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Peter W Morrealedb0fb182009-01-15 13:50:42 -08001Documentation for /proc/sys/vm/* kernel version 2.6.29
Linus Torvalds1da177e2005-04-16 15:20:36 -07002 (c) 1998, 1999, Rik van Riel <riel@nl.linux.org>
Peter W Morrealedb0fb182009-01-15 13:50:42 -08003 (c) 2008 Peter W. Morreale <pmorreale@novell.com>
Linus Torvalds1da177e2005-04-16 15:20:36 -07004
5For general info and legal blurb, please look in README.
6
7==============================================================
8
9This file contains the documentation for the sysctl files in
Peter W Morrealedb0fb182009-01-15 13:50:42 -080010/proc/sys/vm and is valid for Linux kernel version 2.6.29.
Linus Torvalds1da177e2005-04-16 15:20:36 -070011
12The files in this directory can be used to tune the operation
13of the virtual memory (VM) subsystem of the Linux kernel and
14the writeout of dirty data to disk.
15
16Default values and initialization routines for most of these
17files can be found in mm/swap.c.
18
19Currently, these files are in /proc/sys/vm:
Peter W Morrealedb0fb182009-01-15 13:50:42 -080020
21- block_dump
22- dirty_background_bytes
Linus Torvalds1da177e2005-04-16 15:20:36 -070023- dirty_background_ratio
Peter W Morrealedb0fb182009-01-15 13:50:42 -080024- dirty_bytes
Linus Torvalds1da177e2005-04-16 15:20:36 -070025- dirty_expire_centisecs
Peter W Morrealedb0fb182009-01-15 13:50:42 -080026- dirty_ratio
Linus Torvalds1da177e2005-04-16 15:20:36 -070027- dirty_writeback_centisecs
Peter W Morrealedb0fb182009-01-15 13:50:42 -080028- drop_caches
29- hugepages_treat_as_movable
30- hugetlb_shm_group
31- laptop_mode
32- legacy_va_layout
33- lowmem_reserve_ratio
Linus Torvalds1da177e2005-04-16 15:20:36 -070034- max_map_count
35- min_free_kbytes
Christoph Lameter0ff38492006-09-25 23:31:52 -070036- min_slab_ratio
Peter W Morrealedb0fb182009-01-15 13:50:42 -080037- min_unmapped_ratio
38- mmap_min_addr
Nishanth Aravamudand5dbac82007-12-17 16:20:25 -080039- nr_hugepages
40- nr_overcommit_hugepages
Peter W Morrealedb0fb182009-01-15 13:50:42 -080041- nr_pdflush_threads
42- nr_trim_pages (only if CONFIG_MMU=n)
43- numa_zonelist_order
44- oom_dump_tasks
45- oom_kill_allocating_task
46- overcommit_memory
47- overcommit_ratio
48- page-cluster
49- panic_on_oom
50- percpu_pagelist_fraction
51- stat_interval
52- swappiness
53- vfs_cache_pressure
54- zone_reclaim_mode
55
Linus Torvalds1da177e2005-04-16 15:20:36 -070056
57==============================================================
58
Peter W Morrealedb0fb182009-01-15 13:50:42 -080059block_dump
Linus Torvalds1da177e2005-04-16 15:20:36 -070060
Peter W Morrealedb0fb182009-01-15 13:50:42 -080061block_dump enables block I/O debugging when set to a nonzero value. More
62information on block I/O debugging is in Documentation/laptops/laptop-mode.txt.
Linus Torvalds1da177e2005-04-16 15:20:36 -070063
64==============================================================
65
Peter W Morrealedb0fb182009-01-15 13:50:42 -080066dirty_background_bytes
Linus Torvalds1da177e2005-04-16 15:20:36 -070067
Peter W Morrealedb0fb182009-01-15 13:50:42 -080068Contains the amount of dirty memory at which the pdflush background writeback
69daemon will start writeback.
Linus Torvalds1da177e2005-04-16 15:20:36 -070070
Peter W Morrealedb0fb182009-01-15 13:50:42 -080071If dirty_background_bytes is written, dirty_background_ratio becomes a function
72of its value (dirty_background_bytes / the amount of dirtyable system memory).
Linus Torvalds1da177e2005-04-16 15:20:36 -070073
74==============================================================
75
Peter W Morrealedb0fb182009-01-15 13:50:42 -080076dirty_background_ratio
Linus Torvalds1da177e2005-04-16 15:20:36 -070077
Peter W Morrealedb0fb182009-01-15 13:50:42 -080078Contains, as a percentage of total system memory, the number of pages at which
79the pdflush background writeback daemon will start writing out dirty data.
Linus Torvalds1da177e2005-04-16 15:20:36 -070080
81==============================================================
82
Peter W Morrealedb0fb182009-01-15 13:50:42 -080083dirty_bytes
Linus Torvalds1da177e2005-04-16 15:20:36 -070084
Peter W Morrealedb0fb182009-01-15 13:50:42 -080085Contains the amount of dirty memory at which a process generating disk writes
86will itself start writeback.
Linus Torvalds1da177e2005-04-16 15:20:36 -070087
Peter W Morrealedb0fb182009-01-15 13:50:42 -080088If dirty_bytes is written, dirty_ratio becomes a function of its value
89(dirty_bytes / the amount of dirtyable system memory).
90
Andrea Righi9e4a5bd2009-04-30 15:08:57 -070091Note: the minimum value allowed for dirty_bytes is two pages (in bytes); any
92value lower than this limit will be ignored and the old configuration will be
93retained.
94
Peter W Morrealedb0fb182009-01-15 13:50:42 -080095==============================================================
96
97dirty_expire_centisecs
98
99This tunable is used to define when dirty data is old enough to be eligible
100for writeout by the pdflush daemons. It is expressed in 100'ths of a second.
101Data which has been dirty in-memory for longer than this interval will be
102written out next time a pdflush daemon wakes up.
103
104==============================================================
105
106dirty_ratio
107
108Contains, as a percentage of total system memory, the number of pages at which
109a process which is generating disk writes will itself start writing out dirty
110data.
111
112==============================================================
113
114dirty_writeback_centisecs
115
116The pdflush writeback daemons will periodically wake up and write `old' data
117out to disk. This tunable expresses the interval between those wakeups, in
118100'ths of a second.
119
120Setting this to zero disables periodic writeback altogether.
121
122==============================================================
123
124drop_caches
125
126Writing to this will cause the kernel to drop clean caches, dentries and
127inodes from memory, causing that memory to become free.
128
129To free pagecache:
130 echo 1 > /proc/sys/vm/drop_caches
131To free dentries and inodes:
132 echo 2 > /proc/sys/vm/drop_caches
133To free pagecache, dentries and inodes:
134 echo 3 > /proc/sys/vm/drop_caches
135
136As this is a non-destructive operation and dirty objects are not freeable, the
137user should run `sync' first.
138
139==============================================================
140
141hugepages_treat_as_movable
142
143This parameter is only useful when kernelcore= is specified at boot time to
144create ZONE_MOVABLE for pages that may be reclaimed or migrated. Huge pages
145are not movable so are not normally allocated from ZONE_MOVABLE. A non-zero
146value written to hugepages_treat_as_movable allows huge pages to be allocated
147from ZONE_MOVABLE.
148
149Once enabled, the ZONE_MOVABLE is treated as an area of memory the huge
150pages pool can easily grow or shrink within. Assuming that applications are
151not running that mlock() a lot of memory, it is likely the huge pages pool
152can grow to the size of ZONE_MOVABLE by repeatedly entering the desired value
153into nr_hugepages and triggering page reclaim.
154
155==============================================================
156
157hugetlb_shm_group
158
159hugetlb_shm_group contains group id that is allowed to create SysV
160shared memory segment using hugetlb page.
161
162==============================================================
163
164laptop_mode
165
166laptop_mode is a knob that controls "laptop mode". All the things that are
167controlled by this knob are discussed in Documentation/laptops/laptop-mode.txt.
168
169==============================================================
170
171legacy_va_layout
172
173If non-zero, this sysctl disables the new 32-bit mmap mmap layout - the kernel
174will use the legacy (2.4) layout for all processes.
175
176==============================================================
177
178lowmem_reserve_ratio
179
180For some specialised workloads on highmem machines it is dangerous for
181the kernel to allow process memory to be allocated from the "lowmem"
182zone. This is because that memory could then be pinned via the mlock()
183system call, or by unavailability of swapspace.
184
185And on large highmem machines this lack of reclaimable lowmem memory
186can be fatal.
187
188So the Linux page allocator has a mechanism which prevents allocations
189which _could_ use highmem from using too much lowmem. This means that
190a certain amount of lowmem is defended from the possibility of being
191captured into pinned user memory.
192
193(The same argument applies to the old 16 megabyte ISA DMA region. This
194mechanism will also defend that region from allocations which could use
195highmem or lowmem).
196
197The `lowmem_reserve_ratio' tunable determines how aggressive the kernel is
198in defending these lower zones.
199
200If you have a machine which uses highmem or ISA DMA and your
201applications are using mlock(), or if you are running with no swap then
202you probably should change the lowmem_reserve_ratio setting.
203
204The lowmem_reserve_ratio is an array. You can see them by reading this file.
205-
206% cat /proc/sys/vm/lowmem_reserve_ratio
207256 256 32
208-
209Note: # of this elements is one fewer than number of zones. Because the highest
210 zone's value is not necessary for following calculation.
211
212But, these values are not used directly. The kernel calculates # of protection
213pages for each zones from them. These are shown as array of protection pages
214in /proc/zoneinfo like followings. (This is an example of x86-64 box).
215Each zone has an array of protection pages like this.
216
217-
218Node 0, zone DMA
219 pages free 1355
220 min 3
221 low 3
222 high 4
223 :
224 :
225 numa_other 0
226 protection: (0, 2004, 2004, 2004)
227 ^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^^
228 pagesets
229 cpu: 0 pcp: 0
230 :
231-
232These protections are added to score to judge whether this zone should be used
233for page allocation or should be reclaimed.
234
235In this example, if normal pages (index=2) are required to this DMA zone and
236pages_high is used for watermark, the kernel judges this zone should not be
237used because pages_free(1355) is smaller than watermark + protection[2]
238(4 + 2004 = 2008). If this protection value is 0, this zone would be used for
239normal page requirement. If requirement is DMA zone(index=0), protection[0]
240(=0) is used.
241
242zone[i]'s protection[j] is calculated by following expression.
243
244(i < j):
245 zone[i]->protection[j]
246 = (total sums of present_pages from zone[i+1] to zone[j] on the node)
247 / lowmem_reserve_ratio[i];
248(i = j):
249 (should not be protected. = 0;
250(i > j):
251 (not necessary, but looks 0)
252
253The default values of lowmem_reserve_ratio[i] are
254 256 (if zone[i] means DMA or DMA32 zone)
255 32 (others).
256As above expression, they are reciprocal number of ratio.
257256 means 1/256. # of protection pages becomes about "0.39%" of total present
258pages of higher zones on the node.
259
260If you would like to protect more pages, smaller values are effective.
261The minimum value is 1 (1/1 -> 100%).
Linus Torvalds1da177e2005-04-16 15:20:36 -0700262
263==============================================================
264
265max_map_count:
266
267This file contains the maximum number of memory map areas a process
268may have. Memory map areas are used as a side-effect of calling
269malloc, directly by mmap and mprotect, and also when loading shared
270libraries.
271
272While most applications need less than a thousand maps, certain
273programs, particularly malloc debuggers, may consume lots of them,
274e.g., up to one or two maps per allocation.
275
276The default value is 65536.
277
278==============================================================
279
280min_free_kbytes:
281
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800282This is used to force the Linux VM to keep a minimum number
Linus Torvalds1da177e2005-04-16 15:20:36 -0700283of kilobytes free. The VM uses this number to compute a pages_min
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800284value for each lowmem zone in the system. Each lowmem zone gets
Linus Torvalds1da177e2005-04-16 15:20:36 -0700285a number of reserved free pages based proportionally on its size.
Rohit Seth8ad4b1f2006-01-08 01:00:40 -0800286
Matt LaPlanted9195882008-07-25 19:45:33 -0700287Some minimal amount of memory is needed to satisfy PF_MEMALLOC
Pavel Machek24950892007-10-16 23:31:28 -0700288allocations; if you set this to lower than 1024KB, your system will
289become subtly broken, and prone to deadlock under high loads.
290
291Setting this too high will OOM your machine instantly.
292
Christoph Lameter96146342006-07-03 00:24:13 -0700293=============================================================
294
Christoph Lameter0ff38492006-09-25 23:31:52 -0700295min_slab_ratio:
296
297This is available only on NUMA kernels.
298
299A percentage of the total pages in each zone. On Zone reclaim
300(fallback from the local zone occurs) slabs will be reclaimed if more
301than this percentage of pages in a zone are reclaimable slab pages.
302This insures that the slab growth stays under control even in NUMA
303systems that rarely perform global reclaim.
304
305The default is 5 percent.
306
307Note that slab reclaim is triggered in a per zone / node fashion.
308The process of reclaiming slab memory is currently not node specific
309and may not be fast.
310
311=============================================================
312
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800313min_unmapped_ratio:
KAMEZAWA Hiroyukifadd8fb2006-06-23 02:03:13 -0700314
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800315This is available only on NUMA kernels.
Yasunori Goto2b744c02007-05-06 14:49:59 -0700316
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800317A percentage of the total pages in each zone. Zone reclaim will only
318occur if more than this percentage of pages are file backed and unmapped.
319This is to insure that a minimal amount of local pages is still available for
320file I/O even if the node is overallocated.
Yasunori Goto2b744c02007-05-06 14:49:59 -0700321
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800322The default is 1 percent.
David Rientjesfe071d72007-10-16 23:25:56 -0700323
Eric Parised032182007-06-28 15:55:21 -0400324==============================================================
325
326mmap_min_addr
327
328This file indicates the amount of address space which a user process will
329be restricted from mmaping. Since kernel null dereference bugs could
330accidentally operate based on the information in the first couple of pages
331of memory userspace processes should not be allowed to write to them. By
332default this value is set to 0 and no protections will be enforced by the
333security module. Setting this value to something like 64k will allow the
334vast majority of applications to work correctly and provide defense in depth
335against future potential kernel bugs.
336
KAMEZAWA Hiroyukif0c0b2b2007-07-15 23:38:01 -0700337==============================================================
338
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800339nr_hugepages
340
341Change the minimum size of the hugepage pool.
342
343See Documentation/vm/hugetlbpage.txt
344
345==============================================================
346
347nr_overcommit_hugepages
348
349Change the maximum size of the hugepage pool. The maximum is
350nr_hugepages + nr_overcommit_hugepages.
351
352See Documentation/vm/hugetlbpage.txt
353
354==============================================================
355
356nr_pdflush_threads
357
358The current number of pdflush threads. This value is read-only.
359The value changes according to the number of dirty pages in the system.
360
361When neccessary, additional pdflush threads are created, one per second, up to
362nr_pdflush_threads_max.
363
364==============================================================
365
366nr_trim_pages
367
368This is available only on NOMMU kernels.
369
370This value adjusts the excess page trimming behaviour of power-of-2 aligned
371NOMMU mmap allocations.
372
373A value of 0 disables trimming of allocations entirely, while a value of 1
374trims excess pages aggressively. Any value >= 1 acts as the watermark where
375trimming of allocations is initiated.
376
377The default value is 1.
378
379See Documentation/nommu-mmap.txt for more information.
380
381==============================================================
382
KAMEZAWA Hiroyukif0c0b2b2007-07-15 23:38:01 -0700383numa_zonelist_order
384
385This sysctl is only for NUMA.
386'where the memory is allocated from' is controlled by zonelists.
387(This documentation ignores ZONE_HIGHMEM/ZONE_DMA32 for simple explanation.
388 you may be able to read ZONE_DMA as ZONE_DMA32...)
389
390In non-NUMA case, a zonelist for GFP_KERNEL is ordered as following.
391ZONE_NORMAL -> ZONE_DMA
392This means that a memory allocation request for GFP_KERNEL will
393get memory from ZONE_DMA only when ZONE_NORMAL is not available.
394
395In NUMA case, you can think of following 2 types of order.
396Assume 2 node NUMA and below is zonelist of Node(0)'s GFP_KERNEL
397
398(A) Node(0) ZONE_NORMAL -> Node(0) ZONE_DMA -> Node(1) ZONE_NORMAL
399(B) Node(0) ZONE_NORMAL -> Node(1) ZONE_NORMAL -> Node(0) ZONE_DMA.
400
401Type(A) offers the best locality for processes on Node(0), but ZONE_DMA
402will be used before ZONE_NORMAL exhaustion. This increases possibility of
403out-of-memory(OOM) of ZONE_DMA because ZONE_DMA is tend to be small.
404
405Type(B) cannot offer the best locality but is more robust against OOM of
406the DMA zone.
407
408Type(A) is called as "Node" order. Type (B) is "Zone" order.
409
410"Node order" orders the zonelists by node, then by zone within each node.
411Specify "[Nn]ode" for zone order
412
413"Zone Order" orders the zonelists by zone type, then by node within each
414zone. Specify "[Zz]one"for zode order.
415
416Specify "[Dd]efault" to request automatic configuration. Autoconfiguration
417will select "node" order in following case.
418(1) if the DMA zone does not exist or
419(2) if the DMA zone comprises greater than 50% of the available memory or
420(3) if any node's DMA zone comprises greater than 60% of its local memory and
421 the amount of local memory is big enough.
422
423Otherwise, "zone" order will be selected. Default order is recommended unless
424this is causing problems for your system/application.
Nishanth Aravamudand5dbac82007-12-17 16:20:25 -0800425
426==============================================================
427
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800428oom_dump_tasks
Nishanth Aravamudand5dbac82007-12-17 16:20:25 -0800429
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800430Enables a system-wide task dump (excluding kernel threads) to be
431produced when the kernel performs an OOM-killing and includes such
432information as pid, uid, tgid, vm size, rss, cpu, oom_adj score, and
433name. This is helpful to determine why the OOM killer was invoked
434and to identify the rogue task that caused it.
Nishanth Aravamudand5dbac82007-12-17 16:20:25 -0800435
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800436If this is set to zero, this information is suppressed. On very
437large systems with thousands of tasks it may not be feasible to dump
438the memory state information for each one. Such systems should not
439be forced to incur a performance penalty in OOM conditions when the
440information may not be desired.
441
442If this is set to non-zero, this information is shown whenever the
443OOM killer actually kills a memory-hogging task.
444
445The default value is 0.
Nishanth Aravamudand5dbac82007-12-17 16:20:25 -0800446
447==============================================================
448
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800449oom_kill_allocating_task
Nishanth Aravamudand5dbac82007-12-17 16:20:25 -0800450
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800451This enables or disables killing the OOM-triggering task in
452out-of-memory situations.
Nishanth Aravamudand5dbac82007-12-17 16:20:25 -0800453
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800454If this is set to zero, the OOM killer will scan through the entire
455tasklist and select a task based on heuristics to kill. This normally
456selects a rogue memory-hogging task that frees up a large amount of
457memory when killed.
458
459If this is set to non-zero, the OOM killer simply kills the task that
460triggered the out-of-memory condition. This avoids the expensive
461tasklist scan.
462
463If panic_on_oom is selected, it takes precedence over whatever value
464is used in oom_kill_allocating_task.
465
466The default value is 0.
Paul Mundtdd8632a2009-01-08 12:04:47 +0000467
468==============================================================
469
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800470overcommit_memory:
Paul Mundtdd8632a2009-01-08 12:04:47 +0000471
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800472This value contains a flag that enables memory overcommitment.
Paul Mundtdd8632a2009-01-08 12:04:47 +0000473
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800474When this flag is 0, the kernel attempts to estimate the amount
475of free memory left when userspace requests more memory.
Paul Mundtdd8632a2009-01-08 12:04:47 +0000476
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800477When this flag is 1, the kernel pretends there is always enough
478memory until it actually runs out.
Paul Mundtdd8632a2009-01-08 12:04:47 +0000479
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800480When this flag is 2, the kernel uses a "never overcommit"
481policy that attempts to prevent any overcommit of memory.
Paul Mundtdd8632a2009-01-08 12:04:47 +0000482
Peter W Morrealedb0fb182009-01-15 13:50:42 -0800483This feature can be very useful because there are a lot of
484programs that malloc() huge amounts of memory "just-in-case"
485and don't use much of it.
486
487The default value is 0.
488
489See Documentation/vm/overcommit-accounting and
490security/commoncap.c::cap_vm_enough_memory() for more information.
491
492==============================================================
493
494overcommit_ratio:
495
496When overcommit_memory is set to 2, the committed address
497space is not permitted to exceed swap plus this percentage
498of physical RAM. See above.
499
500==============================================================
501
502page-cluster
503
504page-cluster controls the number of pages which are written to swap in
505a single attempt. The swap I/O size.
506
507It is a logarithmic value - setting it to zero means "1 page", setting
508it to 1 means "2 pages", setting it to 2 means "4 pages", etc.
509
510The default value is three (eight pages at a time). There may be some
511small benefits in tuning this to a different value if your workload is
512swap-intensive.
513
514=============================================================
515
516panic_on_oom
517
518This enables or disables panic on out-of-memory feature.
519
520If this is set to 0, the kernel will kill some rogue process,
521called oom_killer. Usually, oom_killer can kill rogue processes and
522system will survive.
523
524If this is set to 1, the kernel panics when out-of-memory happens.
525However, if a process limits using nodes by mempolicy/cpusets,
526and those nodes become memory exhaustion status, one process
527may be killed by oom-killer. No panic occurs in this case.
528Because other nodes' memory may be free. This means system total status
529may be not fatal yet.
530
531If this is set to 2, the kernel panics compulsorily even on the
532above-mentioned.
533
534The default value is 0.
5351 and 2 are for failover of clustering. Please select either
536according to your policy of failover.
537
538=============================================================
539
540percpu_pagelist_fraction
541
542This is the fraction of pages at most (high mark pcp->high) in each zone that
543are allocated for each per cpu page list. The min value for this is 8. It
544means that we don't allow more than 1/8th of pages in each zone to be
545allocated in any single per_cpu_pagelist. This entry only changes the value
546of hot per cpu pagelists. User can specify a number like 100 to allocate
5471/100th of each zone to each per cpu page list.
548
549The batch value of each per cpu pagelist is also updated as a result. It is
550set to pcp->high/4. The upper limit of batch is (PAGE_SHIFT * 8)
551
552The initial value is zero. Kernel does not use this value at boot time to set
553the high water marks for each per cpu page list.
554
555==============================================================
556
557stat_interval
558
559The time interval between which vm statistics are updated. The default
560is 1 second.
561
562==============================================================
563
564swappiness
565
566This control is used to define how aggressive the kernel will swap
567memory pages. Higher values will increase agressiveness, lower values
568descrease the amount of swap.
569
570The default value is 60.
571
572==============================================================
573
574vfs_cache_pressure
575------------------
576
577Controls the tendency of the kernel to reclaim the memory which is used for
578caching of directory and inode objects.
579
580At the default value of vfs_cache_pressure=100 the kernel will attempt to
581reclaim dentries and inodes at a "fair" rate with respect to pagecache and
582swapcache reclaim. Decreasing vfs_cache_pressure causes the kernel to prefer
583to retain dentry and inode caches. Increasing vfs_cache_pressure beyond 100
584causes the kernel to prefer to reclaim dentries and inodes.
585
586==============================================================
587
588zone_reclaim_mode:
589
590Zone_reclaim_mode allows someone to set more or less aggressive approaches to
591reclaim memory when a zone runs out of memory. If it is set to zero then no
592zone reclaim occurs. Allocations will be satisfied from other zones / nodes
593in the system.
594
595This is value ORed together of
596
5971 = Zone reclaim on
5982 = Zone reclaim writes dirty pages out
5994 = Zone reclaim swaps pages
600
601zone_reclaim_mode is set during bootup to 1 if it is determined that pages
602from remote zones will cause a measurable performance reduction. The
603page allocator will then reclaim easily reusable pages (those page
604cache pages that are currently not used) before allocating off node pages.
605
606It may be beneficial to switch off zone reclaim if the system is
607used for a file server and all of memory should be used for caching files
608from disk. In that case the caching effect is more important than
609data locality.
610
611Allowing zone reclaim to write out pages stops processes that are
612writing large amounts of data from dirtying pages on other nodes. Zone
613reclaim will write out dirty pages if a zone fills up and so effectively
614throttle the process. This may decrease the performance of a single process
615since it cannot use all of system memory to buffer the outgoing writes
616anymore but it preserve the memory on other nodes so that the performance
617of other processes running on other nodes will not be affected.
618
619Allowing regular swap effectively restricts allocations to the local
620node unless explicitly overridden by memory policies or cpuset
621configurations.
622
623============ End of Document =================================