From mboxrd@z Thu Jan 1 00:00:00 1970 Return-Path: Received: by sourceware.org (Postfix, from userid 2178) id 94B82385780B; Fri, 30 Oct 2020 12:24:47 +0000 (GMT) DKIM-Filter: OpenDKIM Filter v2.11.0 sourceware.org 94B82385780B Content-Type: text/plain; charset="us-ascii" MIME-Version: 1.0 Content-Transfer-Encoding: 7bit From: Florian Weimer To: glibc-cvs@sourceware.org Subject: [glibc/release/2.31/master] Reversing calculation of __x86_shared_non_temporal_threshold X-Act-Checkin: glibc X-Git-Author: Patrick McGehearty X-Git-Refname: refs/heads/release/2.31/master X-Git-Oldrev: 4bc9918c998085800ecf5bbb3c863e66ea6252a0 X-Git-Newrev: 8d730cb25af8051bfc286f331a94485a109a216e Message-Id: <20201030122447.94B82385780B@sourceware.org> Date: Fri, 30 Oct 2020 12:24:47 +0000 (GMT) X-BeenThere: glibc-cvs@sourceware.org X-Mailman-Version: 2.1.29 Precedence: list List-Id: Glibc-cvs mailing list List-Unsubscribe: , List-Archive: List-Help: List-Subscribe: , X-List-Received-Date: Fri, 30 Oct 2020 12:24:47 -0000 https://sourceware.org/git/gitweb.cgi?p=glibc.git;h=8d730cb25af8051bfc286f331a94485a109a216e commit 8d730cb25af8051bfc286f331a94485a109a216e Author: Patrick McGehearty Date: Mon Sep 28 20:11:28 2020 +0000 Reversing calculation of __x86_shared_non_temporal_threshold The __x86_shared_non_temporal_threshold determines when memcpy on x86 uses non_temporal stores to avoid pushing other data out of the last level cache. This patch proposes to revert the calculation change made by H.J. Lu's patch of June 2, 2017. H.J. Lu's patch selected a threshold suitable for a single thread getting maximum performance. It was tuned using the single threaded large memcpy micro benchmark on an 8 core processor. The last change changes the threshold from using 3/4 of one thread's share of the cache to using 3/4 of the entire cache of a multi-threaded system before switching to non-temporal stores. Multi-threaded systems with more than a few threads are server-class and typically have many active threads. If one thread consumes 3/4 of the available cache for all threads, it will cause other active threads to have data removed from the cache. Two examples show the range of the effect. John McCalpin's widely parallel Stream benchmark, which runs in parallel and fetches data sequentially, saw a 20% slowdown with this patch on an internal system test of 128 threads. This regression was discovered when comparing OL8 performance to OL7. An example that compares normal stores to non-temporal stores may be found at https://vgatherps.github.io/2018-09-02-nontemporal/. A simple test shows performance loss of 400 to 500% due to a failure to use nontemporal stores. These performance losses are most likely to occur when the system load is heaviest and good performance is critical. The tunable x86_non_temporal_threshold can be used to override the default for the knowledgable user who really wants maximum cache allocation to a single thread in a multi-threaded system. The manual entry for the tunable has been expanded to provide more information about its purpose. modified: sysdeps/x86/cacheinfo.c modified: manual/tunables.texi (cherry picked from commit d3c57027470b78dba79c6d931e4e409b1fecfc80) (Conflicts in sysdeps/x86/cacheinfo.c due to missing rep_movsb_threshold, x86_rep_stosb_threshold tunables.) Diff: --- manual/tunables.texi | 6 +++++- sysdeps/x86/cacheinfo.c | 16 +++++++++++----- 2 files changed, 16 insertions(+), 6 deletions(-) diff --git a/manual/tunables.texi b/manual/tunables.texi index ec18b10834..9cf5ca4d7a 100644 --- a/manual/tunables.texi +++ b/manual/tunables.texi @@ -391,7 +391,11 @@ set shared cache size in bytes for use in memory and string routines. @deftp Tunable glibc.cpu.x86_non_temporal_threshold The @code{glibc.cpu.x86_non_temporal_threshold} tunable allows the user -to set threshold in bytes for non temporal store. +to set threshold in bytes for non temporal store. Non temporal stores +give a hint to the hardware to move data directly to memory without +displacing other data from the cache. This tunable is used by some +platforms to determine when to use non temporal stores in operations +like memmove and memcpy. This tunable is specific to i386 and x86-64. @end deftp diff --git a/sysdeps/x86/cacheinfo.c b/sysdeps/x86/cacheinfo.c index e3e8ef27bb..43f2e7445c 100644 --- a/sysdeps/x86/cacheinfo.c +++ b/sysdeps/x86/cacheinfo.c @@ -778,14 +778,20 @@ intel_bug_no_cache_info: __x86_shared_cache_size = shared; } - /* The large memcpy micro benchmark in glibc shows that 6 times of - shared cache size is the approximate value above which non-temporal - store becomes faster on a 8-core processor. This is the 3/4 of the - total shared cache size. */ + /* The default setting for the non_temporal threshold is 3/4 of one + thread's share of the chip's cache. For most Intel and AMD processors + with an initial release date between 2017 and 2020, a thread's typical + share of the cache is from 500 KBytes to 2 MBytes. Using the 3/4 + threshold leaves 125 KBytes to 500 KBytes of the thread's data + in cache after a maximum temporal copy, which will maintain + in cache a reasonable portion of the thread's stack and other + active data. If the threshold is set higher than one thread's + share of the cache, it has a substantial risk of negatively + impacting the performance of other threads running on the chip. */ __x86_shared_non_temporal_threshold = (cpu_features->non_temporal_threshold != 0 ? cpu_features->non_temporal_threshold - : __x86_shared_cache_size * threads * 3 / 4); + : __x86_shared_cache_size * 3 / 4); } #endif