User manual
Table Of Contents
- 1 Introducing Acronis Backup
- 2 Getting started
- 3 Understanding Acronis Backup
- 3.1 Owners
- 3.2 Credentials used in backup plans and tasks
- 3.3 User privileges on a managed machine
- 3.4 List of Acronis services
- 3.5 Full, incremental and differential backups
- 3.6 What does a disk or volume backup store?
- 3.7 Backup and recovery of dynamic volumes (Windows)
- 3.8 Support for Advanced Format (4K-sector) hard disks
- 3.9 Compatibility with encryption software
- 3.10 Support for SNMP
- 3.11 Support for Windows 8 and Windows Server 2012
- 3.12 Support for UEFI-based machines
- 4 Backup
- 4.1 Back up now
- 4.2 Creating a backup plan
- 4.2.1 Selecting data to back up
- 4.2.2 Access credentials for source
- 4.2.3 Source files exclusion
- 4.2.4 Backup location selection
- 4.2.5 Access credentials for archive location
- 4.2.6 Backup schemes
- 4.2.7 Archive validation
- 4.2.8 Backup plan's credentials
- 4.2.9 Label (Preserving machine properties in a backup)
- 4.2.10 Sequence of operations in a backup plan
- 4.2.11 Why is the program asking for the password?
- 4.3 Simplified naming of backup files
- 4.3.1 The [DATE] variable
- 4.3.2 Backup splitting and simplified file naming
- 4.3.3 Usage examples
- 4.3.3.1 Example 1. Daily backup replacing the old one
- 4.3.3.2 Example 2. Daily full backups with a date stamp
- 4.3.3.3 Example 3. Hourly backups within a day
- 4.3.3.4 Example 4. Daily full backups with daily drive swaps
- 4.3.3.5 Example 5. Daily backups with weekly drive swaps
- 4.3.3.6 Example 6. Backups within working hours
- 4.4 Scheduling
- 4.5 Replication and retention of backups
- 4.6 How to disable backup cataloging
- 4.7 Default backup options
- 4.7.1 Additional settings
- 4.7.2 Archive protection
- 4.7.3 Backup cataloging
- 4.7.4 Backup performance
- 4.7.5 Backup splitting
- 4.7.6 Compression level
- 4.7.7 Disaster recovery plan (DRP)
- 4.7.8 E-mail notifications
- 4.7.9 Error handling
- 4.7.10 Event tracing
- 4.7.11 Fast incremental/differential backup
- 4.7.12 File-level backup snapshot
- 4.7.13 File-level security
- 4.7.14 Media components
- 4.7.15 Mount points
- 4.7.16 Multi-volume snapshot
- 4.7.17 Pre/Post commands
- 4.7.18 Pre/Post data capture commands
- 4.7.19 Replication/cleanup inactivity time
- 4.7.20 Sector-by-sector backup
- 4.7.21 Task failure handling
- 4.7.22 Task start conditions
- 4.7.23 Volume Shadow Copy Service
- 5 Recovery
- 5.1 Creating a recovery task
- 5.2 Recovering BIOS-based systems to UEFI-based and vice versa
- 5.3 Acronis Active Restore
- 5.4 Bootability troubleshooting
- 5.5 Reverting a Windows system to its factory settings
- 5.6 Default recovery options
- 6 Conversion to a virtual machine
- 7 Storing the backed up data
- 8 Operations with archives and backups
- 9 Bootable media
- 10 Disk management
- 10.1 Supported file systems
- 10.2 Basic precautions
- 10.3 Running Acronis Disk Director Lite
- 10.4 Choosing the operating system for disk management
- 10.5 "Disk management" view
- 10.6 Disk operations
- 10.7 Volume operations
- 10.8 Pending operations
- 11 Protecting applications with disk-level backup
- 12 Administering a managed machine
- 12.1 Backup plans and tasks
- 12.2 Log
- 12.3 Alerts
- 12.4 Changing a license
- 12.5 Collecting system information
- 12.6 Adjusting machine options
- 13 Cloud backup
- 13.1 Introduction to Acronis Cloud Backup
- 13.1.1 What is Acronis Cloud Backup?
- 13.1.2 What data can I back up and recover?
- 13.1.3 How long will my backups be kept in the cloud storage?
- 13.1.4 How do I secure my data?
- 13.1.5 Supported operating systems and virtualization products
- 13.1.6 Backup and recovery FAQ
- 13.1.6.1 What backup methods are available?
- 13.1.6.2 What recovery methods are available?
- 13.1.6.3 Is the cloud storage available under Acronis bootable media?
- 13.1.6.4 What if a network connection is lost during cloud backup or recovery?
- 13.1.6.5 What happens if I run out of space?
- 13.1.6.6 What is the cleanup task for?
- 13.1.6.7 How do I make a recovered machine recognize its subscription?
- 13.1.7 Initial Seeding FAQ
- 13.1.7.1 What is Initial Seeding?
- 13.1.7.2 Why would I want to use Initial Seeding?
- 13.1.7.3 Is Initial Seeding a paid service?
- 13.1.7.4 What types of hard drive can I use for Initial Seeding?
- 13.1.7.5 Can I send more than one backup under a single Initial Seeding license?
- 13.1.7.6 Can I send backups taken from a number of machines on a single hard drive?
- 13.1.7.7 How to buy an Initial Seeding license?
- 13.1.7.8 How do I perform initial seeding?
- 13.1.7.9 How to package a hard drive for shipment?
- 13.1.7.10 How do I track an Initial Seeding order status?
- 13.1.8 Large Scale Recovery FAQ
- 13.1.8.1 What is Large Scale Recovery?
- 13.1.8.2 Why would I use Large Scale Recovery?
- 13.1.8.3 Do I need to perform initial seeding to be able to use Large Scale Recovery?
- 13.1.8.4 Is Large Scale Recovery a paid service?
- 13.1.8.5 Can I perform large scale recovery on a different machine?
- 13.1.8.6 Can I obtain backups taken from a number of machines on a single hard drive?
- 13.1.8.7 How to buy a Large Scale Recovery license?
- 13.1.8.8 How do I track a Large Scale Recovery order status?
- 13.1.8.9 How to perform large scale recovery?
- 13.1.9 Subscription lifecycle FAQ
- 13.1.9.1 How do I access my account management webpage?
- 13.1.9.2 Where do I find the subscriptions that I purchased?
- 13.1.9.3 When does my subscription begin?
- 13.1.9.4 What happens when my subscription expires?
- 13.1.9.5 How do I renew a subscription?
- 13.1.9.6 What is the “Group” column for?
- 13.1.9.7 Can I revoke a subscription from a machine?
- 13.1.9.8 Can I cancel my subscription?
- 13.2 Where do I start?
- 13.3 Choosing a subscription
- 13.4 Configuring proxy settings
- 13.5 Checking the firewall settings
- 13.6 Activating cloud backup subscriptions
- 13.7 Retrieving files from the cloud storage by using a web browser
- 13.8 Limitations of the cloud storage
- 13.9 Terminology reference
- 13.1 Introduction to Acronis Cloud Backup
- 14 Glossary
- Acronis Active Restore
- Acronis Plug-in for WinPE
- Acronis Secure Zone
- Acronis Startup Recovery Manager (ASRM)
- Activity
- Agent (Acronis Backup Agent)
- Archive
- Backup
- Backup archive (Archive)
- Backup operation
- Backup options
- Backup plan (Plan)
- Backup scheme
- Bootable agent
- Bootable media
- Built-in group
- Cataloging
- Centralized backup plan
- Centralized management
- Centralized task
- Centralized vault
- Cleanup
- Console (Acronis Backup Management Console)
- Consolidation
- Data catalog
- Deduplicating vault
- Deduplication
- Differential backup
- Direct management
- Disaster recovery plan (DRP)
- Disk backup (Image)
- Disk group
- Dynamic disk
- Dynamic group
- Dynamic volume
- Encrypted archive
- Encrypted vault
- Export
- Full backup
- GFS (Grandfather-Father-Son)
- Image
- Incremental backup
- Indexing
- Local backup plan
- Local task
- Logical volume
- Machine
- Managed machine
- Managed vault
- Management server (Acronis Backup Management Server)
- Media builder
- Personal vault
- Plan
- Recovery point
- Registered machine
- Registration
- Replenishable pool
- Replication
- Retention rules
- Single-pass backup
- Static group
- Storage node (Acronis Backup Storage Node)
- Task
- Tower of Hanoi
- Unmanaged vault
- Validation
- Vault
- Virtual machine
- WinPE (Windows Preinstallation Environment)
135 Copyright © Acronis International GmbH, 2002-2016
You can choose the virtual machine type: VMware Workstation, Microsoft Virtual PC, Red Hat
Kernel-based Virtual Machine (KVM) or Red Hat Enterprise Virtualization (RHEV).
In the Storage step, you can select the virtual machine path.
What is the machine's processing power?
Conversion will take the selected machine's CPU resource. Multiple conversion tasks will be queued
on that machine and it may take considerable time to complete them all. Consider this when creating
a centralized backup plan with conversion for multiple machines or multiple local backup plans using
the same machine for conversion.
What storage will be used for the virtual machines?
Network usage
As opposed to ordinary backups (TIB files), virtual machine files are transferred uncompressed
through the network. Therefore, using a SAN or a storage local to the machine that performs
conversion is the best choice from the network usage standpoint. A local disk is not an option though,
if the conversion is performed by the same machine that is backed up. Using a NAS also makes good
sense.
Storage space
For VMware, Hyper-V and Virtual PC, disks of the resulting virtual machine will use as much storage
space as the original data occupies. Assuming that the original disk size is 100 GB and the disk stores
10 GB of data, the corresponding virtual disk will occupy about 10 GB. VMware calls this format "thin
provisioning", Microsoft uses the "dynamically expanding disk" term. Since the space is not
pre-allocated, the physical storage is expected to have sufficient free space for the virtual disks to
increase in size.
For KVM or RHEV, disks of the resulting virtual machine will have the raw format. This means that
virtual disk size is always equal to the original disk capacity. Assuming that the original disk size is 100
GB, the corresponding virtual disk will occupy 100 GB even if the disk stores 10 GB of data.
6.2.2.4 How regular conversion to VM works
The way the repeated conversions work depends on where you choose to create the virtual machine.
If you choose to save the virtual machine as a set of files: each conversion re-creates the virtual
machine from scratch.
If you choose to create the virtual machine on a virtualization server: when converting an
incremental or differential backup, the software updates the existing virtual machine instead of
re-creating it. Such conversion is normally faster. It saves network traffic and CPU resource of the
host that performs the conversion. If updating the virtual machine is not possible, the software
re-creates it from scratch.
The following is a detailed description of both cases.
If you choose to save the virtual machine as a set of files
As a result of the first conversion, a new virtual machine will be created. Every subsequent
conversion will re-create this machine from scratch. First, the old machine is temporarily renamed.
Then, a new virtual machine is created that has the previous name of the old machine. If this
operation succeeds, the old machine is deleted. If this operation fails, the new machine is deleted
and the old machine is given its previous name. This way, the conversion always ends up with a single
machine. However, extra storage space is required during conversion to store the old machine.