From cf9dcf0b4be7f09b8144abd41877412ba878cd83 Mon Sep 17 00:00:00 2001 From: jjhua Date: Mon, 28 Mar 2011 02:26:47 +0000 Subject: [PATCH] add the over/item/back to format options; correct the output format of the mkvm examples git-svn-id: https://svn.code.sf.net/p/xcat/code/xcat-core/trunk@9162 8638fb3e-16cb-4fca-ae20-7b5d299a9bcd --- xCAT-client/pods/man1/mkvm.1.pod | 107 +++++++++++++------------------ 1 file changed, 44 insertions(+), 63 deletions(-) diff --git a/xCAT-client/pods/man1/mkvm.1.pod b/xCAT-client/pods/man1/mkvm.1.pod index 8bd9f6293..a3c8271f0 100644 --- a/xCAT-client/pods/man1/mkvm.1.pod +++ b/xCAT-client/pods/man1/mkvm.1.pod @@ -50,16 +50,17 @@ mkvm .... =head1 OPTIONS +=over 10 -B<-h|--help> Display usage message. +=item B<-h|--help> Display usage message. -B<-c> The cec (fsp) name for the destination. +=item B<-c> The cec (fsp) name for the destination. -B<-i> Starting numeric id of the newly created partitions. For P7 IH using Direct FSP Management, the id value only could be 1, 5, 9, 13, 17, 21, 25 and 29. +=item B<-i> Starting numeric id of the newly created partitions. For P7 IH using Direct FSP Management, the id value only could be 1, 5, 9, 13, 17, 21, 25 and 29. -B<-m> memory interleaving. The value only could be interleaved or non-interleaved. non-interleaved mode means the memory cannot be shared across the processors in an octant. interleaved means the memory can be shared. +=item B<-m> memory interleaving. The value only could be interleaved or non-interleaved. non-interleaved mode means the memory cannot be shared across the processors in an octant. interleaved means the memory can be shared. -B<-r> partition rule. +=item B<-r> partition rule. If all the octants configuration value are same in one CEC, it will be " -r 0-7:value" . @@ -67,26 +68,23 @@ If the octants use the different configuration value in one cec, it will be "-r The octants configuration value for one Octant could be 1, 2, 3, 4, 5 . The meanings of the octants configuration value are as following: -1 - 1 partition with all cpus and memory of the octant + 1 - 1 partition with all cpus and memory of the octant + 2 - 2 partitions with a 50/50 split of cpus and memory + 3 - 3 partitions with a 25/25/50 split of cpus and memory + 4 - 4 partitions with a 25/25/25/25 split of cpus and memory + 5 - 2 partitions with a 25/75 split of cpus and memory -2 - 2 partitions with a 50/50 split of cpus and memory +=item B<-l> The partition name of the source. -3 - 3 partitions with a 25/25/50 split of cpus and memory +=item B<-p> The file that contains the profiles for the source partitions. -4 - 4 partitions with a 25/25/25/25 split of cpus and memory +=item B<--full> Request to create a new full system partition for each CEC. -5 - 2 partitions with a 25/75 split of cpus and memory +=item B<-v|--version> Command Version. -B<-l> The partition name of the source. - -B<-p> The file that contains the profiles for the source partitions. - -B<--full> Request to create a new full system partition for each CEC. - -B<-v|--version> Command Version. - -B<-V|--verbose> Verbose output. +=item B<-V|--verbose> Verbose output. +=back =head1 RETURN VALUE @@ -167,74 +165,57 @@ lpar6: Success 5. For P7 IH, to create a new partition lpar1 on the first octant of the cec, lpar1 will use all the cpu and memory of the octant 0, enter: -I + mkdef -t node -o lpar1 mgt=fsp groups=all parent=cec01 nodetype=lpar hcp=cec01 then: -I + mkvm lpar1 -i 1 -m non-interleaved -r 0:1 Output is similar to: -par1: Success -cec1: Please reboot the CEC cec1 firstly, and then use chvm to assign the I/O slots to the LPARs + par1: Success + cec1: Please reboot the CEC cec1 firstly, and then use chvm to assign the I/O slots to the LPARs 6. For P7 Ih, to create new partitions lpar1-lpar8 on the whole cec, each LPAR will use all the cpu and memory of each octant, enter: -I + mkdef -t node -o lpar1-lpar8 nodetype=lpar mgt=fsp groups=all parent=cec01 hcp=cec01 then: -I + mkvm lpar1-lpar8 -i 1 -m non-interleaved -r 0-7:1 Output is similar to: -lpar1: Success - -lpar2: Success - -lpar3: Success - -lpar4: Success - -lpar5: Success - -lpar6: Success - -lpar7: Success - -lpar8: Success - -cec1: Please reboot the CEC cec1 firstly, and then use chvm to assign the I/O slots to the LPARs + lpar1: Success + lpar2: Success + lpar3: Success + lpar4: Success + lpar5: Success + lpar6: Success + lpar7: Success + lpar8: Success + cec1: Please reboot the CEC cec1 firstly, and then use chvm to assign the I/O slots to the LPARs 7. For P7 IH, to create new partitions lpar1-lpar9, the lpar1 will use 25% CPU and 25% memory of the first octant, and lpar2 will use the left CPU and memory of the first octant. lpar3-lpar9 will use all the cpu and memory of each octant, enter: -I + mkdef -t node -o lpar1-lpar9 mgt=fsp groups=all parent=cec1 nodetype=lpar hcp=cec1 then: -I + mkvm lpar1-lpar9 -i 1 -m non-interleaved -r 0:5,1-7:1 Output is similar to: -lpar1: Success - -lpar2: Success - -lpar3: Success - -lpar4: Success - -lpar5: Success - -lpar6: Success - -lpar7: Success - -lpar8: Success - -lpar9: Success - -cec1: Please reboot the CEC cec1 firstly, and then use chvm to assign the I/O slots to the LPARs + lpar1: Success + lpar2: Success + lpar3: Success + lpar4: Success + lpar5: Success + lpar6: Success + lpar7: Success + lpar8: Success + lpar9: Success + cec1: Please reboot the CEC cec1 firstly, and then use chvm to assign the I/O slots to the LPARs =head1 FILES