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https://issues.apache.org/jira/browse/CASSANDRA-16499?page=com.atlassian.jira.plugin.system.issuetabpanels:comment-tabpanel&focusedCommentId=17298715#comment-17298715
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Tom Whitmore commented on CASSANDRA-16499:
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Hi [~benedict], thanks very much for your response.
I was actually very curious to find out how this change affects performance on
a Linux environment. At this stage it's not known, but given the improvements
on Windows it seems like it might be prudent to benchmark whether perhaps some
benefit could be realized on Linux too.
It's two commits and a before/after with two 20-second stress tests – any
chance you or another contributor ([~clohfink] perhaps) could give this a try?
Patch is here:
* [^proposed fix patches.zip]
Let me know your results.
> single-threaded write workloads can spend ~70% time waiting on SEPExecutor
> --------------------------------------------------------------------------
>
> Key: CASSANDRA-16499
> URL: https://issues.apache.org/jira/browse/CASSANDRA-16499
> Project: Cassandra
> Issue Type: Bug
> Reporter: Tom Whitmore
> Priority: Normal
> Attachments: Cassandra Write trace 5; warmed up -- 02.txt,
> MaybeStartSpinning Unpark fix on 4beta4; Cassandra Stress results -- 01.txt,
> MaybeStartSpinning Unpark fix; Cassandra Stress results -- 02.txt, SEPWorker
> trace 2 delay examples -- 01.txt, SEPWorker trace 2 delays.txt, SEPWorker
> trace 3 delays; with proposed fix.txt, Single-thread Latencies report --
> 01.xlsx, Stress Write 2 sgl-thread vs 10 threads -- 01.txt, Stress Write
> sgl-thread 1 -- 01.txt, Stress Write trace 1.txt, proposed fix patches.zip,
> tracing & experimental change patches.zip
>
>
> Hi all! While conducting benchmarking of Cassandra against other databases
> for a particular healthcare solution, I found some surprising anomalies in
> single-threaded write performance.
> Analysis & tracing suggest there might be some inefficiencies in inter-thread
> execution in Cassandra;
> * Tracing showed an average delay of 1.52 ms between
> StorageProxy.performLocally() being called, and the LocalMutationRunnable
> actually executing.
> * Total operation time averaged 2.06 ms (measured at Message.Dispatcher
> processRequest()). This suggested ~72% of the +total operation time+ being
> lost waiting for thread scheduling in SEPExecutor.
> * With I tested with multiple threads, performance with 10 threads was 27x
> higher. This supports a hypothesis that scheduling delays may be hindering
> single-threaded progress.
> * Transaction throughput for Cassandra with a single-threaded workload,
> measured far lower than that of PostgreSQL on the same hardware. Postgres
> achieved ~200k committed transactions/ minute including fsync; Cassandra
> achieves ~37k per minute. Given they are both essentially writing to a commit
> log, it may be informative to understand why the differences are arising.
> Cassandra's architecture seems in theory like it might be aligned for our
> usecase, given the Commit Log and Log Structured Merge design. Some of our
> customers have configurations posing high single-threaded loads. Therefore I
> spent some time trying to understand why efficiency for such loads seemed
> less than expected.
> My investigation so far:
> * benchmarked Cassandra 3.11.10
> * stack-dumped it under load & identified a pattern of threads waiting in
> AbstractWriteResponseHandler while nothing else is busy
> * checked out Cassandra 3.11.10 source, built it, debugged & stepped
> through key areas to try and understand behavior.
> * instrumented key areas with custom tracing code & timestamps to 0.01
> millisecond.
> ** _see patch attached._
> * benchmarked Cassandra 4 beta 4 & verified delays also present
> * shown & traced delays with my healthcare scenario benchmark
> * shown & traced delays with the +Cassandra stress-test+ tool.
> The configuration was:
> * single-node Cassandra running locally, on a recent Dell laptop with NVmE
> SSD.
> * for the healthcare scenario:
> ** Java client app running 1 or 10 threads;
> ** trialled LOCAL_ONE and ANY consistency levels;
> ** trialled unbatched, BatchType.UNLOGGED and BatchType.LOGGED.
> * for 'cassandra-stress':
> ** cassandra-stress.bat write n=10000 -rate threads=1
> Without deeply understanding the code, I have considered a couple of possible
> areas/ ideas as to improvement. I worked on the 3.11.10 codebase. I'd be
> interested to understand whether or not these might be sound or not; note
> that neither achieves as much improvement as might theoretically be hoped for.
> My investigations based on the key observation of large delays between
> StorageProxy.performLocally() being invoked and the LocalMutationRunnable
> actually executing, for single-threaded workloads.
> What I looked at:
> * Without fully understanding SEPExecutor.takeWorkPermit() – it answers true
> to execute immediately, false if scheduled – for this workload scheduling
> seemed slow.
> ** takeWorkPermit() answers false if no work permits are available.
> ** I noticed takeWorkPermit() also answers false if no task permits are
> available, +even if no task permit need be taken.+
> ** by changing this condition I was able to gain +45% performance.
> * Without deeply understanding SEP Executor/ Worker or sleep algorithms, I
> noted that in a single-thread workload SEPWorkers would likely spin & be put
> to sleep for a period after completing each task.
> ** I did wonder if the park -times- or parking behavior (empirically
> observed at 10,000 - 20,000 nanos) could contribute to threads being more
> aggressively de-scheduled.
> ** an experiment in keeping 1 SEPWorker awake (not sleeping at all) gained
> +7.9% performance.
> ** _Note: initial ticket misread code as requesting 500,000 nanosecond
> sleeps. This has now been corrected._
> * Without deeply understanding SEP Executor/ Worker, I feel there may be
> more questions around how SEP Workers are brought out of SPINNING/ sleep
> state and whether this logic functions promptly & correctly.
> ** At a very initial stage of investigation: +SEPWorker.assign() unparks
> threads when transitioning out of STOPPED state, but code appears potentially
> not to unpark threads coming out of SPINNING state.+
> ** _This is a very cursory "looking at the code" & initial debugging stage,
> but I'm not certain it's accurate._ _Attempted experiments to unpark for the
> SPINNING -> Work transition so far_ _have_ _caused lockups of 100% machine
> CPU use or dropped messages, rather than helping anything._
> ** _If & when I can find out more, I'll post it here._
> I will post the tracing code & traces I captured, and welcome some feedback
> and thoughts on these performance questions from the Cassandra dev community.
> Thanks all!
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