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data protector manual pdfIf you continue browsing the site, you agree to the use of cookies on this website. See our User Agreement and Privacy Policy.If you continue browsing the site, you agree to the use of cookies on this website. See our Privacy Policy and User Agreement for details.If you wish to opt out, please close your SlideShare account. Learn more. You can change your ad preferences anytime. It's called ? www.WritePaper.info ? So make sure to check it out!I sent a request to ? www.HelpWriting.net ? and found a writer within a few minutes. Because I had to move house and I literally didn’t have any time to sit on a computer for many hours every evening. Thankfully, the writer I chose followed my instructions to the letter. I know we can all write essays ourselves. For those in the same situation I was in, I recommend ? www.HelpWriting.net ?.Software Version: 9.07. Installation Guide. Document Release Date: June 2016. Software Release Date: June 2016Warranty. The only warranties for Hewlett Packard Enterprise Development LP products and services are set forth inNothing herein should beHPE shall not be liable for technical or editorial errors orThe information contained herein is subject to change without notice. Restricted Rights Legend. Confidential computer software. Valid license from HPE required for possession, use or copying. ConsistentTechnical Data for Commercial Items are licensed to the U.S. Government under vendor's standardCopyright Notice. Trademark NoticesDocumentation Updates. The title page of this document contains the following identifying information:To check for recent updates or to verify that you are using the most recent edition of a document, go to:To register for an HPE Passport ID, goOr click the Register link at the top of the HPE Software Support page. You will also receive updated or new editions if you subscribe to the appropriate product support service. Contact your HPE sales representative for details. Support.http://www.landpas.pl/upload/exertec-manual-treadmill.xml
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Visit the HPE Software Support Online web site at. This web site provides contact information and details about the products, services, and support that HPE. Software offers. HPE Software online support provides customer self-solve capabilities. It provides a fast and efficient way toAs a valued support customer,Installation Guide. HPE Data Protector (9.07) Page 2 of 426Most of the support areas require that you register as an HPE Passport user and sign in. Many also require aIntegrations between HPE Products, as well as a listing of ITIL Processes. The URL for this Web site isHPE Data Protector (9.07) Page 3 of 426Chapter 1: Overview of the installation procedure 21. Overview of the installation procedure 21. The remote installation concept 23. Data Protector installation media 24. Choosing the Cell Manager system 25. Choosing the Data Protector user interface system 26. The Data Protector graphical user interface 27. Chapter 2: Installing Data Protector 28. Installing the Data Protector Cell Manager and Installation Servers 29. Installing a UNIX Cell Manager 30. Prerequisites 30. Cluster-aware Cell Manager 31. Recommendations 32. Setting kernel parameters 32. Installation procedure 32. The installed directory structure on HP-UX and Linux systems 33. Configuring automatic startup and shutdown 34. Setting environment variables 36. Next steps 36. Installing a Windows Cell Manager 36. Prerequisites 36. Microsoft Terminal Services Client 38. Recommendations 38. Installation procedure 39. After the installation 42. Troubleshooting 43. Next steps 43. Installing Installation Servers 43. Installing Installation Servers for UNIX systems 44. Prerequisites 44. Recommendations 44. Installation procedure 45. Next steps 45. Installing an Installation Server for Windows systems 46. Prerequisites 46. Limitations 47. Installation procedure 47. HPE Data Protector (9.07) Page 4 of 426Installing the Data Protector Single Server Edition 49. Limitations of SSE for Windows 50.http://2014.muces.es/admin/fck/exertec-fitness-bike-manual.xml Limitations of SSE for HP-UX 50. Installing a password 50. Installing the Data Protector web reporting 50. Prerequisites 51. Installation Procedure 51. Next steps 52. Verifying the Installation 52. Prerequisite 52. Steps 52. About the Data Protector Inet Service Configuration 52. Integrations 52. Running the Inet service under a Windows domain user account 53. Setting Up a User Account for the Data Protector Inet Service User Impersonation 53. Using the Data Protector GUI 53. Steps 53. Using the Data Protector CLI 54. Changing the Data Protector Inet Account 54. Prerequisites 54. On Windows systems 54. Chapter 3: Installing Data Protector clients 56. Integrations 57. Data Protector components 59. Data Protector services 63. Installing Windows clients 63. Prerequisites 64. Limitations 64. Recommendations 64. Automatic disaster recovery 64. Cluster-aware clients 65. Local installation 65. Connecting a backup device to Windows systems 67. Next steps 68. Installing HP-UX clients 68. Prerequisites 69. Remote installation 69. Local installation 70. Cluster-aware clients 70. Checking the kernel configuration on HP-UX 70. HPE Data Protector (9.07) Page 5 of 426Installing Solaris clients 72. Prerequisites 72. Remote installation 72. Local installation 73. Cluster-aware clients 73. Post-installation configuration 73. Connecting a backup device to a Solaris system 77. Next steps 78. Installing Linux clients 78. Prerequisites 78. Automatic disaster recovery 79. HPE Serviceguard cluster 79. Novell Open Enterprise Server (OES) 79. Remote installation 80. Local installation 81. Connecting a backup device to the Linux system 81. Next steps 82. Installing ESX Server clients 82. Installing IBM AIX clients 82. Prerequisites 82. IBM HACMP cluster 83. Remote installation 83. Local installation 83. Connecting a backup device to an AIX client 83. Next steps 84. Installing Mac OS X clients 84. Installing HP OpenVMS clients 86. Prerequisites 86. Installation Procedure 86. Installation in a cluster environment 89. Next steps 91. Remote installation 91. Prerequisites 91. Recommendations 92. Remote installation using secure shell 93. Setting up OpenSSH 93. Setting up a keychain 94. Next steps 95. Adding clients to the cell 95. Troubleshooting 97. Adding components to clients 98. Prerequisite 98. HPE Data Protector (9.07) Page 6 of 426Prerequisites 100. Installation Procedure 100. Running the installation from the hard disk 102. Next steps 103. Connecting library drives 103. Prerequisites 105. Installation procedure 106. Next steps 107. Preparing Data Protector clients to use the StorageTek Library 107. Prerequisites 107. Installing a Media Agent to use the StorageTek Library 108. Next steps 109. Chapter 4: Installing the Data Protector integration clients 110. Prerequisites 110. Remote installation 112. Local installation 112. Installing cluster-aware integrations 112. Next steps 112. Microsoft Exchange Server clients 113. Data Protector Microsoft Exchange Server 2007 integration 113. Prerequisites 113. Steps 113. Verification of the Data Protector Microsoft Exchange Server integration installation 115. Verification of Microsoft Exchange Server 115. Data Protector Microsoft Exchange Server 2010 integration 115. Data Protector Microsoft Exchange Server Single Mailbox integration 116. Data Protector Microsoft Volume Shadow Copy Service integration 116. Data Protector Granular Recovery Extension for Microsoft Exchange Server 116. Prerequisites 117. Supported Environments 118. Installing the extension 118. Procedure 119. Removing the extension 119. Microsoft SQL Server clients 119. Microsoft SharePoint Server clients 119. Data Protector Microsoft SharePoint Server VSS based solution 120. HPE Data Protector (9.07) Page 7 of 426Data Protector Granular Recovery Extension for Microsoft SharePoint Server 121. Prerequisites 121. GRE Environment 122. Microsoft Volume Shadow Copy Service clients 123. Sybase Server clients 124. Informix Server clients 124. IBM HACMP Cluster 124. Prerequisites 125. SAP MaxDB clients 125. SAP HANA Appliance clients 125. Oracle Server clients 126. HP OpenVMS 126. MySQL clients 126. PostgreSQL clients 127. IBM DB2 UDB clients 127. Lotus Domino Cluster 127. VMware clients 128. Data Protector GRE for VMware vSphere 128. GRE Environment 128. Mount Proxy System 129. VMware vCenter Server (VirtualCenter server) 131. VMware vCenter Server Appliance (VCSA) 6.0 Environment 132. Installing Data Protector GRE for VMware vSphere Web Client 132. Considerations 132. Requirements 133. New Installation 133. Option 1 133. Option 2 134. Upgrade 135. Option 1 135. Option 2 136. Option 3 136. Uninstalling the Web Plug-in and Advanced GRE Web Plug-in 137. Manually unregistering VMware vSphere Managed Object Reference 138. Microsoft Hyper-V clients 138. Data Protector Virtual Environment integration 139. Data Protector Microsoft Volume Shadow Copy Service integration 139. NDMP Server clients 139. HPE Data Protector (9.07) Page 8 of 426HPE P6000 EVA Disk Array Family clients 140. Installing in a cluster 140. Integrating with other applications 141. HPE P6000 EVA Disk Array Family integration with Oracle Server 141. Prerequisites 141. Installation procedure 142. Prerequisites 142. Installation procedure 144. HPE P6000 EVA Disk Array Family integration with Microsoft Exchange Server 145. Prerequisite 145. Installation procedure 145. HPE P6000 EVA Disk Array Family integration with Microsoft SQL Server 145. HPE P9000 XP Disk Array Family clients 146. Installing in a cluster 146. Integrating with other applications 146. HPE P9000 XP Disk Array Family integration with Oracle Server 147. Prerequisites 147. Installation Procedure 147. Prerequisites 148. Installation Procedure 150. HPE P9000 XP Disk Array Family integration with Microsoft Exchange Server 151. Prerequisite 151. Installation procedure 151. HPE P9000 XP Disk Array Family integration with Microsoft SQL Server 151. HPE 3PAR StoreServ Storage clients 152. EMC Symmetrix clients 152. Installing in a cluster 152. Integrating with other applications 153. EMC Symmetrix Integration with Oracle 153. Prerequisites 153. Installation Procedure 153. Prerequisites 154. Installation Procedure 155. EMC Symmetrix Integration with Microsoft SQL Server 156. Prerequisite 156. Installation Procedure 156. HPE Data Protector (9.07) Page 9 of 426Limitations 157. Prerequisite 157. Installation procedure 157. Limitations 158. Prerequisites 158. Installation procedure 158. Limitations 159. Prerequisites 159. Installation procedure 161. Limitations 161. Prerequisite 161. Installation procedure 162. Chapter 5: Installing Data Protector on Clusters 163. Installing Data Protector on an HPE Serviceguard 163. Configuration phases 163. Installing a cluster-aware Cell Manager 163. Prerequisites 163. Configuring the Primary Cell Manager 164. Steps 164. Configuring the Secondary Cell Manager 165. Steps 165. Configuring the Cell Manager package 165. Prerequisites 165. Next steps 167. Installing an Installation Server on cluster nodes 167. Installing cluster-aware clients 167. Volume Group creation example 167. Primary Node Steps 168. Secondary Node Steps 169. Modifying the Data Protector package configuration file 171. Modifying the Data Protector package control file 172. Installing Data Protector on a Symantec Veritas Cluster Server 173. Configuration phases 173. Installing a cluster-aware Cell Manager 174. Prerequisites 174. Preparing Cluster Service Group for Data Protector Cell Manager 174. Configuring the Primary Cell Manager 174. HPE Data Protector (9.07) Page 10 of 426Configuring the Secondary Cell Manager 175. Steps 175. Configuring the Cell Manager Cluster Service Group 175. Next steps 176. Installing an Installation Server on cluster nodes 176. Installing cluster-aware clients 176. Installing Data Protector on a Microsoft Cluster Server 176. VMware vCenter Server (VirtualCenter server) 131. VMware vCenter Server Appliance (VCSA) 6.0 Environment 132. Installing Data Protector GRE for VMware vSphere Web Client 132. Considerations 132. Requirements 133. New Installation 133. Option 1 133. Option 2 134. Upgrade 135. Option 1 135. Option 2 136. Option 3 136. Uninstalling the Web Plug-in and Advanced GRE Web Plug-in 137. Manually unregistering VMware vSphere Managed Object Reference 138. Microsoft Hyper-V clients 138. Data Protector Virtual Environment integration 139. Data Protector Microsoft Volume Shadow Copy Service integration 139. NDMP Server clients 139. HPE Data Protector (9.07) Page 8 of 426HPE P6000 EVA Disk Array Family clients 140. Installing in a cluster 140. Integrating with other applications 141. HPE P6000 EVA Disk Array Family integration with Oracle Server 141. Prerequisites 141. Installation procedure 142. Prerequisites 142. Installation procedure 144. HPE P6000 EVA Disk Array Family integration with Microsoft Exchange Server 145. Prerequisite 145. Installation procedure 145. HPE P6000 EVA Disk Array Family integration with Microsoft SQL Server 145. HPE P9000 XP Disk Array Family clients 146. Installing in a cluster 146. Integrating with other applications 146. HPE P9000 XP Disk Array Family integration with Oracle Server 147. Prerequisites 147. Installation Procedure 147. Prerequisites 148. Installation Procedure 150. HPE P9000 XP Disk Array Family integration with Microsoft Exchange Server 151. Prerequisite 151. Installation procedure 151. HPE P9000 XP Disk Array Family integration with Microsoft SQL Server 151. HPE 3PAR StoreServ Storage clients 152. EMC Symmetrix clients 152. Installing in a cluster 152. Integrating with other applications 153. EMC Symmetrix Integration with Oracle 153. Prerequisites 153. Installation Procedure 153. Prerequisites 154. Installation Procedure 155. EMC Symmetrix Integration with Microsoft SQL Server 156. Prerequisite 156. Installation Procedure 156. HPE Data Protector (9.07) Page 9 of 426Limitations 157. Prerequisite 157. Installation procedure 157. Limitations 158. Prerequisites 158. Installation procedure 158. Limitations 159. Prerequisites 159. Installation procedure 161. Limitations 161. Prerequisite 161. Installation procedure 162. Chapter 5: Installing Data Protector on Clusters 163. Installing Data Protector on an HPE Serviceguard 163. Configuration phases 163. Installing a cluster-aware Cell Manager 163. Prerequisites 163. In the Remote Management Console, under the Configuration tab, the VTL page allows you to configure an InfiniGuard to present its storage capacity as VTL (virtual tape library) partitions that are compatible with standard backup applications. You can add virtual tape drives and storage slots to VTL partitions, and you can create and work with virtual tape cartridges. You can also map partitions to hosts. Partitioning lets you divide the DDE virtual tape drives and storage elements into separate partitions, usable by separate host computers. The Partitions page contains a list of assigned tape drives, as well as listing all user-defined partitions that are currently configured on the system. This page also lets you add, edit, and delete partitions. Note Use DDE Native (e.g. Infinidat IBA B4260 DDE (DXi6900)) or Scalar i6000 emulation for the library and HP or IBM LTO emulation for the tape drives The Summary page displays the maximum number of partitions, the total number of tape drives, and the number of assigned tape drives. The Summary page also provides a list of configured partitions on the system. Click the link in the Name column to edit the specific partition. For InfiniGuard DDE configuration detail, see InfiniGuard 3.0 Users Guide. Partition Summary page Note Ensure that your Data Protector system is properly configured for the correct number of tape drives emulated in the DDE system partition. Failure to do so may cause Data Protector to malfunction or cease to operate. Note If you are planning to replicate partitions to another DDE system, you must ensure that every partition name and barcode number on the system is unique. You can NOT have duplicate partition names or barcode numbers on a DDE system or on a system receiving a replicated partition. The Create Media page allows you to create virtual media for a specific partition. Once created, these virtual cartridges are available for backing up data. You can configure the media type, capacity, starting barcode, and initial location on this page. Note It is possible to oversubscribe space on the DDE system. The sum total of capacity for all media could be more than the physical capacity of the system. See Over-subscription of Space on the DDE in the Common Operational Considerations section for more information on this subject. Configure Data Protector with the DDE VTL To configure the Data Protection Manager Library and tape drives, follow these steps: Install the Data Protector Cell Manager system to configure and control devices and clients within the cell. By default, cell manager installations include media and disk agents, along with a user interface. Connect DDE VTL via FC SAN to the Data Protector server. Note Data Protector supports Infinidat InfiniGuard Virtual Tape Libraries (VTL) as well as CIFS and NFS File Library devices. If necessary, install the latest SCSITab to ensure support for attached Tape devices, physical or emulated, within the VTL. HP-UX drivers and discovery. Verify that the latest drivers are installed. HP-UX pass-thru drivers for Autochangers: The schgr and stape (eschgr and estape) drivers have to be loaded in the kernel before discovering and adding the devices in Data Protector. To use GUI for DP Cell Manager on Linux you must install DP Client on Windows. Command line interface is provided for both Windows and UNIX platforms. Clients connect through port 5556 to access the Java GUI. Map the DDE VTL to the host on the appropriate FC connection for target devices using the DDE configuration GUI Verify the SAN-attached VTL is visible and properly configured within the Data Protector operating system. Note It may be necessary on some UNIX platforms to remove stale device entries in the OS prior to discovering devices and configuring them in Data Protector. Data Protector provides an Autoconfigure option for configuring SCSI libraries and tape drives. Alternatively, devices may be added manually through the user interface. Select the client system that is connected to the VTL from the list and click Finish Manual configuration process Enter details: Device name: Example: Scalar I6000 Description: optional Client: Select the client to which the device is connected Device Type: SCSI Library Interface Type: SCSI Click Next Select the appropriate SCSI address from the pull-down options. Click Add. After selecting next, select the appropriate media type, e.g. LTO Click Finish Add tape drives in a similar manner and associate them with the newly created library from the previous step. Configuring and running a test backup Select Backup from the Data Protector pull down menu Select the Task tab at the bottom of the left pane Choose a sample dataset to back up from the file system tree Select the Storage Target Choose additional options if needed. Do not choose source-side deduplication. Restoring from a backup By default, backup objects are restored to the same location they were backed up from. Select Restore from the Data Protector pull down menu Select the file system object you wish to restore in the left pane In the right pane select the files you wish to restore Select tabs for options including: Destination, Devices, Media, Copies, and Restore Summary. Select Restore Review selection and select Finish Job status is displayed automatically. Advanced Tape Drive Options (under Tape Drive Settings) Direct Library Access option The Use Direct Library access option allows for multiple computers in a cell to control the virtual tape library and devices, provided they are configured in Data Protector Cell Manager with multiple working paths to these devices. e.g.: A cell manager and a client are both configured with SAN connections to a VTL. If the cell manager loses its FC connection, there is still a path to it from the client using Direct Library Access. Use Lock Name option Selecting the device lock name option will ensures that Data Protector will not try to use the same device with a different name at the same time. The user can create lock names for the devices or go with default names assigned. Best Practices Guide with DDE VTL Device Driver and Firmware level Ensure that the latest drivers and firmware have been installed for the tape drive, robotic library, and the HBA. Current DDE code includes the latest tape drive and robotic library emulation code. Tape Drive LUN Mapping It is recommended to start device mapping with LUN 0 on each port and not skipping any LUNs. A best practice is to zone the VTL devices and the Data Protector media servers to prevent other servers from taking control of the VTL resources. Additionally, it is recommended to use the HBA driver to bind the devices to a specific address. This helps keep devices in the same order after a reboot. Infinidat InfiniGuard VTL devices support reserve and release to accommodate sharing drives. The option allows devices to be shared between Data Protector media servers. The advantage of this is that you will have a pool of drives available to each media server. Other SAN architectures assign drives to each media server and eliminate the shared function. For both conditions, it is a good practice to keep the Data Protector media server separate from the production server, to eliminate downtime from maintenance. This requires the media servers to have a fast network connection to the source data. Number of Concurrent Tape Drives in Use Each InfiniGuard provides two active DDEs, each of which can be configured with up to 512 VTDs to provide a maximum aggregate throughput rate which will be divided relatively equally between the virtual tape drives in use. This does not prohibit a single tape drive from using all available bandwidth. The media server typically determines individual tape drive performance. Better performance can be achieved by using a subset of those virtual tape drives at the same time. Infinidat expects the customer configuration to distribute those virtual tape drives among multiple media servers, to simplify initial installation by providing dedicated resources to each media server. Infinidat also recommends that backups be staggered, so that only a subset of drives is in use at one time. During a backup, the data transfer rate is primarily controlled by the media server, because the DDE system does not restrict the ingest data rate. This creates the opportunity for one or more media servers to burst data at a higher rate, leaving less bandwidth for the remaining virtual tape drives. Conversely, it supports the coexistence of fast data streams with slow streams, for maximum use of the available bandwidth. Keep in mind that increasing the number of concurrently active virtual tape drives does not increase the aggregate DDE bandwidth. It could also result in a failed backup job due to a timeout from a bandwidth-starved operation. The recommended maximum number of concurrently active virtual tape drives for various maximum aggregate bandwidths is listed in the table below. This is because they reduce the amount of overhead of headers added by the backup application and also by the transport interface. The recommended minimum is 256 KB block size, and up to 1 MB is suggested. Tape Cartridge Capacity Considerations Space on a given tape cartridge cannot be reused until after all backup data on that cartridge has expired. The greater the capacity of a cartridge, the longer it will typically take for all data on that cartridge to expire. Expired data continues to take up space on the virtual tape cartridge, as well as on the InfiniGuard, until that cartridge is overwritten, relabeled, or erased. This means that lower cartridge capacities are more desirable, so that tapes will be returned to the default scratch pool for reuse and overwritten sooner. InfiniGuard devices limit the maximum capacity permitted by the tape drive emulation; the minimum is 5GB. The capacity utilization is tracked in UNCOMPRESSED GB, and the data is stored in compressed form. That is, 100GB of data that is 2:1 compressible will be reported as occupying 50GB of virtual tape cartridge space. Infinidat’s general guidance is to specify a smaller virtual tape cartridge capacity, such as 100GB to 500GB, for the reasons mentioned above. Recommended Handling of Expired Media When a tape is expired or recycled by Data Protector, there is no direct communication of the event to the DDE. The result is that a tape may be displayed as empty or SCRATCH in the Data Protector graphical interface, but will show the same tape on the DDE GUI as containing data. This indicates the data on the expired tape is still using space on the DDE. To reclaim this space, we recommend using Data Protector's graphical interface to re-label the expired media. This new label is a data block written to the virtual tape cartridge at the beginning of tape, effectively blanking the tape. The DDE VTL will act similarly to a physical tape and the data after the label becomes no longer accessible. Data Protector will then allow for it to be overwritten in future backup operations. The user can also format the media, to free up space on the DDE, immediately Media Management in Data Protector The following media operations are supported on the virtual tape drives: Barcode Scan Inventory media by barcode Format Medium Data Protector writes its own header on each tape so it can be recognized later. This can be done manually, as described in this section, or automatically. Scan Medium Scan contents of media, one at a time or multiple in parallel. Copy Medium Copy the contents of one tape to another. Verify Medium This process checks that the data format is valid on a tape. It will update the Internal Database, following the Verify, which can take a long time, depending on how much data is on the tape. Cleaning Cleaning functions are not supported in a Virtual Tape Library (VTL). Common Operational Considerations Over-subscription of Space on the InfiniGuard Deduplication will reduce the amount of space used on the physical system by the virtual tapes. Users are advised to monitor for Low Space conditions on the InfiniGuard and free up virtual media before reaching this threshold. The Disk Usage overview on the Home page of the InfiniGuard Management GUI displays the following information about disk usage on the system (Note: Values are displayed as an amount and as a percentage of the total capacity in the system): Disk Capacity - The total usable disk capacity of the InfiniGuard. Available Disk Space - The disk space available for data storage (free space). Note For optimal system performance, Infinidat recommends keeping the amount of Available Disk Space (free space) at 20 or more. When disk capacity is low, target replication to the system is paused. In addition, space reclamation is automatically started to free up disk space. Deduplication Data Considerations Deduplication results can be negatively impacted by compression, encryption, software deduplication, and multiplexing. These functions all change the data stream in a way that obscures patterns in the data content. They will reduce the performance and deduplication from any downstream appliance, including DDE systems. To obtain effective deduplication rates, you should NOT encrypt, deduplicate, compress, or multiplex your backup data before sending it to a DDE appliance. The use of multiplexing was intended for slow source data, and for the minimum transfer rate required by physical tape drives. Multiplexing backup streams was intended to provide more efficient use of a limited number of physical tape drives.