Latest revision as of 17:16, 29 October 2009

KVM Huge Page Backed Memory

Summary

Enable KVM guests to use huge page backed memory in order to reduce memory consumption and improve performance by reducing CPU cache pressure.

Owner

Chris Wright -- chrisw redhat com
John Cooper -- john.cooper redhat com

Current status

Targeted release: Fedora 12
Last updated: 2009-09-24
Percentage of completion: 100%

An SELinux issue in the kernel still remains, preventing full sVirt protection being applied to huge pages.

Completed

KVM support for huge pages
libvirt patch posted for running guests with -mem-path /dev/hugepages
libvirt patch-v2 posted which detects the host's hugetlbfs mount point automatically.
Identify SELinux issue in the kernel
Get the libvirt patch committed to libvirt-0.7.1

Detailed Description

x86 CPUs usually address memory in 4kB pages, but they also have the ability to use huge pages (4MB on x86_32, 2MB on x86_64 and x86_32 PAE).

By using huge pages for a KVM guest's memory, less memory is used for page tables and TLB misses are reduced, thereby increasing performance.

Using huge pages for guest memory does have a downside, however - you can no longer swap nor balloon guest memory.

In order to use huge pages with KVM, one must do the following:

Mount hugetlbfs to /dev/hugepages - mount -t hugetlbfs hugetlbfs /dev/hugepages
Reserve some memory for huge pages - sysctl vm.nr_hugepages=516
Pass the hugetlbfs path to qemu-kvm - qemu-kvm -mem-path /dev/hugepages

This feature aims to improve allow huge pages to be used with libvirt managed guests.

Benefit to Fedora

Enables Fedora KVM hosts to achieve better performance.

Scope

Huge pages support in KVM already exists, so the remaining work is confined to libvirt.

How To Test

mount -t hugetlbfs hugetlbfs /dev/hugepages
Reserve some memory for huge pages - sysctl vm.nr_hugepages=516
Run an existing KVM guest with libvirt with the following added to the guest config:

</memoryBacking>

Confirm the guest has booted correctly
Confirm the guest is using hugepages by checking HugePages_Free in /proc/meminfo

User Experience

Users of KVM guests using huge page backed memory should experience improved performance with some savings in host memory consumption. The performance benefit is workload dependent. But we have measured benefits on the order of 20% performance improvement (esp. useful when the guest's workload includes an application which itself is using hugepages).

Dependencies

None, the work is confined to libvirt.

Contingency Plan

None needed.

Documentation

Old tutorial

Release Notes

KVM guests running on Fedora can now take advantage of huge page backed memory and benefit from improved performance and reduced memory usage.

Comments and Discussion

See Talk:Features/KVM Huge Page Backed Memory

@@ Line 7: / Line 7: @@
 == Owner ==
-* Name: [[User:Chrisw|Chris Wright]]
+* [[User:Chrisw|Chris Wright]] -- chrisw redhat com
+* [[User:JohnCooper|John Cooper]] -- john.cooper redhat com
 == Current status ==
 * Targeted release: [[Releases/12|Fedora 12]]
-* Last updated: 2009-06-16
+* Last updated: 2009-09-24
-* Percentage of completion: 60%
+* Percentage of completion: 100%
-=== TODO ===
+An [https://bugzilla.redhat.com/515741 SELinux issue in the kernel] still remains, preventing full sVirt protection being applied to huge pages.
-# Add support to libvirt for running guests with <code>-mem-path</code>
-# Investigate ways to make it easier to configure the host for huge page usage
 === Completed ===
 # KVM support for huge pages
+# libvirt [http://www.redhat.com/archives/libvir-list/2009-July/msg00699.html patch posted] for running guests with <code>-mem-path /dev/hugepages</code>
+# libvirt [http://www.redhat.com/archives/libvir-list/2009-July/msg00753.html patch-v2 posted] which detects the host's hugetlbfs mount point automatically.
+# Identify [https://bugzilla.redhat.com/515741 SELinux issue in the kernel]
+# Get the libvirt patch committed to libvirt-0.7.1
 == Detailed Description ==
-x86 CPUs usually address memory in 4kB pages, but they also have the ability to use huge pages (4MB on x86_63, 2MB on x86_64 and x86_32 PAE).
+x86 CPUs usually address memory in 4kB pages, but they also have the ability to use huge pages (4MB on x86_32, 2MB on x86_64 and x86_32 PAE).
-By using huge pages for a KVM guest's memory, less memory is used for page tables and CPU cache misses are reduced, thereby increasing performance.
+By using huge pages for a KVM guest's memory, less memory is used for page tables and TLB misses are reduced, thereby increasing performance.
 Using huge pages for guest memory does have a downside, however - you can no longer swap nor balloon guest memory.
@@ Line 34: / Line 36: @@
 In order to use huge pages with KVM, one must do the following:
-# Mount hugetlbfs to some path - <code>mount -t hugetlbfs hugetlbfs dev/hugepages</code>
+# Mount hugetlbfs to <code>/dev/hugepages</code> - <code>mount -t hugetlbfs hugetlbfs /dev/hugepages</code>
-# Reserve some memory for huge pages - <code>sctl vm.nr_hugepages=516</code>
+# Reserve some memory for huge pages - <code>sysctl vm.nr_hugepages=516</code>
 # Pass the hugetlbfs path to <code>qemu-kvm</code> - <code>qemu-kvm -mem-path /dev/hugepages</code>
-There is currently no way to use huge pages with a libvirt managed KVM guest.
+This feature aims to improve allow huge pages to be used with libvirt managed guests.
-This feature aims to improve the situation by:
-# Allowing huge pages to be used with libvirt managed guests
-# Possibly making it easier to configure the host for huge page usage
 == Benefit to Fedora ==
@@ Line 51: / Line 48: @@
 == Scope ==
-The most obvious work required here is in libvirt.
+Huge pages support in KVM already exists, so the remaining work is confined to libvirt.
-Making it easier to configure the host for huge page usage might involve work in other parts of the distro - e.g. settling on a default mount point for hugegtlbfs or allowing <code>vm.nr_hugepages</code> to be configured somewhere.
+== How To Test ==
-== How To Test ==
+# <code>mount -t hugetlbfs hugetlbfs /dev/hugepages</code>
+# Reserve some memory for huge pages - <code>sysctl vm.nr_hugepages=516</code>
+# Run an existing KVM guest with libvirt with the following added to the guest config:
+: <memoryBacking>
+:    <hugepages/>
+:  </memoryBacking>
+# Confirm the guest has booted correctly
+# Confirm the guest is using hugepages by checking <code>HugePages_Free</code> in </code>/proc/meminfo</code>
 == User Experience ==
+Users of KVM guests using huge page backed memory should experience improved performance with some savings in host memory consumption.  The performance benefit is workload dependent.  But we have measured benefits on the order of 20% performance improvement (esp. useful when the guest's workload includes an application which itself is using hugepages).
 == Dependencies ==
+None, the work is confined to libvirt.
 == Contingency Plan ==
+None needed.
 == Documentation ==
+* Old [http://www.linux-kvm.com/content/get-performance-boost-backing-your-kvm-guest-hugetlbfs tutorial]
 == Release Notes ==
+KVM guests running on Fedora can now take advantage of huge page backed memory and benefit from improved performance and reduced memory usage.
 == Comments and Discussion ==
@@ Line 73: / Line 87: @@
 [[Category:Virtualization|KVM Huge Page Backed Memory]]
-[[Category:FeaturePageIncomplete]]
+[[Category:FeatureAcceptedF12]]
-<!-- Category:FeatureReadyForWrangler -->
 [[Category:F12_Virt_Features|KVM Huge Page Backed Memory]]

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