Product data
48 PowerVM Migration from Physical to Virtual Storage
vasi0 Available Virtual Asynchronous Services Interface
(VASI)
vbsd0 Available Virtual Block Storage Device (VBSD)
vhost0 Available Virtual SCSI Server Adapter
vhost1 Available Virtual SCSI Server Adapter
vhost2 Available Virtual SCSI Server Adapter
vhost3 Available Virtual SCSI Server Adapter
vhost4 Available Virtual SCSI Server Adapter
vhost5 Available Virtual SCSI Server Adapter
vhost6 Available Virtual SCSI Server Adapter
vsa0 Available LPAR Virtual Serial Adapter
vcd1 Available Virtual Target Device - File-backed
Optical
vp1rootvg Available Virtual Target Device - Logical Volume
vp2rootvg Available Virtual Target Device - Logical Volume
vp3rootvg Available Virtual Target Device - Logical Volume
vp4rootvg Available Virtual Target Device - Logical Volume
vtopt0 Available Virtual Target Device - File-backed
Optical
vtscsi0 Available Virtual Target Device - Logical Volume
vtscsi1 Available Virtual Target Device - Disk
vtscsi2 Available Virtual Target Device - Disk
name status description
ent8 Available Shared Ethernet Adapter
7. The Virtual I/O Server lsmap command can be used to check that the correct
disk is mapped to the client logical partition. For clarity only the required entry
has been shown below:
$ lsmap -all | more
SVSA Physloc Client Partition ID
--------------- -------------------------------------------- ------------------
vhost0 U8204.E8A.10FE411-V2-C11 0x00000003
VTD vtscsi0
Status Available
LUN 0x8100000000000000
Backing device p1rootvg
Physloc
8. Create the virtual optical device using the mkvdev command. In this example
the same vhost that is assigned to the disk volume is used. There is no need
to create a separate vhost for use by file-backed optical devices:
$ mkvdev -fbo -vadapter vhost0
vtopt1 Available
$