPDATE LOG MANAGEMENT DEVICE AND AN UPDATE LOG MANAGEMENT METHOD DECREASING THE DATA AMOUNT OF TRANSMITTING AND THE UPDATE LOG AMOUNT OF HOLDING BASED ON THE RESULT OF COMPARING THE AMOUNT OF THE UPD.
Multer, David L.; Garner, Robert E.; Ridgard, Leighton A.; Stannard, Liam J.; Cash, Donald W.; Robertson, Joseph, Updating application data including adding first change log to aggreagate change log comprising summary of changes.
Haridas, Ganesh; Narasimman, Sundar; Suriyanarayanan, Karthik; A S, Gunassekaran; Klose, Michael Frank, Monitoring, diagnosing, and repairing a management database in a data storage management system.
Haridas, Ganesh; Narasimman, Sundar; Suriyanarayanan, Karthik; A S, Gunassekaran; Klose, Michael Frank, Monitoring, diagnosing, and repairing a management database in a data storage management system.
Prahlad, Anand; Kavuri, Srinivas; Madeira, Andre Duque; Lunde, Norman R.; Bunte, Alan G.; May, Andreas; Schwartz, Jeremy Alan, Systems and methods for storage modeling and costing.
Prahlad, Anand; Kavuri, Srinivas; Madeira, Andre Duque; Lunde, Norman R.; Bunte, Alan G.; May, Andreas; Schwartz, Jeremy Alan, Systems and methods for storage modeling and costing.
※ AI-Helper는 부적절한 답변을 할 수 있습니다.