Machine ClassAd Attributes
AcceptedWhileDraining
¶Boolean which indicates if the slot accepted its current job while the machine was draining.
Activity
¶String which describes HTCondor job activity on the machine. Can have one of the following values:
"Idle"
There is no job activity
"Busy"
A job is busy running
"Suspended"
A job is currently suspended
"Vacating"
A job is currently vacating
"Killing"
A job is currently being killed
"Benchmarking"
The startd is running benchmarks
"Retiring"
Waiting for a job to finish or for the maximum retirement time to expire
Arch
¶String with the architecture of the machine. Currently supported architectures have the following string definitions:
"INTEL"
Intel x86 CPU (Pentium, Xeon, etc).
"X86_64"
AMD/Intel 64-bit X86
Microarch
¶On X86_64 Linux machines, this advertises the x86_64 microarchitecture, like x86_64-v2. See https://en.wikipedia.org/wiki/X86-64#Microarchitecture_levels for details.
CanHibernate
¶The condor_startd has the capability to shut down or hibernate a machine when certain configurable criteria are met. However, before the condor_startd can shut down a machine, the hardware itself must support hibernation, as must the operating system. When the condor_startd initializes, it checks for this support. If the machine has the ability to hibernate, then this boolean ClassAd attribute will be
True
. By default, it isFalse
.ClaimEndTime
¶The time at which the slot will leave the
Claimed
state. Currently, this only applies to partitionable slots. This is measured in the number of integer seconds since the Unix epoch (00:00:00 UTC, Jan 1, 1970).ClockDay
¶The day of the week, where 0 = Sunday, 1 = Monday, …, and 6 = Saturday.
ClockMin
¶The number of minutes passed since midnight.
CondorLoadAvg
¶The load average contributed by HTCondor, either from remote jobs or running benchmarks.
CondorVersion
¶A string containing the HTCondor version number for the condor_startd daemon, the release date, and the build identification number.
ConsoleIdle
¶The number of seconds since activity on the system console keyboard or console mouse has last been detected. The value can be modified with
SLOTS_CONNECTED_TO_CONSOLE
as defined in the condor_startd Configuration File Macros section.Cpus
¶The number of CPUs (cores) in this slot. It is 1 for a single CPU slot, 2 for a dual CPU slot, etc. For a partitionable slot, it is the remaining number of CPUs in the partitionable slot.
CpuFamily
¶On Linux machines, the Cpu family, as defined in the /proc/cpuinfo file.
CpuModel
¶On Linux machines, the Cpu model number, as defined in the /proc/cpuinfo file.
CpuCacheSize
¶On Linux machines, the size of the L3 cache, in kbytes, as defined in the /proc/cpuinfo file.
CurrentRank
¶A float which represents this machine owner’s affinity for running the HTCondor job which it is currently hosting. If not currently hosting an HTCondor job,
CurrentRank
is 0.0. When a machine is claimed, the attribute’s value is computed by evaluating the machine’sRank
expression with respect to the current job’s ClassAd.DetectedCpus
¶Set by the value of configuration variable
DETECTED_CORES
DetectedMemory
¶Set by the value of configuration variable
DETECTED_MEMORY
. Specified in MiB.Disk
¶The amount of disk space on this machine available for the job in KiB (for example, 23000 = 23 MiB). Specifically, this is the amount of disk space available in the directory specified in the HTCondor configuration files by the
EXECUTE
macro, minus any space reserved with theRESERVED_DISK
macro. For static slots, this value will be the same as machine ClassAd attributeTotalSlotDisk
. For partitionable slots, this value will be the quantity of disk space remaining in the partitionable slot.Draining
¶This attribute is
True
when the slot is draining and undefined if not.DrainingRequestId
¶This attribute contains a string that is the request id of the draining request that put this slot in a draining state. It is undefined if the slot is not draining.
DotNetVersions
¶The .NET framework versions currently installed on this computer. Default format is a comma delimited list. Current definitions:
"1.1"
for .Net Framework 1.1
"2.0"
for .Net Framework 2.0
"3.0"
for .Net Framework 3.0
"3.5"
for .Net Framework 3.5
"4.0Client"
for .Net Framework 4.0 Client install
"4.0Full"
for .Net Framework 4.0 Full install
DynamicSlot
¶For SMP machines that allow dynamic partitioning of a slot, this boolean value identifies that this dynamic slot may be partitioned.
EnteredCurrentActivity
¶Time at which the machine entered the current Activity (see
Activity
entry above). On all platforms (including NT), this is measured in the number of integer seconds since the Unix epoch (00:00:00 UTC, Jan 1, 1970).ExpectedMachineGracefulDrainingBadput
¶The job run time in cpu-seconds that would be lost if graceful draining were initiated at the time this ClassAd was published. This calculation assumes that jobs will run for the full retirement time and then be evicted.
ExpectedMachineGracefulDrainingCompletion
¶The estimated time at which graceful draining of the machine could complete if it were initiated at the time this ClassAd was published and there are no active claims. This is measured in the number of integer seconds since the Unix epoch (00:00:00 UTC, Jan 1, 1970). This value is computed with the assumption that the machine policy will not suspend jobs during draining while the machine is waiting for the job to use up its retirement time. If suspension happens, the upper bound on how long draining could take is unlimited. To avoid suspension during draining, the
SUSPEND
andCONTINUE
expressions could be configured to pay attention to theDraining
attribute.ExpectedMachineQuickDrainingBadput
¶The job run time in cpu-seconds that would be lost if quick or fast draining were initiated at the time this ClassAd was published. This calculation assumes that all evicted jobs will not save a checkpoint.
ExpectedMachineQuickDrainingCompletion
¶Time at which quick or fast draining of the machine could complete if it were initiated at the time this ClassAd was published and there are no active claims. This is measured in the number of integer seconds since the Unix epoch (00:00:00 UTC, Jan 1, 1970).
FileSystemDomain
¶A domain name configured by the HTCondor administrator which describes a cluster of machines which all access the same, uniformly-mounted, networked file systems usually via NFS or AFS. This is useful for Vanilla universe jobs which require remote file access.
HasContainer
¶A boolean value set to
True
if the machine is capable of executing container universe jobs.HasDocker
¶A boolean value set to
True
if the machine is capable of executing docker universe jobs.DockerCachedImageSizeMb
¶An integer value containing the number of megabytes of space used by the docker image cache for cached images used by a worker node. Excludes any images that may be in the cache that were not placed there by HTCondor.
HasSandboxImage
¶A boolean value set to
True
if the machine is capable of executing container universe jobs with a singularity “sandbox” image typeHasSIF
¶A boolean value set to
True
if the machine is capable of executing container universe jobs with a singularity “SIF” image typeHasEncryptExecuteDirectory
¶A boolean value set to
True
if the machine is capable of encrypting execute directories.HasFileTransfer
¶A boolean value that when
True
identifies that the machine can use the file transfer mechanism.HasFileTransferPluginMethods
¶A string of comma-separated file transfer protocols that the machine can support. The value can be modified with
FILETRANSFER_PLUGINS
as defined in condor_starter Configuration File Entries.HasUserNamespaces
¶A boolean value that when
True
identifies that the jobs on this machine can create user namespaces without root privileges.Has_sse4_1
¶A boolean value set to
True
if the machine being advertised supports the SSE 4.1 instructions, andUndefined
otherwise.Has_sse4_2
¶A boolean value set to
True
if the machine being advertised supports the SSE 4.2 instructions, andUndefined
otherwise.has_ssse3
¶A boolean value set to
True
if the machine being advertised supports the SSSE 3 instructions, andUndefined
otherwise.has_avx
¶A boolean value set to
True
if the machine being advertised supports the avx instructions, andUndefined
otherwise.has_avx2
¶A boolean value set to
True
if the machine being advertised supports the avx2 instructions, andUndefined
otherwise.has_avx512f
¶A boolean value set to
True
if the machine being advertised support the avx512f (foundational) instructions.has_avx512dq
¶A boolean value set to
True
if the machine being advertised support the avx512dq instructions.has_avx512dnni
¶A boolean value set to
True
if the machine being advertised support the avx512dnni instructions.HasSelfCheckpointTransfers
¶A boolean value set to
True
if the machine being advertised supports transferring (checkpoint) files (to the submit node) when the job successfully self-checkpoints.HasSingularity
¶A boolean value set to
True
if the machine being advertised supports running jobs within Singularity containers.HasSshd
¶A boolean value set to
True
if the machine has a /usr/sbin/sshd installed. IfFalse
, condor_ssh_to_job is unlikely to function.HasVM
¶If the configuration triggers the detection of virtual machine software, a boolean value reporting the success thereof; otherwise undefined. May also become
False
if HTCondor determines that it can’t start a VM (even if the appropriate software is detected).IsWakeAble
¶A boolean value that when
True
identifies that the machine has the capability to be woken into a fully powered and running state by receiving a Wake On LAN (WOL) packet. This ability is a function of the operating system, the network adapter in the machine (notably, wireless network adapters usually do not have this function), and BIOS settings. When the condor_startd initializes, it tries to detect if the operating system and network adapter both support waking from hibernation by receipt of a WOL packet. The default value isFalse
.IsWakeEnabled
¶If the hardware and software have the capacity to be woken into a fully powered and running state by receiving a Wake On LAN (WOL) packet, this feature can still be disabled via the BIOS or software. If BIOS or the operating system have disabled this feature, the condor_startd sets this boolean attribute to
False
.JobBusyTimeAvg
¶The Average lifetime of all jobs, including transfer time. This is determined by measuring the lifetime of each condor_starter that has exited. This attribute will be undefined until the first time a condor_starter has exited.
JobBusyTimeCount
¶attribute. This is also the the total number times a condor_starter has exited.
JobBusyTimeMax
¶The Maximum lifetime of all jobs, including transfer time. This is determined by measuring the lifetime of each condor_starter s that has exited. This attribute will be undefined until the first time a condor_starter has exited.
JobBusyTimeMin
¶The Minimum lifetime of all jobs, including transfer time. This is determined by measuring the lifetime of each condor_starter that has exited. This attribute will be undefined until the first time a condor_starter has exited.
RecentJobBusyTimeAvg
¶The Average lifetime of all jobs that have exited in the last 20 minutes, including transfer time. This is determined by measuring the lifetime of each condor_starter that has exited in the last 20 minutes. This attribute will be undefined if no condor_starter has exited in the last 20 minutes.
RecentJobBusyTimeCount
¶The total number of jobs used to calulate the
RecentJobBusyTimeAvg
attribute. This is also the the total number times a condor_starter has exited in the last 20 minutes.RecentJobBusyTimeMax
¶The Maximum lifetime of all jobs that have exited in the last 20 minutes, including transfer time. This is determined by measuring the lifetime of each condor_starter s that has exited in the last 20 minutes. This attribute will be undefined if no condor_starter has exited in the last 20 minutes.
RecentJobBusyTimeMin
¶The Minimum lifetime of all jobs, including transfer time. This is determined by measuring the lifetime of each condor_starter that has exited. This attribute will be undefined if no condor_starter has exited in the last 20 minutes.
JobDurationAvg
¶The Average lifetime time of all jobs, not including time spent transferring files. This attribute will be undefined until the first time a job exits. Jobs that never start (because they fail to transfer input, for instance) will not be included in the average.
JobDurationCount
¶attribute. This is also the the total number times a job has exited. Jobs that never start (because input transfer fails, for instance) are not included in the count.
JobDurationMax
¶The lifetime of the longest lived job that has exited. This attribute will be undefined until the first time a job exits.
JobDurationMin
¶The lifetime of the shortest lived job that has exited. This attribute will be undefined until the first time a job exits.
RecentJobDurationAvg
¶The Average lifetime time of all jobs, not including time spent transferring files, that have exited in the last 20 minutes. This attribute will be undefined if no job has exited in the last 20 minutes.
RecentJobDurationCount
¶The total number of jobs used to calulate the
RecentJobDurationAvg
attribute. This is the total number of jobs that began execution and have exited in the last 20 minutes.RecentJobDurationMax
¶The lifetime of the longest lived job that has exited in the last 20 minutes. This attribute will be undefined if no job has exited in the last 20 minutes.
RecentJobDurationMin
¶The lifetime of the shortest lived job that has exited in the last 20 minutes. This attribute will be undefined if no job has exited in the last 20 minutes.
JobPreemptions
¶The total number of times a running job has been preempted on this machine.
JobRankPreemptions
¶The total number of times a running job has been preempted on this machine due to the machine’s rank of jobs since the condor_startd started running.
JobStarts
¶The total number of jobs which have been started on this machine since the condor_startd started running.
JobUserPrioPreemptions
¶The total number of times a running job has been preempted on this machine based on a fair share allocation of the pool since the condor_startd started running.
JobVM_VCPUS
¶An attribute defined if a vm universe job is running on this slot. Defined by the number of virtualized CPUs in the virtual machine.
KeyboardIdle
¶The number of seconds since activity on any keyboard or mouse associated with this machine has last been detected. Unlike
ConsoleIdle
,KeyboardIdle
also takes activity on pseudo-terminals into account. Pseudo-terminals have virtual keyboard activity from telnet and rlogin sessions. Note thatKeyboardIdle
will always be equal to or less thanConsoleIdle
. The value can be modified withSLOTS_CONNECTED_TO_KEYBOARD
as defined in the condor_startd Configuration File Macros section.KFlops
¶Relative floating point performance as determined via a Linpack benchmark.
LastDrainStartTime
¶Time when draining of this condor_startd was last initiated (e.g. due to condor_defrag or condor_drain).
LastDrainStopTime
¶Time when draining of this condor_startd was last stopped (e.g. by being cancelled).
LastHeardFrom
¶Time when the HTCondor central manager last received a status update from this machine. Expressed as the number of integer seconds since the Unix epoch (00:00:00 UTC, Jan 1, 1970). Note: This attribute is only inserted by the central manager once it receives the ClassAd. It is not present in the condor_startd copy of the ClassAd. Therefore, you could not use this attribute in defining condor_startd expressions (and you would not want to).
LoadAvg
¶A floating point number representing the current load average.
Machine
¶A string with the machine’s fully qualified host name.
MachineMaxVacateTime
¶An integer expression that specifies the time in seconds the machine will allow the job to gracefully shut down.
MaxClaimTime
¶The maximum number of seconds that the slot may remain in the Claimed state before returning to the Unclaimed state. Currently, this only applies to partitionable slots.
MaxJobRetirementTime
¶When the condor_startd wants to kick the job off, a job which has run for less than this number of seconds will not be hard-killed. The condor_startd will wait for the job to finish or to exceed this amount of time, whichever comes sooner. If the job vacating policy grants the job X seconds of vacating time, a preempted job will be soft-killed X seconds before the end of its retirement time, so that hard-killing of the job will not happen until the end of the retirement time if the job does not finish shutting down before then. This is an expression evaluated in the context of the job ClassAd, so it may refer to job attributes as well as machine attributes.
Memory
¶The amount of RAM in MiB in this slot. For static slots, this value will be the same as in
TotalSlotMemory
. For a partitionable slot, this value will be the quantity remaining in the partitionable slot.Mips
¶Relative integer performance as determined via a Dhrystone benchmark.
MonitorSelfAge
¶The number of seconds that this daemon has been running.
MonitorSelfCPUUsage
¶The fraction of recent CPU time utilized by this daemon.
MonitorSelfImageSize
¶The amount of virtual memory consumed by this daemon in KiB.
MonitorSelfRegisteredSocketCount
¶The current number of sockets registered by this daemon.
MonitorSelfResidentSetSize
¶The amount of resident memory used by this daemon in KiB.
MonitorSelfSecuritySessions
¶The number of open (cached) security sessions for this daemon.
MonitorSelfTime
¶The time, represented as the number of second elapsed since the Unix epoch (00:00:00 UTC, Jan 1, 1970), at which this daemon last checked and set the attributes with names that begin with the string
MonitorSelf
.MyAddress
¶String with the IP and port address of the condor_startd daemon which is publishing this machine ClassAd. When using CCB, condor_shared_port, and/or an additional private network interface, that information will be included here as well.
MyCurrentTime
¶The time, represented as the number of second elapsed since the Unix epoch (00:00:00 UTC, Jan 1, 1970), at which the condor_startd daemon last sent a ClassAd update to the condor_collector.
MyType
¶The ClassAd type; always set to the literal string
"Machine"
.Name
¶The name of this resource; typically the same value as the
Machine
attribute, but could be customized by the site administrator. On SMP machines, the condor_startd will divide the CPUs up into separate slots, each with with a unique name. These names will be of the form “slot#@full.hostname”, for example, “slot1@vulture.cs.wisc.edu”, which signifies slot number 1 from vulture.cs.wisc.edu.Offline
¶A string that lists specific instances of a user-defined machine resource, identified by
name
. Each instance is currently unavailable for purposes of match making.OfflineUniverses
¶A ClassAd list that specifies which job universes are presently offline, both as strings and as the corresponding job universe number. Could be used the the startd to refuse to start jobs in offline universes:
START = OfflineUniverses is undefined || (! member( JobUniverse, OfflineUniverses ))
May currently only contain
"VM"
and13
.OpSys
¶String describing the operating system running on this machine. Currently supported operating systems have the following string definitions:
"LINUX"
for LINUX 2.0.x, LINUX 2.2.x, LINUX 2.4.x, LINUX 2.6.x, or LINUX 3.10.0 kernel systems, as well as Scientific Linux, Ubuntu versions 14.04, and Debian 7.0 (wheezy) and 8.0 (jessie)
"OSX"
for Darwin
"FREEBSD7"
for FreeBSD 7
"FREEBSD8"
for FreeBSD 8
"WINDOWS"
for all versions of Windows
OpSysAndVer
¶A string indicating an operating system and a version number.
For Linux operating systems, it is the value of the
OpSysName
attribute concatenated with the string version of theOpSysMajorVer
attribute:"RedHat5"
for RedHat Linux version 5
"RedHat6"
for RedHat Linux version 6
"RedHat7"
for RedHat Linux version 7
"Fedora16"
for Fedora Linux version 16
"Debian6"
for Debian Linux version 6
"Debian7"
for Debian Linux version 7
"Debian8"
for Debian Linux version 8
"Debian9"
for Debian Linux version 9
"Ubuntu14"
for Ubuntu 14.04
"SL5"
for Scientific Linux version 5
"SL6"
for Scientific Linux version 6
"SLFermi5"
for Fermi’s Scientific Linux version 5
"SLFermi6"
for Fermi’s Scientific Linux version 6
"SLCern5"
for CERN’s Scientific Linux version 5
"SLCern6"
for CERN’s Scientific Linux version 6
For MacOS operating systems, it is the value of the
OpSysShortName
attribute concatenated with the string version of theOpSysVer
attribute:"MacOSX605"
for MacOS version 10.6.5 (Snow Leopard)
"MacOSX703"
for MacOS version 10.7.3 (Lion)
For BSD operating systems, it is the value of the
OpSysName
attribute concatenated with the string version of theOpSysMajorVer
attribute:"FREEBSD7"
for FreeBSD version 7
"FREEBSD8"
for FreeBSD version 8
For Windows operating systems, it is the value of the
OpSys
attribute concatenated with the string version of theOpSysMajorVer
attribute:"WINDOWS500"
for Windows 2000
"WINDOWS501"
for Windows XP
"WINDOWS502"
for Windows Server 2003
"WINDOWS600"
for Windows Vista
"WINDOWS601"
for Windows 7
OpSysLegacy
¶A string that holds the long-standing values for the
OpSys
attribute. Currently supported operating systems have the following string definitions:"LINUX"
for LINUX 2.0.x, LINUX 2.2.x, LINUX 2.4.x, LINUX 2.6.x, or LINUX 3.10.0 kernel systems, as well as Scientific Linux, Ubuntu versions 14.04, and Debian 7 and 8
"OSX"
for Darwin
"FREEBSD7"
for FreeBSD version 7
"FREEBSD8"
for FreeBSD version 8
"WINDOWS"
for all versions of Windows
OpSysLongName
¶A string giving a full description of the operating system. For Linux platforms, this is generally the string taken from
/etc/hosts
, with extra characters stripped off Debian versions."Red Hat Enterprise Linux Server release 6.2 (Santiago)"
for RedHat Linux version 6
"Red Hat Enterprise Linux Server release 7.0 (Maipo)"
for RedHat Linux version 7.0
"Ubuntu 14.04.1 LTS"
for Ubuntu 14.04 point release 1
"Debian GNU/Linux 8"
for Debian 8.0 (jessie)
"Fedora release 16 (Verne)"
for Fedora Linux version 16
"MacOSX 7.3"
for MacOS version 10.7.3 (Lion)
"FreeBSD8.2-RELEASE-p3"
for FreeBSD version 8
"Windows XP SP3"
for Windows XP
"Windows 7 SP2"
for Windows 7
OpSysMajorVer
¶An integer value representing the major version of the operating system.
5
for RedHat Linux version 5 and derived platforms such as Scientific Linux
6
for RedHat Linux version 6 and derived platforms such as Scientific Linux
7
for RedHat Linux version 7
14
for Ubuntu 14.04
7
for Debian 7
8
for Debian 8
16
for Fedora Linux version 16
6
for MacOS version 10.6.5 (Snow Leopard)
7
for MacOS version 10.7.3 (Lion)
7
for FreeBSD version 7
8
for FreeBSD version 8
501
for Windows XP
600
for Windows Vista
601
for Windows 7
OpSysName
¶A string containing a terse description of the operating system.
"RedHat"
for RedHat Linux version 6 and 7
"Fedora"
for Fedora Linux version 16
"Ubuntu"
for Ubuntu versions 14.04
"Debian"
for Debian versions 7 and 8
"SnowLeopard"
for MacOS version 10.6.5 (Snow Leopard)
"Lion"
for MacOS version 10.7.3 (Lion)
"FREEBSD"
for FreeBSD version 7 or 8
"WindowsXP"
for Windows XP
"WindowsVista"
for Windows Vista
"Windows7"
for Windows 7
"SL"
for Scientific Linux
"SLFermi"
for Fermi’s Scientific Linux
"SLCern"
for CERN’s Scientific Linux
OpSysShortName
¶A string containing a short name for the operating system.
"RedHat"
for RedHat Linux version 5, 6 or 7
"Fedora"
for Fedora Linux version 16
"Debian"
for Debian Linux version 6 or 7 or 8
"Ubuntu"
for Ubuntu versions 14.04
"MacOSX"
for MacOS version 10.6.5 (Snow Leopard) or for MacOS version 10.7.3 (Lion)
"FreeBSD"
for FreeBSD version 7 or 8
"XP"
for Windows XP
"Vista"
for Windows Vista
"7"
for Windows 7
"SL"
for Scientific Linux
"SLFermi"
for Fermi’s Scientific Linux
"SLCern"
for CERN’s Scientific Linux
OpSysVer
¶An integer value representing the operating system version number.
700
for RedHat Linux version 7.0
602
for RedHat Linux version 6.2
1600
for Fedora Linux version 16.0
1404
for Ubuntu 14.04
700
for Debian 7.0
800
for Debian 8.0
704
for FreeBSD version 7.4
802
for FreeBSD version 8.2
605
for MacOS version 10.6.5 (Snow Leopard)
703
for MacOS version 10.7.3 (Lion)
500
for Windows 2000
501
for Windows XP
502
for Windows Server 2003
600
for Windows Vista or Windows Server 2008
601
for Windows 7 or Windows Server 2008
PartitionableSlot
¶For SMP machines, a boolean value identifying that this slot may be partitioned.
RecentJobPreemptions
¶The total number of jobs which have been preempted from this machine in the last twenty minutes.
RecentJobRankPreemptions
¶The total number of times a running job has been preempted on this machine due to the machine’s rank of jobs in the last twenty minutes.
RecentJobStarts
¶The total number of jobs which have been started on this machine in the last twenty minutes.
RecentJobUserPrioPreemptions
¶The total number of times a running job has been preempted on this machine based on a fair share allocation of the pool in the last twenty minutes.
Requirements
¶A boolean, which when evaluated within the context of the machine ClassAd and a job ClassAd, must evaluate to TRUE before HTCondor will allow the job to use this machine.
RetirementTimeRemaining
¶ when therunning job can be evicted.
MaxJobRetirementTime
is the expression of how much retirement time the machine offers to new jobs, whereasRetirementTimeRemaining
is the negotiated amount of time remaining for the current running job. This may be less than the amount offered by the machine’sMaxJobRetirementTime
expression, because the job may ask for less.SingularityVersion
¶A string containing the version of Singularity available, if the machine being advertised supports running jobs within a Singularity container (see
HasSingularity
).SlotID
¶For SMP machines, the integer that identifies the slot. The value will be X for the slot with
name="slotX@full.hostname"
For non-SMP machines with one slot, the value will be 1.
SlotType
¶For SMP machines with partitionable slots, the partitionable slot will have this attribute set to
"Partitionable"
, and all dynamic slots will have this attribute set to"Dynamic"
.SlotWeight
¶This specifies the weight of the slot when calculating usage, computing fair shares, and enforcing group quotas. For example, claiming a slot with
SlotWeight = 2
is equivalent to claiming twoSlotWeight = 1
slots. See the description ofSlotWeight
in condor_startd Configuration File Macros.StartdIpAddr
¶String with the IP and port address of the condor_startd daemon which is publishing this machine ClassAd. When using CCB, condor_shared_port, and/or an additional private network interface, that information will be included here as well.
State
¶String which publishes the machine’s HTCondor state. Can be:
"Owner"
The machine owner is using the machine, and it is unavailable to HTCondor.
"Unclaimed"
The machine is available to run HTCondor jobs, but a good match is either not available or not yet found.
"Matched"
The HTCondor central manager has found a good match for this resource, but an HTCondor scheduler has not yet claimed it.
"Claimed"
The machine is claimed by a remote condor_schedd and is probably running a job.
"Preempting"
An HTCondor job is being preempted in order to clear the machine for either a higher priority job or because the machine owner wants the machine back.
"Drained"
This slot is not accepting jobs, because the machine is being drained.
TargetType
¶Describes what type of ClassAd to match with. Always set to the string literal
"Job"
, because machine ClassAds always want to be matched with jobs, and vice-versa.TotalCondorLoadAvg
¶The load average contributed by HTCondor summed across all slots on the machine, either from remote jobs or running benchmarks.
TotalCpus
¶The number of CPUs (cores) that are on the machine. This is in contrast with
Cpus
, which is the number of CPUs in the slot.TotalDisk
¶The quantity of disk space in KiB available across the machine (not the slot). For partitionable slots, where there is one partitionable slot per machine, this value will be the same as machine ClassAd attribute
TotalSlotDisk
.TotalLoadAvg
¶A floating point number representing the current load average summed across all slots on the machine.
TotalMachineDrainingBadput
¶The total job runtime in cpu-seconds that has been lost due to job evictions caused by draining since this condor_startd began executing. In this calculation, it is assumed that jobs are evicted without checkpointing.
TotalMachineDrainingUnclaimedTime
¶The total machine-wide time in cpu-seconds that has not been used (i.e. not matched to a job submitter) due to draining since this condor_startd began executing.
TotalMemory
¶The quantity of RAM in MiB available across the machine (not the slot). For partitionable slots, where there is one partitionable slot per machine, this value will be the same as machine ClassAd attribute
TotalSlotMemory
.TotalSlotCpus
¶The number of CPUs (cores) in this slot. For static slots, this value will be the same as in
Cpus
.TotalSlotDisk
¶The quantity of disk space in KiB given to this slot. For static slots, this value will be the same as machine ClassAd attribute
Disk
. For partitionable slots, where there is one partitionable slot per machine, this value will be the same as machine ClassAd attributeTotalDisk
.TotalSlotMemory
¶The quantity of RAM in MiB given to this slot. For static slots, this value will be the same as machine ClassAd attribute
Memory
. For partitionable slots, where there is one partitionable slot per machine, this value will be the same as machine ClassAd attributeTotalMemory
.TotalSlots
¶A sum of the static slots, partitionable slots, and dynamic slots on the machine at the current time.
TotalTimeBackfillBusy
¶The number of seconds that this machine (slot) has accumulated within the backfill busy state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimeBackfillIdle
¶The number of seconds that this machine (slot) has accumulated within the backfill idle state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimeBackfillKilling
¶The number of seconds that this machine (slot) has accumulated within the backfill killing state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimeClaimedBusy
¶The number of seconds that this machine (slot) has accumulated within the claimed busy state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimeClaimedIdle
¶The number of seconds that this machine (slot) has accumulated within the claimed idle state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimeClaimedRetiring
¶The number of seconds that this machine (slot) has accumulated within the claimed retiring state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimeClaimedSuspended
¶The number of seconds that this machine (slot) has accumulated within the claimed suspended state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimeMatchedIdle
¶The number of seconds that this machine (slot) has accumulated within the matched idle state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimeOwnerIdle
¶The number of seconds that this machine (slot) has accumulated within the owner idle state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimePreemptingKilling
¶The number of seconds that this machine (slot) has accumulated within the preempting killing state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimePreemptingVacating
¶The number of seconds that this machine (slot) has accumulated within the preempting vacating state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimeUnclaimedBenchmarking
¶The number of seconds that this machine (slot) has accumulated within the unclaimed benchmarking state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
TotalTimeUnclaimedIdle
¶The number of seconds that this machine (slot) has accumulated within the unclaimed idle state and activity pair since the condor_startd began executing. This attribute will only be defined if it has a value greater than 0.
UidDomain
¶file entries, and therefore all have the same logins.
VirtualMemory
¶The amount of currently available virtual memory (swap space) expressed in KiB. On Linux platforms, it is the sum of paging space and physical memory, which more accurately represents the virtual memory size of the machine.
VM_AvailNum
¶The maximum number of vm universe jobs that can be started on this machine. This maximum is set by the configuration variable
VM_MAX_NUMBER
.VM_Guest_Mem
¶An attribute defined if a vm universe job is running on this slot. Defined by the amount of memory in use by the virtual machine, given in Mbytes.
VM_Memory
¶Gives the amount of memory available for starting additional VM jobs on this machine, given in Mbytes. The maximum value is set by the configuration variable
VM_MEMORY
.VM_Networking
¶A boolean value indicating whether networking is allowed for virtual machines on this machine.
VM_Type
¶The type of virtual machine software that can run on this machine. The value is set by the configuration variable
VM_TYPE
VMOfflineReason
¶The reason the VM universe went offline (usually because a VM universe job failed to launch).
VMOfflineTime
¶The time that the VM universe went offline.
WindowsBuildNumber
¶An integer, extracted from the platform type, representing a build number for a Windows operating system. This attribute only exists on Windows machines.
WindowsMajorVersion
¶An integer, extracted from the platform type, representing a major version number (currently 5 or 6) for a Windows operating system. This attribute only exists on Windows machines.
WindowsMinorVersion
¶An integer, extracted from the platform type, representing a minor version number (currently 0, 1, or 2) for a Windows operating system. This attribute only exists on Windows machines.
In addition, there are a few attributes that are automatically inserted into the machine ClassAd whenever a resource is in the Claimed state:
ClientMachine
¶The host name of the machine that has claimed this resource
RemoteAutoregroup
¶A boolean attribute which is
True
if this resource was claimed via negotiation when the configuration variableGROUP_AUTOREGROUP
isTrue
. It isFalse
otherwise.RemoteGroup
¶The accounting group name corresponding to the submitter that claimed this resource.
RemoteNegotiatingGroup
¶The accounting group name under which this resource negotiated when it was claimed. This attribute will frequently be the same as attribute
RemoteGroup
, but it may differ in cases such as when configuration variableGROUP_AUTOREGROUP
isTrue
, in which case it will have the name of the root group, identified as<none>
.RemoteOwner
¶The name of the user who originally claimed this resource.
RemoteUser
¶The name of the user who is currently using this resource. In general, this will always be the same as the
RemoteOwner
, but in some cases, a resource can be claimed by one entity that hands off the resource to another entity which uses it. In that case,RemoteUser
would hold the name of the entity currently using the resource, whileRemoteOwner
would hold the name of the entity that claimed the resource.RemoteScheddName
¶The name of the condor_schedd which claimed this resource.
PreemptingOwner
¶The name of the user who is preempting the job that is currently running on this resource.
PreemptingUser
¶The name of the user who is preempting the job that is currently running on this resource. The relationship between
PreemptingUser
andPreemptingOwner
is the same as the relationship betweenRemoteUser
andRemoteOwner
.PreemptingRank
¶A float which represents this machine owner’s affinity for running the HTCondor job which is waiting for the current job to finish or be preempted. If not currently hosting an HTCondor job,
PreemptingRank
is undefined. When a machine is claimed and there is already a job running, the attribute’s value is computed by evaluating the machine’sRank
expression with respect to the preempting job’s ClassAd.TotalClaimRunTime
¶A running total of the amount of time (in seconds) that all jobs (under the same claim) ran (have spent in the Claimed/Busy state).
TotalClaimSuspendTime
¶A running total of the amount of time (in seconds) that all jobs (under the same claim) have been suspended (in the Claimed/Suspended state).
TotalJobRunTime
¶A running total of the amount of time (in seconds) that a single job ran (has spent in the Claimed/Busy state).
TotalJobSuspendTime
¶A running total of the amount of time (in seconds) that a single job has been suspended (in the Claimed/Suspended state).
There are a few attributes that are only inserted into the machine ClassAd if a job is currently executing. If the resource is claimed but no job are running, none of these attributes will be defined.
JobId
¶The job’s identifier (for example, 152.3), as seen from condor_q on the submitting machine.
JobStart
¶The time stamp in integer seconds of when the job began executing, since the Unix epoch (00:00:00 UTC, Jan 1, 1970). For idle machines, the value is
UNDEFINED
.LastPeriodicCheckpoint
¶If the job has performed a periodic checkpoint, this attribute will be defined and will hold the time stamp of when the last periodic checkpoint was begun. If the job has yet to perform a periodic checkpoint, or cannot checkpoint at all, the
LastPeriodicCheckpoint
attribute will not be defined.
There are a few attributes that are applicable to machines that are offline, that is, hibernating.
MachineLastMatchTime
¶The Unix epoch time when this offline ClassAd would have been matched to a job, if the machine were online. In addition, the slot1 ClassAd of a multi-slot machine will have
slot<X>_MachineLastMatchTime
defined, where<X>
is replaced by the slot id of each of the slots withMachineLastMatchTime
defined.Offline
¶A boolean value, that when
True
, indicates this machine is in an offline state in the condor_collector. Such ClassAds are stored persistently, such that they will continue to exist after the condor_collector restarts.Unhibernate
¶A boolean expression that specifies when a hibernating machine should be woken up, for example, by condor_rooster.
For machines with user-defined or custom resource specifications,
including GPUs, the following attributes will be in the ClassAd for each
slot. In the name of the attribute, <name>
is substituted with the
configured name given to the resource.
Assigned<name>
¶A space separated list that identifies which of these resources are currently assigned to slots.
Offline<name>
¶A space separated list that indicates which of these resources is unavailable for match making.
Total<name>
¶An integer quantity of the total number of these resources.
For machines with custom resource specifications that include GPUs, the
following attributes may be in the ClassAd for each slot, depending on
the value of configuration variable MACHINE_RESOURCE_INVENTORY_GPUs
and what GPUs are
detected. In the name of the attribute, <name>
is substituted with
the prefix string assigned for the GPU.
<name>BoardTempC
¶For NVIDIA devices, a dynamic attribute representing the temperature in Celsius of the board containing the GPU.
<name>Capability
¶The CUDA-defined capability for the GPU.
<name>ClockMhz
¶For CUDA or Open CL devices, the integer clocking speed of the GPU in MHz.
<name>ComputeUnits
¶For CUDA or Open CL devices, the integer number of compute units per GPU.
<name>CoresPerCU
¶For CUDA devices, the integer number of cores per compute unit.
<name>DeviceName
¶For CUDA or Open CL devices, a string representing the manufacturer’s proprietary device name.
<name>DieTempC
¶For NVIDIA devices, a dynamic attribute representing the temperature in Celsius of the GPU die.
<name>DriverVersion
¶For CUDA devices, a string representing the manufacturer’s driver version.
<name>ECCEnabled
¶For CUDA or Open CL devices, a boolean value representing whether error correction is enabled.
<name>EccErrorsDoubleBit
¶For NVIDIA devices, a count of the number of double bit errors detected for this GPU.
<name>EccErrorsSingleBit
¶For NVIDIA devices, a count of the number of single bit errors detected for this GPU.
<name>FanSpeedPct
¶For NVIDIA devices, a value between 0 and 100 (inclusive), used to represent the level of fan operation as percentage of full fan speed.
<name>GlobalMemoryMb
¶For CUDA or Open CL devices, the quantity of memory in Mbytes in this GPU.
<name>OpenCLVersion
¶For Open CL devices, a string representing the manufacturer’s version number.
<name>RuntimeVersion
¶For CUDA devices, a string representing the manufacturer’s version number.
The following attributes are advertised for a machine in which partitionable slot preemption is enabled.
ChildAccountingGroup
¶A ClassAd list containing the values of the
AccountingGroup
attribute for each dynamic slot of the partitionable slot.ChildActivity
¶A ClassAd list containing the values of the
Activity
attribute for each dynamic slot of the partitionable slot.ChildCpus
¶A ClassAd list containing the values of the
Cpus
attribute for each dynamic slot of the partitionable slot.ChildCurrentRank
¶A ClassAd list containing the values of the
CurrentRank
attribute for each dynamic slot of the partitionable slot.ChildEnteredCurrentState
¶A ClassAd list containing the values of the
EnteredCurrentState
attribute for each dynamic slot of the partitionable slot.ChildMemory
¶A ClassAd list containing the values of the
Memory
attribute for each dynamic slot of the partitionable slot.ChildName
¶A ClassAd list containing the values of the
Name
attribute for each dynamic slot of the partitionable slot.ChildRemoteOwner
¶A ClassAd list containing the values of the
RemoteOwner
attribute for each dynamic slot of the partitionable slot.ChildRemoteUser
¶A ClassAd list containing the values of the
RemoteUser
attribute for each dynamic slot of the partitionable slot.ChildRetirementTimeRemaining
¶A ClassAd list containing the values of the
RetirementTimeRemaining
attribute for each dynamic slot of the partitionable slot.ChildState
¶A ClassAd list containing the values of the
State
attribute for each dynamic slot of the partitionable slot.PslotRollupInformation
¶A boolean value set to
True
in both the partitionable and dynamic slots, when configuration variableADVERTISE_PSLOT_ROLLUP_INFORMATION
isTrue
, such that the condor_negotiator knows when partitionable slot preemption is possible and can directly preempt a dynamic slot when appropriate.
The single attribute, CurrentTime
, is defined by the
ClassAd environment.
CurrentTime
¶Evaluates to the the number of integer seconds since the Unix epoch (00:00:00 UTC, Jan 1, 1970).
Common Cloud Attributes
The following attributes are advertised when
use feature:CommonCloudAttributesGoogle
or
use feature:CommonCloudAttributesAWS
is enabled. All values are strings.
CloudImage
¶Identifies the VM image. (“image” or “AMI ID”)
CloudVMType
¶Identifies the type of resource allocated. (“machine type” or “instance type”)
CloudRegion
¶Identifies the geographic area in which the instance is running.
CloudZone
¶Identifies a specific (“availability”) zone within the region.
CloudProvider
¶Presently, either
"Google"
or"AWS"
.CloudPlatform
¶Presently, either
"GCE"
or"EC2"
.CloudInstanceID
¶The instance’s identifier with its provider (on its platform).
CloudInterruptible
¶"True"
if the instance, and"False"
otherwise.