xref: /freebsd/share/man/man4/numa.4 (revision e8d8bef961a50d4dc22501cde4fb9fb0be1b2532)
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25.\" $FreeBSD$
26.\"
27.Dd October 22, 2018
28.Dt NUMA 4
29.Os
30.Sh NAME
31.Nm NUMA
32.Nd Non-Uniform Memory Access
33.Sh SYNOPSIS
34.Cd options MAXMEMDOM
35.Cd options NUMA
36.Pp
37.Sh DESCRIPTION
38Non-Uniform Memory Access is a computer architecture design which
39involves unequal costs between processors, memory and IO devices
40in a given system.
41.Pp
42In a
43.Nm
44architecture, the latency to access specific memory or IO devices
45depends upon which processor the memory or device is attached to.
46Accessing memory local to a processor is faster than accessing memory
47that is connected to one of the other processors.
48.Fx
49implements NUMA-aware memory allocation policies.
50By default it attempts to ensure that allocations are balanced across
51each domain.
52Users may override the default domain selection policy using
53.Xr cpuset 1 .
54.Pp
55.Nm
56support is enabled when the
57.Cd NUMA
58option is specified in the kernel configuration file.
59Each platform defines the
60.Cd MAXMEMDOM
61constant, which specifies the maximum number of supported NUMA domains.
62This constant may be specified in the kernel configuration file.
63.Nm
64support can be disabled at boot time by setting the
65.Va vm.numa.disabled
66tunable to 1.
67Other values for this tunable are currently ignored.
68.Pp
69Thread and process
70.Nm
71policies are controlled with the
72.Xr cpuset_getdomain 2
73and
74.Xr cpuset_setdomain 2
75syscalls.
76The
77.Xr cpuset 1
78tool is available for starting processes with a non-default
79policy, or to change the policy of an existing thread or process.
80See
81.Xr SMP 4
82for information about CPU to domain mapping.
83.Pp
84Systems with non-uniform access to I/O devices may mark those devices
85with the local VM domain identifier.
86Drivers can find out their local domain information by calling
87.Xr bus_get_domain 9 .
88.Ss MIB Variables
89The operation of
90.Nm
91is controlled and exposes information with these
92.Xr sysctl 8
93MIB variables:
94.Pp
95.Bl -tag -width indent -compact
96.It Va vm.ndomains
97The number of VM domains which have been detected.
98.Pp
99.It Va vm.phys_locality
100A table indicating the relative cost of each VM domain to each other.
101A value of 10 indicates equal cost.
102A value of -1 means the locality map is not available or no
103locality information is available.
104.Pp
105.It Va vm.phys_segs
106The map of physical memory, grouped by VM domain.
107.El
108.Sh IMPLEMENTATION NOTES
109The current
110.Nm
111implementation is VM-focused.
112The hardware
113.Nm
114domains are mapped into a contiguous, non-sparse
115VM domain space, starting from 0.
116Thus, VM domain information (for example, the domain identifier) is not
117necessarily the same as is found in the hardware specific information.
118Policy information is available in both struct thread and struct proc.
119.Sh SEE ALSO
120.Xr cpuset 1 ,
121.Xr cpuset_getaffinity 2 ,
122.Xr cpuset_setaffinity 2 ,
123.Xr SMP 4 ,
124.Xr bus_get_domain 9
125.Sh HISTORY
126.Nm
127first appeared in
128.Fx 9.0
129as a first-touch allocation policy with a fail-over to round-robin allocation
130and was not configurable.
131It was then modified in
132.Fx 10.0
133to implement a round-robin allocation policy and was also not configurable.
134.Pp
135The
136.Xr numa_getaffinity 2
137and
138.Xr numa_setaffinity 2
139syscalls and the
140.Xr numactl 1
141tool first appeared in
142.Fx 11.0
143and were removed in
144.Fx 12.0 .
145The current implementation appeared in
146.Fx 12.0 .
147.Pp
148.Sh AUTHORS
149This manual page written by
150.An Adrian Chadd Aq Mt adrian@FreeBSD.org .
151.Sh NOTES
152No statistics are kept to indicate how often
153.Nm
154allocation policies succeed or fail.
155