Manpages - numactl.8
NAME
numactl - Control NUMA policy for processes or shared memory
SYNOPSIS
numactl [ –all ] [ –interleave nodes ] [ –preferred node ] [
–membind nodes ] [ –cpunodebind nodes ] [ –physcpubind cpus ] [
–localalloc ] [–] command {arguments …}
numactl –show
numactl –hardware
numactl [ –huge ] [ –offset offset ] [ –shmmode shmmode ] [
–length length ] [ –strict ]
[ –shmid id ] –shm shmkeyfile | –file tmpfsfile
[ –touch ] [ –dump ] [ –dump-nodes ] memory policy
DESCRIPTION
numactl runs processes with a specific NUMA scheduling or memory placement policy. The policy is set for command and inherited by all of its children. In addition it can set persistent policy for shared memory segments or files.
Use – before command if using command options that could be confused with numactl options.
nodes may be specified as N,N,N or N-N or N,N-N or N-N,N-N and so forth. Relative nodes may be specifed as +N,N,N or +N-N or +N,N-N and so forth. The + indicates that the node numbers are relative to the process’ set of allowed nodes in its current cpuset. A !N-N notation indicates the inverse of N-N, in other words all nodes except N-N. If used with + notation, specify !+N-N. When same is specified the previous nodemask specified on the command line is used. all means all nodes in the current cpuset.
Instead of a number a node can also be:
netdev:DEV | The node connected to network device DEV. |
PATH | The node the block device of PATH. |
ip:HOST | The node of the network device of HOST |
block:PATH | The node of block device PATH |
pci:[seg:]bus:dev[:func] | The node of a PCI device. |
Note that block resolves the kernel block device names only for udev names in dev use /file:
- Policy settings are:
- –all, -a
- Unset default cpuset awareness, so user can use all possible CPUs/nodes for following policy settings.
- –interleave=nodes, -i nodes
- Set a memory interleave policy. Memory will be allocated using round robin on nodes. When memory cannot be allocated on the current interleave target fall back to other nodes. Multiple nodes may be specified on –interleave, –membind and –cpunodebind.
- –membind=nodes, -m nodes
- Only allocate memory from nodes. Allocation will fail when there is not enough memory available on these nodes. nodes may be specified as noted above.
- –cpunodebind=nodes, -N nodes
- Only execute command on the CPUs of nodes. Note that nodes may consist of multiple CPUs. nodes may be specified as noted above.
- –physcpubind=cpus, -C cpus
- Only execute process on cpus. This accepts cpu numbers as shown in the processor fields of /proc/cpuinfo, or relative cpus as in relative to the current cpuset. You may specify “all”, which means all cpus in the current cpuset. Physical cpus may be specified as N,N,N or N-N or N,N-N or N-N,N-N and so forth. Relative cpus may be specifed as +N,N,N or +N-N or +N,N-N and so forth. The + indicates that the cpu numbers are relative to the process’ set of allowed cpus in its current cpuset. A !N-N notation indicates the inverse of N-N, in other words all cpus except N-N. If used with + notation, specify !+N-N.
- –localalloc, -l
- Try to allocate on the current node of the process, but if memory cannot be allocated there fall back to other nodes.
- –preferred=node
- Preferably allocate memory on node, but if memory cannot be allocated there fall back to other nodes. This option takes only a single node number. Relative notation may be used.
- –show, -s
- Show NUMA policy settings of the current process.
- –hardware, -H
- Show inventory of available nodes on the system.
- (no term)
- Numactl can set up policy for a SYSV shared memory segment or a file in shmfs/hugetlbfs. :: This policy is persistent and will be used by all mappings from that shared memory. The order of options matters here. The specification must at least include either of –shm, –shmid, –file to specify the shared memory segment or file and a memory policy like described above ( –interleave, –localalloc, –preferred, –membind ).
- –huge
- When creating a SYSV shared memory segment use huge pages. Only valid before –shmid or –shm
- –offset
- Specify offset into the shared memory segment. Default 0. Valid units are m (for MB), g (for GB), k (for KB), otherwise it specifies bytes.
- –strict
- Give an error when a page in the policied area in the shared memory segment already was faulted in with a conflicting policy. Default is to silently ignore this.
- –shmmode shmmode
- Only valid before –shmid or –shm When creating a shared memory segment set it to numeric mode shmmode.
- –length length
- Apply policy to length range in the shared memory segment or make the segment length long Default is to use the remaining length Required when a shared memory segment is created and specifies the length of the new segment then. Valid units are m (for MB), g (for GB), k (for KB), otherwise it specifies bytes.
- –shmid id
- Create or use an shared memory segment with numeric ID id
- –shm shmkeyfile
- Create or use an shared memory segment, with the ID generated using ftok(3) from shmkeyfile
- –file tmpfsfile
- Set policy for a file in tmpfs or hugetlbfs
- –touch
- Touch pages to enforce policy early. Default is to not touch them, the policy is applied when an applications maps and accesses a page.
- –dump
- Dump policy in the specified range.
- –dump-nodes
- Dump all nodes of the specific range (very verbose!)
- Valid node specifiers
all | All nodes |
number | Node number |
number1{,number2} | Node number1 and Node number2 |
number1-number2 | Nodes from number1 to number2 |
! nodes | Invert selection of the following specification. |
EXAMPLES
numactl –physcpubind=+0-4,8-12 myapplic arguments Run myapplic on cpus 0-4 and 8-12 of the current cpuset.
numactl –interleave=all bigdatabase arguments Run big database with its memory interleaved on all CPUs.
numactl –cpunodebind=0 –membind=0,1 process Run process on node 0 with memory allocated on node 0 and 1.
numactl –cpunodebind=0 –membind=0,1 – process -l Run process as above, but with an option (-l) that would be confused with a numactl option.
numactl –cpunodebind=netdev:eth0 –membind=netdev:eth0 network-server Run network-server on the node of network device eth0 with its memory also in the same node.
numactl –preferred=1 numactl –show Set preferred node 1 and show the resulting state.
numactl –interleave=all –shm /tmp/shmkey Interleave all of the sysv shared memory region specified by /tmp/shmkey over all nodes.
Place a tmpfs file on 2 nodes: numactl –membind=2 dd if=/dev/zero of=/dev/shm/A bs=1M count=1024 numactl –membind=3 dd if=/dev/zero of=/dev/shm/A seek=1024 bs=1M count=1024
numactl –localalloc dev/shm/file Reset the policy for the shared memory file /file to the default localalloc policy.
NOTES
Requires an NUMA policy aware kernel.
Command is not executed using a shell. If you want to use shell metacharacters in the child use sh -c as wrapper.
Setting policy for a hugetlbfs file does currently not work because it cannot be extended by truncate.
Shared memory segments larger than numactl’s address space cannot be completely policied. This could be a problem on 32bit architectures. Changing it piece by piece may work.
The old –cpubind which accepts node numbers, not cpu numbers, is deprecated and replaced with the new –cpunodebind and –physcpubind options.
FILES
/proc/cpuinfo for the listing of active CPUs. See proc(5) for details.
/sys/devices/system/node/node*/numastat for NUMA memory hit statistics.
COPYRIGHT
Copyright 2002,2004 Andi Kleen, SuSE Labs. numactl and the demo programs are under the GNU General Public License, v.2
SEE ALSO
set_mempolicy(2) , get_mempolicy(2) , mbind(2) , sched_setaffinity(2) , sched_getaffinity(2) , proc(5) , ftok(3) , shmat(2) , migratepages(8)