RAIDs with Parity Delays
Restorer Ultimate allows you to create RAIDs with parity delays (any level that allows that). For example, let us create a RAID 5 the parity delays with the following layout:
•Block size: 16 KB
•Offset: 1088 sectors (544 KB)
•Block order: Left Asynchronous (Continuous)
The RAID components are the images RAID5HPDisk1.bin, RAID5HPDisk2.bin, and RAID5HPDisk3.bin on the Device/Disk list.
To create such RAID 5,
Specify the Offset parameter.
Note: Components should be placed in the same order and the offsets should be specified as they were in the original volume set. If this order is incorrect, you must change it by using the Move Up and Move Down buttons.
If a component from the objects is absent (due to hardware failure, for example), you can add a "missing disk" to re-construct the RAID. The missing disk should be placed in the same order as in the original RAID structure.
Turning Disks On-Line and Off-Line on-the-fly
You may turn the objects in the virtual RAID or volume set on-line and off-line by selecting/clearing the On checkbox on the Create Virtual RAID dialog box. It may be useful, for example, if you need to see which disk is non-actual in a RAID5 or 6.
Actually, when you turn an object off-line, Restorer Ultimate substitutes it with a Missing Disk or Empty Space object.
Note: Restorer Ultimate does not write anything real on the disk. A missing disk is a virtual object that does not affect actual data on the drive.
Select Left Asynchronous (Continuous) on the Block Order field.
Specify the Block size and the Parity delay number in the Parity delay control.
You may automatically find parameters for RAID 5 and 6. See the Finding RAID Parameters help page for details.
The Virtual volume set or RAIDs object can now be processed like regular drives/volumes.
If Restorer Ultimate detects a valid file system on the newly created RAID object, a partition object will appear on the Device/Disk list panel.
Note: You may check how correctly you have reconstructed the original volume set or RAID. Find a file and preview it. If the file appears correct, you have created a correct RAID layout. The file should be large enough. For example, it should have size equal or larger to Block size*(Number of disks-Number of parity disks) for RAID 5 or 6.
The Description Files for RAID Configurations topic shows the RAID description file for this RAID configuration.