08c3c1cefc
git-svn-id: https://svn.code.sf.net/p/xcat/code/xcat-core/trunk@15948 8638fb3e-16cb-4fca-ae20-7b5d299a9bcd
732 lines
18 KiB
Plaintext
732 lines
18 KiB
Plaintext
=head1 B<NAME>
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B<renergy> - remote energy management tool
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=head1 B<SYNOPSIS>
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B<renergy> [-h | --help]
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B<renergy> [-v | --version]
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B<Power 6 server specific :>
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=over 2
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B<renergy> I<noderange> [-V] { all | [savingstatus] [cappingstatus]
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[cappingmaxmin] [cappingvalue] [cappingsoftmin] [averageAC]
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[averageDC] [ambienttemp] [exhausttemp] [CPUspeed] }
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B<renergy> I<noderange> [-V] { savingstatus={on | off}
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| cappingstatus={on | off} | cappingwatt=watt
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| cappingperc=percentage }
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=back
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B<Power 7 server specific :>
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=over 2
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B<renergy> I<noderange> [-V] { all | [savingstatus] [dsavingstatus]
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[cappingstatus] [cappingmaxmin] [cappingvalue] [cappingsoftmin]
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[averageAC] [averageDC] [ambienttemp] [exhausttemp] [CPUspeed]
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[syssbpower] [sysIPLtime] [fsavingstatus] [ffoMin] [ffoVmin]
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[ffoTurbo] [ffoNorm] [ffovalue]}
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B<renergy> I<noderange> [-V] { savingstatus={on | off}
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| dsavingstatus={on-norm | on-maxp | off}
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| fsavingstatus={on | off} | ffovalue=MHZ
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| cappingstatus={on | off} | cappingwatt=watt
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| cappingperc=percentage }
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=back
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B<BladeCenter specific :>
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=over 2
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B<For Management Modules:>
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=over 4
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B<renergy> I<noderange> [-V] { all | pd1all | pd2all | [pd1status]
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[pd2status] [pd1policy] [pd2policy] [pd1powermodule1]
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[pd1powermodule2] [pd2powermodule1] [pd2powermodule2]
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[pd1avaiablepower] [pd2avaiablepower] [pd1reservedpower]
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[pd2reservedpower] [pd1remainpower] [pd2remainpower]
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[pd1inusedpower] [pd2inusedpower] [availableDC] [averageAC]
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[thermaloutput] [ambienttemp] [mmtemp] }
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=back
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B<For a blade server nodes:>
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=over 4
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B<renergy> I<noderange> [-V] { all | [averageDC]
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[capability] [cappingvalue] [CPUspeed] [maxCPUspeed]
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[savingstatus] [dsavingstatus] }
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B<renergy> I<noderange> [-V] { savingstatus={on | off}
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| dsavingstatus={on-norm | on-maxp | off} }
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=back
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=back
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B<Flex specific :>
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=over 2
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B<For Flex Management Modules:>
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=over 4
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B<renergy> I<noderange> [-V] { all | [powerstatus]
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[powerpolicy] [powermodule] [avaiablepower] [reservedpower]
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[remainpower] [inusedpower] [availableDC] [averageAC]
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[thermaloutput] [ambienttemp] [mmtemp] }
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=back
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B<For Flex node (power and x86):>
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=over 4
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B<renergy> I<noderange> [-V] { all | [averageDC]
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[capability] [cappingvalue] [cappingmaxmin] [cappingmax]
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[cappingmin] [cappingGmin] [CPUspeed] [maxCPUspeed]
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[savingstatus] [dsavingstatus] }
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B<renergy> I<noderange> [-V] { cappingstatus={on | off}
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| cappingwatt=watt | cappingperc=percentage
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| savingstatus={on | off} | dsavingstatus={on-norm | on-maxp | off} }
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=back
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=back
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B<iDataPlex specific :>
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=over 2
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B<renergy> I<noderange> [-V] [ { cappingmaxmin | cappingmax | cappingmin } ]
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[cappingstatus] [cappingvalue] [relhistogram]
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B<renergy> I<noderange> [-V] { cappingstatus={on | enable | off | disable}
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| {cappingwatt|cappingvalue}=watt }
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=back
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=head1 B<DESCRIPTION>
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This B<renergy> command can be used to manage the energy consumption of
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IBM servers which support IBM EnergyScale technology. Through this command,
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user can query and set the power saving and power capping status, and also can
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query the average consumed energy, the ambient and exhaust temperature,
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the processor frequency for a server.
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B<renergy> command supports IBM POWER6 and POWER7 rack-mounted servers,
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BladeCenter management modules, blade servers, and iDataPlex servers.
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For system p rack-mounted servers, the following specific hardware types are supported:
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I<8203-E4A>, I<8204-E8A>, I<9125-F2A>, I<8233-E8B>, I<8236-E8C>.
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The parameter I<noderange> needs to be specified for the B<renergy> command to
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get the target servers. The I<noderange> should be a list of CEC node names, blade
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management module node names or blade server node names. Lpar name
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is not acceptable here.
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B<renergy> command can accept multiple of energy attributes to query or one of energy
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attribute to set. If only the attribute name is specified, without the '=', B<renergy>
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gets and displays the current value. Otherwise, if specifying the attribute with '=' like
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'savingstatus=on', B<renergy> will set the attribute savingstatus to value 'on'.
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The attributes listed in the B<SYNOPSIS> section are which ones can be handled by
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B<renergy> command. But for each specific type of server, there are some attributes that
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are not supported. If user specifies an attribute which is not supported by a specific
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server, the return value of this attribute will be 'na'.
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The supported attributes for each specific system p hardware type is listed as follows:
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=over 2
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B<8203-E4A>, B<8204-E8A>
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=over 4
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Supported attributes:
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B<Query>: savingstatus,cappingstatus,cappingmin,cappingmax,
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cappingvalue,cappingsoftmin,averageAC,averageDC,ambienttemp,
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exhausttemp,CPUspeed
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B<Set>: savingstatus,cappingstatus,cappingwatt,cappingperc
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=back
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B<9125-F2A>
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=over 4
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Supported attributes:
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B<Query>: savingstatus,averageAC,ambienttemp,exhausttemp,
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CPUspeed
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B<Set>: savingstatus
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=back
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B<8233-E8B>, B<8236-E8C>
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=over 4
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Supported attributes:
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B<Query>: savingstatus,dsavingstatus,cappingstatus,cappingmin,
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cappingmax,cappingvalue,cappingsoftmin,averageAC,averageDC,
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ambienttemp,exhausttemp,CPUspeed,syssbpower,sysIPLtime
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B<Set>: savingstatus,dsavingstatus,cappingstatus,cappingwatt,
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cappingperc
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=back
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B<9125-F2C>
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=over 4
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Supported attributes:
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B<Query>: savingstatus,dsavingstatus,cappingstatus,cappingmin,
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cappingmax,cappingvalue,cappingsoftmin,averageAC,averageDC,
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ambienttemp,exhausttemp,CPUspeed,syssbpower,sysIPLtime,
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fsavingstatus,ffoMin,ffoVmin,ffoTurbo,ffoNorm,ffovalue
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B<Set>: savingstatus,dsavingstatus,cappingstatus,cappingwatt,
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cappingperc,fsavingstatus,ffovalue
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=back
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=back
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Note:
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For system P CEC nodes, each query operation for attribute CPUspeed, averageAC
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or averageDC needs about 30 seconds to complete. The query for others attributes
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will get response immediately.
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=head1 B<PREREQUISITES>
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For the system p nodes, the B<renergy> command depends
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on the Energy Management Plugin B<xCAT-pEnergy> to
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communicate with server. B<xCAT-pEnergy> can be downloaded from the IBM web site:
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http://www.ibm.com/support/fixcentral/. (Other Software -> EM)
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For iDataPlex nodes, the B<renergy> command depends
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on the Energy Management Plugin B<xCAT-xEnergy> to
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communicate with server. This plugin must be requested from IBM.
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(The support for BladeCenter energy management is built into base xCAT,
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so no additional plugins are needed for BladeCenter.)
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=head1 B<OPTIONS>
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=over 4
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=item B<-h | --help>
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Display the usage message.
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=item B<-v | --version>
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Display the version information.
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=item B<-V>
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Verbose output.
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=item B<all>
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Query all energy attributes which supported by the specific
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type of hardware.
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=item B<pd1all>
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Query all energy attributes of the power domain 1 for blade
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management module node.
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=item B<pd2all>
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Query all energy attributes of the power domain 2 for blade
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management module node.
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=item B<ambienttemp>
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Query the current ambient temperature. (Unit is centigrade)
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=item B<availableDC>
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Query the total DC power available for the entire blade center chassis.
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=item B<averageAC>
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Query the average power consumed (Input). (Unit is watt)
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Note: For 9125-F2A,9125-F2C server, the value of attribute
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averageAC is the aggregate for all of the servers in a rack.
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Note: For Blade Center, the value of attribute
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averageAC is the total AC power being consumed by all modules
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in the chassis. It also includes power consumed by the Chassis
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Cooling Devices for BCH chassis.
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=item B<averageDC>
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Query the average power consumed (Output). (Unit is watt)
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=item B<capability>
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Query the Power Capabilities of the blade server.
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staticPowerManagement: the module with the static worst case power values.
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fixedPowermanagement: the module with the static power values but ability
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to throttle.
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dynamicPowerManagement: the module with power meter capability, measurement
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enabled, but capping disabled.
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dynamicPowerMeasurement1: the module with power meter capability, measurement
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enabled, phase 1 only
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dynamicPowerMeasurement2: the module with power meter capability, measurement
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enabled, phase 2 or higher
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dynamicPowerMeasurementWithPowerCapping: the module with power meter capability,
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both measurement and capping enabled, phase 2 or higher
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=item B<cappingGmin>
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Query the Guaranteed Minimum power capping value in watts.
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=item B<cappingmax>
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Query the Maximum of power capping value in watts.
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=item B<cappingmaxmin>
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Query the Maximum and Minimum of power capping value in watts.
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=item B<cappingmin>
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Query the Minimum of power capping value in watts.
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=item B<cappingperc>=B<percentage>
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Set the power capping value base on the percentage of
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the max-min of capping value which getting from
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I<cappingmaxmim> attribute. The valid value must be
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from 0 to 100.
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=item B<cappingsoftmin>
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Query the minimum value that can be assigned to power
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capping without guaranteed enforceability. (Unit is watt)
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=item B<cappingstatus>
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Query the power capping status. The result should be 'on'
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or 'off'.
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=item B<cappingstatus>={B<on> | B<off>}
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Set the power capping status. The value must be 'on'
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or 'off'. This is the switch to turn on or turn off the
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power capping function.
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=item B<cappingvalue>
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Query the current power capping value. (Unit is watt)
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=item B<cappingwatt>=B<watt>
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Set the power capping value base on the watt unit.
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If the 'watt' > maximum of I<cappingmaxmin> or 'watt'
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< I<cappingsoftmin>, the setting operation
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will be failed. If the 'watt' > I<cappingsoftmin> and
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'watt' < minimum of I<cappingmaxmin>, the value can NOT be
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guaranteed.
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=item B<CPUspeed>
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Query the effective processor frequency. (Unit is MHz)
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=item B<dsavingstatus>
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Query the dynamic power saving status. The result should
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be 'on-norm', 'on-maxp' or 'off'.
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If turning on the dynamic power saving, the processor
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frequency and voltage will be dropped dynamically based on
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the core utilization. It supports two modes for turn on state:
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I<on-norm> - means normal, the processor frequency cannot
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exceed the nominal value;
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I<on-maxp> - means maximum performance, the processor
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frequency can exceed the nominal value.
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=item B<dsavingstatus>={B<on-norm> | B<on-maxp> | B<off>}
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Set the dynamic power saving. The value must be 'on-norm',
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'on-maxp' or 'off'.
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The dsavingstatus setting operation needs about 2 minutes
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to take effect. (The used time depends on the hardware type)
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The B<dsavingstatus> only can be turned on when the
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B<savingstatus> is in turn off status.
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=item B<exhausttemp>
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Query the current exhaust temperature. (Unit is centigrade)
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=item B<ffoMin>
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Query the minimum cpu frequency which can be set for FFO. (Fixed
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Frequency Override)
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=item B<ffoNorm>
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Query the maximum cpu frequency which can be set for FFO.
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=item B<ffoTurbo>
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Query the advertised maximum cpu frequency (selling point).
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=item B<ffoVmin>
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Query the minimum cpu frequency which can be set for dropping down
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the voltage to save power. That means when you drop the cpu
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frequency from the ffoVmin to ffoVmin, the voltage won't change,
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then there's no obvious power to be saved.
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=item B<ffovalue>
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Query the current value of FFO.
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=item B<ffovalue>=B<MHZ>
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Set the current value of FFO. The valid value of ffovalue should
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be between the ffoMin and ffoNorm.
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Note1: Due to the limitation of firmware, the frequency in the range
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3501 MHz - 3807 MHz can NOT be set to ffovalue. This range may be
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changed in future.
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Note2: The setting will take effect only when the fsavingstatus is in
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'on' status. But you need to set the ffovalue to a valid value before
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enabling the fsavingstatus. (It's a limitation of the initial firmware
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and will be fixed in future.)
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The ffovalue setting operation needs about 1 minute to take effect.
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=item B<fsavingstatus>
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Query the status of FFO. The result should be 'on' or 'off'.
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'on' - enable; 'off' - disable.
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=item B<fsavingstatus>={B<on> │ B<off>}
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Set the status of FFO. The value must be 'on' or 'off'.
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'on' - enable. It will take effect only when the B<ffovalue>
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has been set to a valid value.
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'off' -disable. It will take effect immediately.
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Note: See the Note2 of ffovalue=MHZ.
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=item B<maxCPUspeed>
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Query the maximum processor frequency. (Unit is MHz)
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=item B<mmtemp>
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Query the current temperature of management module.
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(Unit is centigrade)
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=item B<pd1status | powerstatus>
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Query the status of power domain 1 for blade management
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module node.
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Note: for the attribute without the leading 'pd1' which
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means there's only one power doamin in the chassis.
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=item B<pd1policy | powerpolicy>
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Query the power management policy of power domain 1.
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=item B<pd1powermodule1 | powermodule>
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Query the First Power Module capacity in power domain 1.
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=item B<pd1powermodule2 | powermodule>
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Query the Second Power Module capacity in power domain 1.
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=item B<pd1avaiablepower | avaiablepower>
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Query the total available power in power domain 1.
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=item B<pd1reservedpower | reservedpower>
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Query the power that has been reserved for power domain 1.
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=item B<pd1remainpower | remainpower>
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Query the remaining power available in power domain 1.
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=item B<pd1inusedpower | inusedpower>
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Query the total power being used in power domain 1.
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=item B<pd2status>
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Query the status of power domain 2 for blade management
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module node.
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=item B<pd2policy>
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Query the power management policy of power domain 2.
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=item B<pd2powermodule1>
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Query the First Power Module capacity in power domain 2.
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=item B<pd2powermodule2>
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Query the Second Power Module capacity in power domain 2.
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=item B<pd2avaiablepower>
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Query the total available power in power domain 2.
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=item B<pd2reservedpower>
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Query the power that has been reserved for power domain 2.
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=item B<pd2remainpower>
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Query the remaining power available in power domain 2.
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=item B<pd2inusedpower>
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Query the total power being used in power domain 2.
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=item B<relhistogram>
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Query histogram data for wattage information
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=item B<savingstatus>
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Query the static power saving status. The result should be
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'on' or 'off'. 'on' - enable; 'off' - disable.
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=item B<savingstatus>={B<on> | B<off>}
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Set the static power saving. The value must be 'on' or 'off'.
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If turning on the static power saving, the processor frequency
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and voltage will be dropped to a fixed value to save energy.
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The savingstatus setting operation needs about 2 minutes to
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take effect. (The used time depends on the hardware type)
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The B<savingstatus> only can be turned on when the
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B<dsavingstatus> is in turn off status.
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=item B<sysIPLtime>
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Query the time used from FSP standby to OS standby.
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(Unit is Second)
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|
=item B<syssbpower>
|
|
|
|
Query the system power consumed prior to power on.
|
|
(Unit is MHz)
|
|
|
|
=item B<thermaloutput>
|
|
|
|
Query the thermal output (load) in BTUs per hour for the blade
|
|
center chassis.
|
|
|
|
=back
|
|
|
|
=head1 B<RETURN VALUE>
|
|
|
|
0 The command completed successfully.
|
|
|
|
1 An error has occurred.
|
|
|
|
=head1 B<EXAMPLES>
|
|
|
|
=over 3
|
|
|
|
=item 1
|
|
|
|
Query all the attributes which CEC1,CEC2 supported.
|
|
|
|
B<renergy> CEC1,CEC2 all
|
|
|
|
The output of the query operation:
|
|
|
|
CEC1: savingstatus: off
|
|
CEC1: dsavingstatus: off
|
|
CEC1: cappingstatus: off
|
|
CEC1: cappingmin: 1953 W
|
|
CEC1: cappingmax: 2358 W
|
|
CEC1: cappingvalue: 2000 W
|
|
CEC1: cappingsoftmin: 304 W
|
|
CEC1: averageAC: na
|
|
CEC1: averageDC: na
|
|
CEC1: ambienttemp: na
|
|
CEC1: exhausttemp: na
|
|
CEC1: CPUspeed: na
|
|
CEC1: syssbpower: 40 W
|
|
CEC1: sysIPLtime: 900 S
|
|
CEC2: savingstatus: off
|
|
CEC2: cappingstatus: off
|
|
CEC2: cappingmin: 955 W
|
|
CEC2: cappingmax: 1093 W
|
|
CEC2: cappingvalue: 1000 W
|
|
CEC2: cappingsoftmin: 226 W
|
|
CEC2: averageAC: 627 W
|
|
CEC2: averageDC: 531 W
|
|
CEC2: ambienttemp: 25 C
|
|
CEC2: exhausttemp: 40 C
|
|
CEC2: CPUspeed: 4695 MHz
|
|
|
|
=item 2
|
|
|
|
Query all the attirbutes for management module node MM1. (For chassis)
|
|
|
|
B<renergy> MM1 all
|
|
|
|
The output of the query operation:
|
|
|
|
mm1: availableDC: 5880W
|
|
mm1: frontpaneltmp: 18.00 Centigrade
|
|
mm1: inusedAC: 2848W
|
|
mm1: mmtmp: 28.00 Centigrade
|
|
mm1: pd1avaiablepower: 2940W
|
|
mm1: pd1inusedpower: 848W
|
|
mm1: pd1policy: redundantWithoutPerformanceImpact
|
|
mm1: pd1powermodule1: Bay 1: 2940W
|
|
mm1: pd1powermodule2: Bay 2: 2940W
|
|
mm1: pd1remainpower: 1269W
|
|
mm1: pd1reservedpower: 1671W
|
|
mm1: pd1status: 1 - Power domain status is good.
|
|
mm1: pd2avaiablepower: 2940W
|
|
mm1: pd2inusedpower: 1490W
|
|
mm1: pd2policy: redundantWithoutPerformanceImpact
|
|
mm1: pd2powermodule1: Bay 3: 2940W
|
|
mm1: pd2powermodule2: Bay 4: 2940W
|
|
mm1: pd2remainpower: 51W
|
|
mm1: pd2reservedpower: 2889W
|
|
mm1: pd2status: 2 - Warning: Power redundancy does not exist
|
|
in this power domain.
|
|
mm1: thermaloutput: 9717.376000 BTU/hour
|
|
|
|
=item 3
|
|
|
|
Query all the attirbutes for blade server node blade1.
|
|
|
|
B<renergy> blade1 all
|
|
|
|
The output of the query operation:
|
|
|
|
blade1: CPUspeed: 4204MHZ
|
|
blade1: averageDC: 227W
|
|
blade1: capability: dynamicPowerMeasurement2
|
|
blade1: cappingvalue: 315W
|
|
blade1: dsavingstatus: off
|
|
blade1: maxCPUspeed: 4204MHZ
|
|
blade1: savingstatus: off
|
|
|
|
=item 4
|
|
|
|
Query the attributes savingstatus, cappingstatus
|
|
and CPUspeed for server CEC1.
|
|
|
|
B<renergy> CEC1 savingstatus cappingstatus CPUspeed
|
|
|
|
The output of the query operation:
|
|
|
|
CEC1: savingstatus: off
|
|
CEC1: cappingstatus: on
|
|
CEC1: CPUspeed: 3621 MHz
|
|
|
|
=item 5
|
|
|
|
Turn on the power saving function of CEC1.
|
|
|
|
B<renergy> CEC1 savingstatus=on
|
|
|
|
The output of the setting operation:
|
|
|
|
CEC1: Set savingstatus succeeded.
|
|
CEC1: This setting may need some minutes to take effect.
|
|
|
|
=item 6
|
|
|
|
Set the power capping value base on the percentage of the
|
|
max-min capping value. Here, set it to 50%.
|
|
|
|
B<renergy> CEC1 cappingperc=50
|
|
|
|
If the maximum capping value of the CEC1 is 850w, and the
|
|
minimum capping value of the CEC1 is 782w, the Power Capping
|
|
value will be set as ((850-782)*50% + 782) = 816w.
|
|
|
|
The output of the setting operation:
|
|
|
|
CEC1: Set cappingperc succeeded.
|
|
CEC1: cappingvalue: 816
|
|
|
|
=back
|
|
|
|
|
|
=head1 B<REFERENCES>
|
|
|
|
=over 3
|
|
|
|
=item 1
|
|
|
|
For more information on 'Power System Energy Management':
|
|
|
|
http://www-03.ibm.com/systems/power/software/energy/index.html
|
|
|
|
=item 2
|
|
|
|
EnergyScale white paper for Power6:
|
|
|
|
http://www-03.ibm.com/systems/power/hardware/whitepapers/energyscale.html
|
|
|
|
=item 3
|
|
|
|
EnergyScale white paper for Power7:
|
|
|
|
http://www-03.ibm.com/systems/power/hardware/whitepapers/energyscale7.html
|
|
|
|
=back
|
|
|
|
=head1 B<FILES>
|
|
|
|
/opt/xcat/bin/renergy
|
|
|
|
|