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SubjectRe: [RFC PATCH v0] mm/slub: Let number of online CPUs determine the slub page order
On Wed, Jan 20, 2021 at 06:36:31PM +0100, Vincent Guittot wrote:
> Hi,
>
> On Wed, 18 Nov 2020 at 09:28, Bharata B Rao <bharata@linux.ibm.com> wrote:
> >
> > The page order of the slab that gets chosen for a given slab
> > cache depends on the number of objects that can be fit in the
> > slab while meeting other requirements. We start with a value
> > of minimum objects based on nr_cpu_ids that is driven by
> > possible number of CPUs and hence could be higher than the
> > actual number of CPUs present in the system. This leads to
> > calculate_order() chosing a page order that is on the higher
> > side leading to increased slab memory consumption on systems
> > that have bigger page sizes.
> >
> > Hence rely on the number of online CPUs when determining the
> > mininum objects, thereby increasing the chances of chosing
> > a lower conservative page order for the slab.
> >
> > Signed-off-by: Bharata B Rao <bharata@linux.ibm.com>
> > ---
> > This is a generic change and I am unsure how it would affect
> > other archs, but as a start, here are some numbers from
> > PowerPC pseries KVM guest with and without this patch:
> >
> > This table shows how this change has affected some of the slab
> > caches.
> > ===================================================================
> > Current Patched
> > Cache <objperslab> <pagesperslab> <objperslab> <pagesperslab>
> > ===================================================================
> > TCPv6 53 2 26 1
> > net_namespace 53 4 26 2
> > dtl 32 2 16 1
> > names_cache 32 2 16 1
> > task_struct 53 8 13 2
> > thread_stack 32 8 8 2
> > pgtable-2^11 16 8 8 4
> > pgtable-2^8 32 2 16 1
> > kmalloc-32k 16 8 8 4
> > kmalloc-16k 32 8 8 2
> > kmalloc-8k 32 4 8 1
> > kmalloc-4k 32 2 16 1
> > ===================================================================
> >
> > Slab memory (kB) consumption comparision
> > ==================================================================
> > Current Patched
> > ==================================================================
> > After-boot 205760 156096
> > During-hackbench 629145 506752 (Avg of 5 runs)
> > After-hackbench 474176 331840 (after drop_caches)
> > ==================================================================
> >
> > Hackbench Time (Avg of 5 runs)
> > (hackbench -s 1024 -l 200 -g 200 -f 25 -P)
> > ==========================================
> > Current Patched
> > ==========================================
> > 10.990 11.010
> > ==========================================
> >
> > Measuring the effect due to CPU hotplug
> > ----------------------------------------
> > Since the patch doesn't consider all the possible CPUs for page
> > order calcluation, let's see how affects the case when CPUs are
> > hotplugged. Here I compare a system that is booted with 64CPUs
> > with a system that is booted with 16CPUs but hotplugged with
> > 48CPUs after boot. These numbers are with the patch applied.
> >
> > Slab memory (kB) consumption comparision
> > ===================================================================
> > 64bootCPUs 16bootCPUs+48HotPluggedCPUs
> > ===================================================================
> > After-boot 390272 159744
> > After-hotplug - 251328
> > During-hackbench 1001267 941926 (Avg of 5 runs)
> > After-hackbench 913600 827200 (after drop_caches)
> > ===================================================================
> >
> > Hackbench Time (Avg of 5 runs)
> > (hackbench -s 1024 -l 200 -g 200 -f 25 -P)
> > ===========================================
> > 64bootCPUs 16bootCPUs+48HotPluggedCPUs
> > ===========================================
> > 12.554 12.589
> > ===========================================
> > mm/slub.c | 2 +-
> > 1 file changed, 1 insertion(+), 1 deletion(-)
> >
>
> I'm facing significant performances regression on a large arm64 server
> system (224 CPUs). Regressions is also present on small arm64 system
> (8 CPUs) but in a far smaller order of magnitude
>
> On 224 CPUs system : 9 iterations of hackbench -l 16000 -g 16
> v5.11-rc4 : 9.135sec (+/- 0.45%)
> v5.11-rc4 + revert this patch: 3.173sec (+/- 0.48%)
> v5.10: 3.136sec (+/- 0.40%)
>
> This is a 191% regression compared to v5.10.
>
> The problem is that calculate_order() is called a number of times
> before secondaries CPUs are booted and it returns 1 instead of 224.
> This makes the use of num_online_cpus() irrelevant for those cases
>
> After adding in my command line "slub_min_objects=36" which equals to
> 4 * (fls(num_online_cpus()) + 1) with a correct num_online_cpus == 224
> , the regression diseapears:
>
> 9 iterations of hackbench -l 16000 -g 16: 3.201sec (+/- 0.90%)

Should we have switched to num_present_cpus() rather than
num_online_cpus()? If so, the below patch should address the
above problem.

From 252b332ccbee7152da1e18f1fff5b83f8e01b8df Mon Sep 17 00:00:00 2001
From: Bharata B Rao <bharata@linux.ibm.com>
Date: Thu, 21 Jan 2021 10:35:08 +0530
Subject: [PATCH] mm/slub: let number of present CPUs determine the slub
page order

Commit 045ab8c9487b ("mm/slub: let number of online CPUs determine
the slub page order") changed the slub page order to depend on
num_online_cpus() from nr_cpu_ids. However we find that certain
caches (kmalloc) are initialized even before the secondary CPUs
are onlined resulting in lower slub page order and subsequent
regression.

Switch to num_present_cpus() instead.

Reported-by: Vincent Guittot <vincent.guittot@linaro.org>
Signed-off-by: Bharata B Rao <bharata@linux.ibm.com>
Fixes: 045ab8c9487b ("mm/slub: let number of online CPUs determine the slub page order")
---
mm/slub.c | 2 +-
1 file changed, 1 insertion(+), 1 deletion(-)

diff --git a/mm/slub.c b/mm/slub.c
index d9e4e10683cc..2f3e412c849d 100644
--- a/mm/slub.c
+++ b/mm/slub.c
@@ -3433,7 +3433,7 @@ static inline int calculate_order(unsigned int size)
*/
min_objects = slub_min_objects;
if (!min_objects)
- min_objects = 4 * (fls(num_online_cpus()) + 1);
+ min_objects = 4 * (fls(num_present_cpus()) + 1);
max_objects = order_objects(slub_max_order, size);
min_objects = min(min_objects, max_objects);

--
2.26.2


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