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[v7,00/12] mm/demotion: Memory tiers and demotion

Message ID 20220622082513.467538-1-aneesh.kumar@linux.ibm.com (mailing list archive)
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Series mm/demotion: Memory tiers and demotion | expand

Message

Aneesh Kumar K.V June 22, 2022, 8:25 a.m. UTC
The current kernel has the basic memory tiering support: Inactive
pages on a higher tier NUMA node can be migrated (demoted) to a lower
tier NUMA node to make room for new allocations on the higher tier
NUMA node.  Frequently accessed pages on a lower tier NUMA node can be
migrated (promoted) to a higher tier NUMA node to improve the
performance.

In the current kernel, memory tiers are defined implicitly via a
demotion path relationship between NUMA nodes, which is created during
the kernel initialization and updated when a NUMA node is hot-added or
hot-removed.  The current implementation puts all nodes with CPU into
the top tier, and builds the tier hierarchy tier-by-tier by establishing
the per-node demotion targets based on the distances between nodes.

This current memory tier kernel interface needs to be improved for
several important use cases:

* The current tier initialization code always initializes
  each memory-only NUMA node into a lower tier.  But a memory-only
  NUMA node may have a high performance memory device (e.g. a DRAM
  device attached via CXL.mem or a DRAM-backed memory-only node on
  a virtual machine) and should be put into a higher tier.

* The current tier hierarchy always puts CPU nodes into the top
  tier. But on a system with HBM (e.g. GPU memory) devices, these
  memory-only HBM NUMA nodes should be in the top tier, and DRAM nodes
  with CPUs are better to be placed into the next lower tier.

* Also because the current tier hierarchy always puts CPU nodes
  into the top tier, when a CPU is hot-added (or hot-removed) and
  triggers a memory node from CPU-less into a CPU node (or vice
  versa), the memory tier hierarchy gets changed, even though no
  memory node is added or removed.  This can make the tier
  hierarchy unstable and make it difficult to support tier-based
  memory accounting.

* A higher tier node can only be demoted to selected nodes on the
  next lower tier as defined by the demotion path, not any other
  node from any lower tier.  This strict, hard-coded demotion order
  does not work in all use cases (e.g. some use cases may want to
  allow cross-socket demotion to another node in the same demotion
  tier as a fallback when the preferred demotion node is out of
  space), and has resulted in the feature request for an interface to
  override the system-wide, per-node demotion order from the
  userspace.  This demotion order is also inconsistent with the page
  allocation fallback order when all the nodes in a higher tier are
  out of space: The page allocation can fall back to any node from
  any lower tier, whereas the demotion order doesn't allow that.

* There are no interfaces for the userspace to learn about the memory
  tier hierarchy in order to optimize its memory allocations.

This patch series make the creation of memory tiers explicit under
the control of userspace or device driver.

Memory Tier Initialization
==========================

By default, all memory nodes are assigned to the default tier with
tier ID value 200.

A device driver can move up or down its memory nodes from the default
tier.  For example, PMEM can move down its memory nodes below the
default tier, whereas GPU can move up its memory nodes above the
default tier.

The kernel initialization code makes the decision on which exact tier
a memory node should be assigned to based on the requests from the
device drivers as well as the memory device hardware information
provided by the firmware.

Hot-adding/removing CPUs doesn't affect memory tier hierarchy.

Memory Allocation for Demotion
==============================
This patch series keep the demotion target page allocation logic same.
The demotion page allocation pick the closest NUMA node in the
next lower tier to the current NUMA node allocating pages from.

This will be later improved to use the same page allocation strategy
using fallback list.

Sysfs Interface:
-------------
Listing current list of memory tiers details:

:/sys/devices/system/memtier$ ls
default_tier max_tier  memtier1  power  uevent
:/sys/devices/system/memtier$ cat default_tier
memtier200
:/sys/devices/system/memtier$ cat max_tier 
400
:/sys/devices/system/memtier$ 

Per node memory tier details:

For a cpu only NUMA node:

:/sys/devices/system/node# cat node0/memtier 
:/sys/devices/system/node# echo 1 > node0/memtier 
:/sys/devices/system/node# cat node0/memtier 
:/sys/devices/system/node# 

For a NUMA node with memory:
:/sys/devices/system/node# cat node1/memtier 
1
:/sys/devices/system/node# ls ../memtier/
default_tier  max_tier  memtier1  power  uevent
:/sys/devices/system/node# echo 2 > node1/memtier 
:/sys/devices/system/node# 
:/sys/devices/system/node# ls ../memtier/
default_tier  max_tier  memtier1  memtier2  power  uevent
:/sys/devices/system/node# cat node1/memtier 
2
:/sys/devices/system/node# 

Removing a memory tier
:/sys/devices/system/node# cat node1/memtier 
2
:/sys/devices/system/node# echo 1 > node1/memtier 
:/sys/devices/system/node# 
:/sys/devices/system/node# cat node1/memtier 
1
:/sys/devices/system/node# 
:/sys/devices/system/node# ls ../memtier/
default_tier  max_tier  memtier1  power  uevent
:/sys/devices/system/node# 

The above resulted in removal of memtier2 which was created in the earlier step.

Changes from v6:
* Drop the usage of rank.
* Address other review feedback.

Changes from v5:
* Remove patch supporting N_MEMORY node removal from memory tiers. memory tiers
  are going to be used for features other than demotion. Hence keep all N_MEMORY
  nodes in memory tiers irrespective of whether they want to participate in promotion or demotion.
* Add NODE_DATA->memtier
* Rearrage patches to add sysfs files later.
* Add support to create memory tiers from userspace.
* Address other review feedback.


Changes from v4:
* Address review feedback.
* Reverse the meaning of "rank": higher rank value means higher tier.
* Add "/sys/devices/system/memtier/default_tier".
* Add node_is_toptier

v4:
Add support for explicit memory tiers and ranks.

v3:
- Modify patch 1 subject to make it more specific
- Remove /sys/kernel/mm/numa/demotion_targets interface, use
  /sys/devices/system/node/demotion_targets instead and make
  it writable to override node_states[N_DEMOTION_TARGETS].
- Add support to view per node demotion targets via sysfs

v2:
In v1, only 1st patch of this patch series was sent, which was
implemented to avoid some of the limitations on the demotion
target sharing, however for certain numa topology, the demotion
targets found by that patch was not most optimal, so 1st patch
in this series is modified according to suggestions from Huang
and Baolin. Different examples of demotion list comparasion
between existing implementation and changed implementation can
be found in the commit message of 1st patch.


Aneesh Kumar K.V (10):
  mm/demotion: Add support for explicit memory tiers
  mm/demotion: Move memory demotion related code
  mm/demotion/dax/kmem: Set node's memory tier to MEMORY_TIER_PMEM
  mm/demotion: Add hotplug callbacks to handle new numa node onlined
  mm/demotion: Build demotion targets based on explicit memory tiers
  mm/demotion: Expose memory tier details via sysfs
  mm/demotion: Add per node memory tier attribute to sysfs
  mm/demotion: Add pg_data_t member to track node memory tier details
  mm/demotion: Update node_is_toptier to work with memory tiers
  mm/demotion: Add sysfs ABI documentation

Jagdish Gediya (2):
  mm/demotion: Demote pages according to allocation fallback order
  mm/demotion: Add documentation for memory tiering

 .../ABI/testing/sysfs-kernel-mm-memory-tiers  |  61 ++
 Documentation/admin-guide/mm/index.rst        |   1 +
 .../admin-guide/mm/memory-tiering.rst         | 182 ++++
 drivers/base/node.c                           |  42 +
 drivers/dax/kmem.c                            |   6 +-
 include/linux/memory-tiers.h                  |  72 ++
 include/linux/migrate.h                       |  15 -
 include/linux/mmzone.h                        |   3 +
 include/linux/node.h                          |   5 -
 mm/Makefile                                   |   1 +
 mm/huge_memory.c                              |   1 +
 mm/memory-tiers.c                             | 791 ++++++++++++++++++
 mm/migrate.c                                  | 453 +---------
 mm/mprotect.c                                 |   1 +
 mm/vmscan.c                                   |  57 +-
 mm/vmstat.c                                   |   4 -
 16 files changed, 1204 insertions(+), 491 deletions(-)
 create mode 100644 Documentation/ABI/testing/sysfs-kernel-mm-memory-tiers
 create mode 100644 Documentation/admin-guide/mm/memory-tiering.rst
 create mode 100644 include/linux/memory-tiers.h
 create mode 100644 mm/memory-tiers.c

Comments

Aneesh Kumar K.V June 22, 2022, 11:06 a.m. UTC | #1
Forgot to Cc: Johannes.

"Aneesh Kumar K.V" <aneesh.kumar@linux.ibm.com> writes:

> The current kernel has the basic memory tiering support: Inactive
> pages on a higher tier NUMA node can be migrated (demoted) to a lower
> tier NUMA node to make room for new allocations on the higher tier
> NUMA node.  Frequently accessed pages on a lower tier NUMA node can be
> migrated (promoted) to a higher tier NUMA node to improve the
> performance.
>
> In the current kernel, memory tiers are defined implicitly via a
> demotion path relationship between NUMA nodes, which is created during
> the kernel initialization and updated when a NUMA node is hot-added or
> hot-removed.  The current implementation puts all nodes with CPU into
> the top tier, and builds the tier hierarchy tier-by-tier by establishing
> the per-node demotion targets based on the distances between nodes.
>
> This current memory tier kernel interface needs to be improved for
> several important use cases:
>
> * The current tier initialization code always initializes
>   each memory-only NUMA node into a lower tier.  But a memory-only
>   NUMA node may have a high performance memory device (e.g. a DRAM
>   device attached via CXL.mem or a DRAM-backed memory-only node on
>   a virtual machine) and should be put into a higher tier.
>
> * The current tier hierarchy always puts CPU nodes into the top
>   tier. But on a system with HBM (e.g. GPU memory) devices, these
>   memory-only HBM NUMA nodes should be in the top tier, and DRAM nodes
>   with CPUs are better to be placed into the next lower tier.
>
> * Also because the current tier hierarchy always puts CPU nodes
>   into the top tier, when a CPU is hot-added (or hot-removed) and
>   triggers a memory node from CPU-less into a CPU node (or vice
>   versa), the memory tier hierarchy gets changed, even though no
>   memory node is added or removed.  This can make the tier
>   hierarchy unstable and make it difficult to support tier-based
>   memory accounting.
>
> * A higher tier node can only be demoted to selected nodes on the
>   next lower tier as defined by the demotion path, not any other
>   node from any lower tier.  This strict, hard-coded demotion order
>   does not work in all use cases (e.g. some use cases may want to
>   allow cross-socket demotion to another node in the same demotion
>   tier as a fallback when the preferred demotion node is out of
>   space), and has resulted in the feature request for an interface to
>   override the system-wide, per-node demotion order from the
>   userspace.  This demotion order is also inconsistent with the page
>   allocation fallback order when all the nodes in a higher tier are
>   out of space: The page allocation can fall back to any node from
>   any lower tier, whereas the demotion order doesn't allow that.
>
> * There are no interfaces for the userspace to learn about the memory
>   tier hierarchy in order to optimize its memory allocations.
>
> This patch series make the creation of memory tiers explicit under
> the control of userspace or device driver.
>
> Memory Tier Initialization
> ==========================
>
> By default, all memory nodes are assigned to the default tier with
> tier ID value 200.
>
> A device driver can move up or down its memory nodes from the default
> tier.  For example, PMEM can move down its memory nodes below the
> default tier, whereas GPU can move up its memory nodes above the
> default tier.
>
> The kernel initialization code makes the decision on which exact tier
> a memory node should be assigned to based on the requests from the
> device drivers as well as the memory device hardware information
> provided by the firmware.
>
> Hot-adding/removing CPUs doesn't affect memory tier hierarchy.
>
> Memory Allocation for Demotion
> ==============================
> This patch series keep the demotion target page allocation logic same.
> The demotion page allocation pick the closest NUMA node in the
> next lower tier to the current NUMA node allocating pages from.
>
> This will be later improved to use the same page allocation strategy
> using fallback list.
>
> Sysfs Interface:
> -------------
> Listing current list of memory tiers details:
>
> :/sys/devices/system/memtier$ ls
> default_tier max_tier  memtier1  power  uevent
> :/sys/devices/system/memtier$ cat default_tier
> memtier200
> :/sys/devices/system/memtier$ cat max_tier 
> 400
> :/sys/devices/system/memtier$ 
>
> Per node memory tier details:
>
> For a cpu only NUMA node:
>
> :/sys/devices/system/node# cat node0/memtier 
> :/sys/devices/system/node# echo 1 > node0/memtier 
> :/sys/devices/system/node# cat node0/memtier 
> :/sys/devices/system/node# 
>
> For a NUMA node with memory:
> :/sys/devices/system/node# cat node1/memtier 
> 1
> :/sys/devices/system/node# ls ../memtier/
> default_tier  max_tier  memtier1  power  uevent
> :/sys/devices/system/node# echo 2 > node1/memtier 
> :/sys/devices/system/node# 
> :/sys/devices/system/node# ls ../memtier/
> default_tier  max_tier  memtier1  memtier2  power  uevent
> :/sys/devices/system/node# cat node1/memtier 
> 2
> :/sys/devices/system/node# 
>
> Removing a memory tier
> :/sys/devices/system/node# cat node1/memtier 
> 2
> :/sys/devices/system/node# echo 1 > node1/memtier 
> :/sys/devices/system/node# 
> :/sys/devices/system/node# cat node1/memtier 
> 1
> :/sys/devices/system/node# 
> :/sys/devices/system/node# ls ../memtier/
> default_tier  max_tier  memtier1  power  uevent
> :/sys/devices/system/node# 
>
> The above resulted in removal of memtier2 which was created in the earlier step.
>
> Changes from v6:
> * Drop the usage of rank.
> * Address other review feedback.
>
> Changes from v5:
> * Remove patch supporting N_MEMORY node removal from memory tiers. memory tiers
>   are going to be used for features other than demotion. Hence keep all N_MEMORY
>   nodes in memory tiers irrespective of whether they want to participate in promotion or demotion.
> * Add NODE_DATA->memtier
> * Rearrage patches to add sysfs files later.
> * Add support to create memory tiers from userspace.
> * Address other review feedback.
>
>
> Changes from v4:
> * Address review feedback.
> * Reverse the meaning of "rank": higher rank value means higher tier.
> * Add "/sys/devices/system/memtier/default_tier".
> * Add node_is_toptier
>
> v4:
> Add support for explicit memory tiers and ranks.
>
> v3:
> - Modify patch 1 subject to make it more specific
> - Remove /sys/kernel/mm/numa/demotion_targets interface, use
>   /sys/devices/system/node/demotion_targets instead and make
>   it writable to override node_states[N_DEMOTION_TARGETS].
> - Add support to view per node demotion targets via sysfs
>
> v2:
> In v1, only 1st patch of this patch series was sent, which was
> implemented to avoid some of the limitations on the demotion
> target sharing, however for certain numa topology, the demotion
> targets found by that patch was not most optimal, so 1st patch
> in this series is modified according to suggestions from Huang
> and Baolin. Different examples of demotion list comparasion
> between existing implementation and changed implementation can
> be found in the commit message of 1st patch.
>
>
> Aneesh Kumar K.V (10):
>   mm/demotion: Add support for explicit memory tiers
>   mm/demotion: Move memory demotion related code
>   mm/demotion/dax/kmem: Set node's memory tier to MEMORY_TIER_PMEM
>   mm/demotion: Add hotplug callbacks to handle new numa node onlined
>   mm/demotion: Build demotion targets based on explicit memory tiers
>   mm/demotion: Expose memory tier details via sysfs
>   mm/demotion: Add per node memory tier attribute to sysfs
>   mm/demotion: Add pg_data_t member to track node memory tier details
>   mm/demotion: Update node_is_toptier to work with memory tiers
>   mm/demotion: Add sysfs ABI documentation
>
> Jagdish Gediya (2):
>   mm/demotion: Demote pages according to allocation fallback order
>   mm/demotion: Add documentation for memory tiering
>
>  .../ABI/testing/sysfs-kernel-mm-memory-tiers  |  61 ++
>  Documentation/admin-guide/mm/index.rst        |   1 +
>  .../admin-guide/mm/memory-tiering.rst         | 182 ++++
>  drivers/base/node.c                           |  42 +
>  drivers/dax/kmem.c                            |   6 +-
>  include/linux/memory-tiers.h                  |  72 ++
>  include/linux/migrate.h                       |  15 -
>  include/linux/mmzone.h                        |   3 +
>  include/linux/node.h                          |   5 -
>  mm/Makefile                                   |   1 +
>  mm/huge_memory.c                              |   1 +
>  mm/memory-tiers.c                             | 791 ++++++++++++++++++
>  mm/migrate.c                                  | 453 +---------
>  mm/mprotect.c                                 |   1 +
>  mm/vmscan.c                                   |  57 +-
>  mm/vmstat.c                                   |   4 -
>  16 files changed, 1204 insertions(+), 491 deletions(-)
>  create mode 100644 Documentation/ABI/testing/sysfs-kernel-mm-memory-tiers
>  create mode 100644 Documentation/admin-guide/mm/memory-tiering.rst
>  create mode 100644 include/linux/memory-tiers.h
>  create mode 100644 mm/memory-tiers.c
>
> -- 
> 2.36.1