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authorDietmar Eggemann <dietmar.eggemann@arm.com>2018-08-09 15:57:53 +0200
committerIngo Molnar <mingo@kernel.org>2018-10-02 09:45:01 +0200
commitfdf5f315d5cfaefb7bb8a62ec4bf37b9891837aa (patch)
tree1b9dff1ba7bb2a758d4d114aaf227460be000dd1 /kernel/sched
parentsched/pelt: Fix warning and clean up IRQ PELT config (diff)
downloadlinux-fdf5f315d5cfaefb7bb8a62ec4bf37b9891837aa.tar.xz
linux-fdf5f315d5cfaefb7bb8a62ec4bf37b9891837aa.zip
sched/fair: Disable LB_BIAS by default
LB_BIAS allows the adjustment on how conservative load should be balanced. The rq->cpu_load[idx] array is used for this functionality. It contains weighted CPU load decayed average values over different intervals (idx = 1..4). Idx = 0 is the weighted CPU load itself. The values are updated during scheduler_tick, before idle balance and at nohz exit. There are 5 different types of idx's per sched domain (sd). Each of them is used to index into the rq->cpu_load[idx] array in a specific scenario (busy, idle and newidle for load balancing, forkexec for wake-up slow-path load balancing and wake for affine wakeup based on weight). Only the sd idx's for busy and idle load balancing are set to 2,3 or 1,2 respectively. All the other sd idx's are set to 0. Conservative load balancing is achieved for sd idx's >= 1 by using the min/max (source_load()/target_load()) value between the current weighted CPU load and the rq->cpu_load[sd idx -1] for the busiest(idlest)/local CPU load in load balancing or vice versa in the wake-up slow-path load balancing. There is no conservative balancing for sd idx = 0 since only current weighted CPU load is used in this case. It is very likely that LB_BIAS' influence on load balancing can be neglected (see test results below). This is further supported by: (1) Weighted CPU load today is by itself a decayed average value (PELT) (cfs_rq->avg->runnable_load_avg) and not the instantaneous load (rq->load.weight) it was when LB_BIAS was introduced. (2) Sd imbalance_pct is used for CPU_NEWLY_IDLE and CPU_NOT_IDLE (relate to sd's newidle and busy idx) in find_busiest_group() when comparing busiest and local avg load to make load balancing even more conservative. (3) The sd forkexec and newidle idx are always set to 0 so there is no adjustment on how conservatively load balancing is done here. (4) Affine wakeup based on weight (wake_affine_weight()) will not be impacted since the sd wake idx is always set to 0. Let's disable LB_BIAS by default for a few kernel releases to make sure that no workload and no scheduler topology is affected. The benefit of being able to remove the LB_BIAS dependency from source_load() and target_load() is that the entire rq->cpu_load[idx] code could be removed in this case. It is really hard to say if there is no regression w/o testing this with a lot of different workloads on a lot of different platforms, especially NUMA machines. The following 104 LKP (Linux Kernel Performance) tests were run by the 0-Day guys mostly on multi-socket hosts with a larger number of logical cpus (88, 192). The base for the test was commit b3dae109fa89 ("sched/swait: Rename to exclusive") (tip/sched/core v4.18-rc1). Only 2 out of the 104 tests had a significant change in one of the metrics (fsmark/1x-1t-1HDD-btrfs-nfsv4-4M-60G-NoSync-performance +7% files_per_sec, unixbench/300s-100%-syscall-performance -11% score). Tests which showed a change in one of the metrics are marked with a '*' and this change is listed as well. (a) lkp-bdw-ep3: 88 threads Intel(R) Xeon(R) CPU E5-2699 v4 @ 2.20GHz 64G dd-write/10m-1HDD-cfq-btrfs-100dd-performance fsmark/1x-1t-1HDD-xfs-nfsv4-4M-60G-NoSync-performance * fsmark/1x-1t-1HDD-btrfs-nfsv4-4M-60G-NoSync-performance 7.50 7% 8.00 ± 6% fsmark.files_per_sec fsmark/1x-1t-1HDD-btrfs-nfsv4-4M-60G-fsyncBeforeClose-performance fsmark/1x-1t-1HDD-btrfs-4M-60G-NoSync-performance fsmark/1x-1t-1HDD-btrfs-4M-60G-fsyncBeforeClose-performance kbuild/300s-50%-vmlinux_prereq-performance kbuild/300s-200%-vmlinux_prereq-performance kbuild/300s-50%-vmlinux_prereq-performance-1HDD-ext4 kbuild/300s-200%-vmlinux_prereq-performance-1HDD-ext4 (b) lkp-skl-4sp1: 192 threads Intel(R) Xeon(R) Platinum 8160 768G dbench/100%-performance ebizzy/200%-100x-10s-performance hackbench/1600%-process-pipe-performance iperf/300s-cs-localhost-tcp-performance iperf/300s-cs-localhost-udp-performance perf-bench-numa-mem/2t-300M-performance perf-bench-sched-pipe/10000000ops-process-performance perf-bench-sched-pipe/10000000ops-threads-performance schbench/2-16-300-30000-30000-performance tbench/100%-cs-localhost-performance (c) lkp-bdw-ep6: 88 threads Intel(R) Xeon(R) CPU E5-2699 v4 @ 2.20GHz 128G stress-ng/100%-60s-pipe-performance unixbench/300s-1-whetstone-double-performance unixbench/300s-1-shell1-performance unixbench/300s-1-shell8-performance unixbench/300s-1-pipe-performance * unixbench/300s-1-context1-performance 312 315 unixbench.score unixbench/300s-1-spawn-performance unixbench/300s-1-syscall-performance unixbench/300s-1-dhry2reg-performance unixbench/300s-1-fstime-performance unixbench/300s-1-fsbuffer-performance unixbench/300s-1-fsdisk-performance unixbench/300s-100%-whetstone-double-performance unixbench/300s-100%-shell1-performance unixbench/300s-100%-shell8-performance unixbench/300s-100%-pipe-performance unixbench/300s-100%-context1-performance unixbench/300s-100%-spawn-performance * unixbench/300s-100%-syscall-performance 3571 ± 3% -11% 3183 ± 4% unixbench.score unixbench/300s-100%-dhry2reg-performance unixbench/300s-100%-fstime-performance unixbench/300s-100%-fsbuffer-performance unixbench/300s-100%-fsdisk-performance unixbench/300s-1-execl-performance unixbench/300s-100%-execl-performance * will-it-scale/brk1-performance 365004 360387 will-it-scale.per_thread_ops * will-it-scale/dup1-performance 432401 437596 will-it-scale.per_thread_ops will-it-scale/eventfd1-performance will-it-scale/futex1-performance will-it-scale/futex2-performance will-it-scale/futex3-performance will-it-scale/futex4-performance will-it-scale/getppid1-performance will-it-scale/lock1-performance will-it-scale/lseek1-performance will-it-scale/lseek2-performance * will-it-scale/malloc1-performance 47025 45817 will-it-scale.per_thread_ops 77499 76529 will-it-scale.per_process_ops will-it-scale/malloc2-performance * will-it-scale/mmap1-performance 123399 120815 will-it-scale.per_thread_ops 152219 149833 will-it-scale.per_process_ops * will-it-scale/mmap2-performance 107327 104714 will-it-scale.per_thread_ops 136405 133765 will-it-scale.per_process_ops will-it-scale/open1-performance * will-it-scale/open2-performance 171570 168805 will-it-scale.per_thread_ops 532644 526202 will-it-scale.per_process_ops will-it-scale/page_fault1-performance will-it-scale/page_fault2-performance will-it-scale/page_fault3-performance will-it-scale/pipe1-performance will-it-scale/poll1-performance * will-it-scale/poll2-performance 176134 172848 will-it-scale.per_thread_ops 281361 275053 will-it-scale.per_process_ops will-it-scale/posix_semaphore1-performance will-it-scale/pread1-performance will-it-scale/pread2-performance will-it-scale/pread3-performance will-it-scale/pthread_mutex1-performance will-it-scale/pthread_mutex2-performance will-it-scale/pwrite1-performance will-it-scale/pwrite2-performance will-it-scale/pwrite3-performance * will-it-scale/read1-performance 1190563 1174833 will-it-scale.per_thread_ops * will-it-scale/read2-performance 1105369 1080427 will-it-scale.per_thread_ops will-it-scale/readseek1-performance * will-it-scale/readseek2-performance 261818 259040 will-it-scale.per_thread_ops will-it-scale/readseek3-performance * will-it-scale/sched_yield-performance 2408059 2382034 will-it-scale.per_thread_ops will-it-scale/signal1-performance will-it-scale/unix1-performance will-it-scale/unlink1-performance will-it-scale/unlink2-performance * will-it-scale/write1-performance 976701 961588 will-it-scale.per_thread_ops * will-it-scale/writeseek1-performance 831898 822448 will-it-scale.per_thread_ops * will-it-scale/writeseek2-performance 228248 225065 will-it-scale.per_thread_ops * will-it-scale/writeseek3-performance 226670 224058 will-it-scale.per_thread_ops will-it-scale/context_switch1-performance aim7/performance-fork_test-2000 * aim7/performance-brk_test-3000 74869 76676 aim7.jobs-per-min aim7/performance-disk_cp-3000 aim7/performance-disk_rd-3000 aim7/performance-sieve-3000 aim7/performance-page_test-3000 aim7/performance-creat-clo-3000 aim7/performance-mem_rtns_1-8000 aim7/performance-disk_wrt-8000 aim7/performance-pipe_cpy-8000 aim7/performance-ram_copy-8000 (d) lkp-avoton3: 8 threads Intel(R) Atom(TM) CPU C2750 @ 2.40GHz 16G netperf/ipv4-900s-200%-cs-localhost-TCP_STREAM-performance Signed-off-by: Dietmar Eggemann <dietmar.eggemann@arm.com> Signed-off-by: Peter Zijlstra (Intel) <peterz@infradead.org> Cc: Fengguang Wu <fengguang.wu@intel.com> Cc: Li Zhijian <zhijianx.li@intel.com> Cc: Linus Torvalds <torvalds@linux-foundation.org> Cc: Peter Zijlstra <peterz@infradead.org> Cc: Thomas Gleixner <tglx@linutronix.de> Link: http://lkml.kernel.org/r/20180809135753.21077-1-dietmar.eggemann@arm.com Signed-off-by: Ingo Molnar <mingo@kernel.org>
Diffstat (limited to 'kernel/sched')
-rw-r--r--kernel/sched/features.h2
1 files changed, 1 insertions, 1 deletions
diff --git a/kernel/sched/features.h b/kernel/sched/features.h
index 85ae8488039c..858589b83377 100644
--- a/kernel/sched/features.h
+++ b/kernel/sched/features.h
@@ -39,7 +39,7 @@ SCHED_FEAT(WAKEUP_PREEMPTION, true)
SCHED_FEAT(HRTICK, false)
SCHED_FEAT(DOUBLE_TICK, false)
-SCHED_FEAT(LB_BIAS, true)
+SCHED_FEAT(LB_BIAS, false)
/*
* Decrement CPU capacity based on time not spent running tasks