NetBackup™ Backup Planning and Performance Tuning Guide
- NetBackup capacity planning
- Primary server configuration guidelines
- Size guidance for the NetBackup primary server and domain
- Factors that limit job scheduling
- More than one backup job per second
- Stagger the submission of jobs for better load distribution
- NetBackup job delays
- Selection of storage units: performance considerations
- About file system capacity and NetBackup performance
- About the primary server NetBackup catalog
- Guidelines for managing the primary server NetBackup catalog
- Adjusting the batch size for sending metadata to the NetBackup catalog
- Methods for managing the catalog size
- Performance guidelines for NetBackup policies
- Legacy error log fields
- Media server configuration guidelines
- NetBackup hardware design and tuning considerations
- About NetBackup Media Server Deduplication (MSDP)
- Data segmentation
- Fingerprint lookup for deduplication
- Predictive and sampling cache scheme
- Data store
- Space reclamation
- System resource usage and tuning considerations
- Memory considerations
- I/O considerations
- Network considerations
- CPU considerations
- OS tuning considerations
- MSDP tuning considerations
- MSDP sizing considerations
- Cloud tier sizing and performance
- Accelerator performance considerations
- Media configuration guidelines
- About dedicated versus shared backup environments
- Suggestions for NetBackup media pools
- Disk versus tape: performance considerations
- NetBackup media not available
- About the threshold for media errors
- Adjusting the media_error_threshold
- About tape I/O error handling
- About NetBackup media manager tape drive selection
- How to identify performance bottlenecks
- Best practices
- Best practices: NetBackup SAN Client
- Best practices: NetBackup AdvancedDisk
- Best practices: Disk pool configuration - setting concurrent jobs and maximum I/O streams
- Best practices: About disk staging and NetBackup performance
- Best practices: Supported tape drive technologies for NetBackup
- Best practices: NetBackup tape drive cleaning
- Best practices: NetBackup data recovery methods
- Best practices: Suggestions for disaster recovery planning
- Best practices: NetBackup naming conventions
- Best practices: NetBackup duplication
- Best practices: NetBackup deduplication
- Best practices: Universal shares
- NetBackup for VMware sizing and best practices
- Best practices: Storage lifecycle policies (SLPs)
- Best practices: NetBackup NAS-Data-Protection (D-NAS)
- Best practices: NetBackup for Nutanix AHV
- Best practices: NetBackup Sybase database
- Best practices: Avoiding media server resource bottlenecks with Oracle VLDB backups
- Best practices: Avoiding media server resource bottlenecks with MSDPLB+ prefix policy
- Best practices: Cloud deployment considerations
- Measuring Performance
- Measuring NetBackup performance: overview
- How to control system variables for consistent testing conditions
- Running a performance test without interference from other jobs
- About evaluating NetBackup performance
- Evaluating NetBackup performance through the Activity Monitor
- Evaluating NetBackup performance through the All Log Entries report
- Table of NetBackup All Log Entries report
- Evaluating system components
- About measuring performance independent of tape or disk output
- Measuring performance with bpbkar
- Bypassing disk performance with the SKIP_DISK_WRITES touch file
- Measuring performance with the GEN_DATA directive (Linux/UNIX)
- Monitoring Linux/UNIX CPU load
- Monitoring Linux/UNIX memory use
- Monitoring Linux/UNIX disk load
- Monitoring Linux/UNIX network traffic
- Monitoring Linux/Unix system resource usage with dstat
- About the Windows Performance Monitor
- Monitoring Windows CPU load
- Monitoring Windows memory use
- Monitoring Windows disk load
- Increasing disk performance
- Tuning the NetBackup data transfer path
- About the NetBackup data transfer path
- About tuning the data transfer path
- Tuning suggestions for the NetBackup data transfer path
- NetBackup client performance in the data transfer path
- NetBackup network performance in the data transfer path
- NetBackup server performance in the data transfer path
- About shared memory (number and size of data buffers)
- Default number of shared data buffers
- Default size of shared data buffers
- Amount of shared memory required by NetBackup
- How to change the number of shared data buffers
- Notes on number data buffers files
- How to change the size of shared data buffers
- Notes on size data buffer files
- Size values for shared data buffers
- Note on shared memory and NetBackup for NDMP
- Recommended shared memory settings
- Recommended number of data buffers for SAN Client and FT media server
- Testing changes made to shared memory
- About NetBackup wait and delay counters
- Changing parent and child delay values for NetBackup
- About the communication between NetBackup client and media server
- Processes used in NetBackup client-server communication
- Roles of processes during backup and restore
- Finding wait and delay counter values
- Note on log file creation
- About tunable parameters reported in the bptm log
- Example of using wait and delay counter values
- Issues uncovered by wait and delay counter values
- Estimating the effect of multiple copies on backup performance
- Effect of fragment size on NetBackup restores
- Other NetBackup restore performance issues
- About shared memory (number and size of data buffers)
- NetBackup storage device performance in the data transfer path
- Tuning other NetBackup components
- When to use multiplexing and multiple data streams
- Effects of multiplexing and multistreaming on backup and restore
- How to improve NetBackup resource allocation
- Encryption and NetBackup performance
- Compression and NetBackup performance
- How to enable NetBackup compression
- Effect of encryption plus compression on NetBackup performance
- Information on NetBackup Java performance improvements
- Information on NetBackup Vault
- Fast recovery with Bare Metal Restore
- How to improve performance when backing up many small files
- How to improve FlashBackup performance
- Veritas NetBackup OpsCenter
- Tuning disk I/O performance
Table of NetBackup All Log Entries report
Table: Messages in All Log Entries report describes messages from the All Log Entries report.
The messages vary according to the locale setting of the primary server.
Table: Messages in All Log Entries report
Entry | Statistic |
|---|---|
started backup job for client <name>, policy <name>, schedule <name> on storage unit <name> | The column for this entry show the time at which the backup job started. |
successfully wrote backup id <name>, copy <number>, <number> Kbytes | For a multiplexed backup, this entry shows the size of the individual backup job. The column indicates when the job finished writing to the storage device. The overall statistics for the multiplexed backup group are found in a subsequent entry. These statistics include the data throughput rate to the storage device, |
successfully wrote <number> of <number> multiplexed backups, total Kbytes <number> at Kbytes/sec | For multiplexed backups, this entry shows the overall statistics for the multiplexed backup group including the data throughput rate. |
begin writing backup id <name>, copy <number>, fragment <number>, destination path <name> | The column for this entry shows when the restore job began reading from the storage device. |
successfully wrote backup id <name>, copy <number>, fragment <number>, Kbytes at <number> Kbytes/sec | For non-multiplexed backups, this entry combines the information in the previous two entries for multiplexed backups. The single entry shows the following:
|
the requested operation was successfully completed | The column for this entry shows the time at which the backup job completed. This value is later than the "successfully wrote" entry (in a previous message): it includes extra processing time at the end of the job for tasks such as NetBackup image validation. |
begin reading backup id <name>, (restore), copy <number>, fragment <number> from media id <name> on drive index <number> | The column for this entry shows when the restore job started reading from the storage device. (Note that the latter part of the entry is not shown for restores from disk, because it does not apply.) |
successfully restored from backup id <name>, copy <number>, <number> Kbytes | For a multiplexed restore, this entry shows the size of the individual restore job. (As a rule, all restores from tape are multiplexed restores, because non-multiplexed restores require additional action from the user.) The column indicates when the job finished reading from the storage device. The overall statistics for the multiplexed restore group are found in a subsequent entry below. These statistics include the data throughput rate. |
successfully restored <number> of <number> requests <name>, read total of <number> Kbytes at <number> Kbytes/sec | For multiplexed restores, this entry shows the overall statistics for the multiplexed restore group, including the data throughput rate. |
successfully read (restore) backup id <name>, copy <number>, fragment <number>, <number> Kbytes at <number> Kbytes/sec | For non-multiplexed restores, this entry combines the information from the previous two entries for multiplexed restores. The single entry shows the following:
As a rule, only restores from disk are treated as non-multiplexed restores. |