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The current assignor used in KIP-1071 is verbatim the assignor used on the client-side. The assignor performance was not a big concern on the client-side, and it seems some additional performance overhead has crept in during the adaptation to the broker-side interfaces, so we expect it to be too slow for groups of non-trivial size. We base ourselves on the share-group parameters for these benchmarks: - Up to 1000 members - Up to 100 topics - Up to 100 partitions per topic Note, however, that the parameters influencing the Streams assignment are different and more complicated compared to regular consumer groups / share consumer groups. The assignment logic is independent of the number of topics, but depends on the number of subtopologies. A subtopology may read from multiple topics. We simplify this relationship by assuming one topic per subtopology Members may be part of the same process or separate processes. We introduce a parameter membersPerProcess to tune two extreme configurations (1, 50). We define 50% of the subtopologies to be stateful. Stateful subtopologies get standby replicas assigned, if enabled. For example, if we have 100 subtopologies with 100 partitions, we get 10,000 active tasks and 5,000 standby tasks. Reviewers: Bill Bejeck <bbejeck@apache.org> |
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| src/main/java/org/apache/kafka/jmh | ||
| README.md | ||
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README.md
JMH-Benchmarks module
This module contains benchmarks written using JMH from OpenJDK. Writing correct micro-benchmarks in Java (or another JVM language) is difficult and there are many non-obvious pitfalls (many due to compiler optimizations). JMH is a framework for running and analyzing benchmarks (micro or macro) written in Java (or another JVM language).
Running benchmarks
If you want to set specific JMH flags or only run certain benchmarks, passing arguments via
gradle tasks is cumbersome. These are simplified by the provided jmh.sh script.
The default behavior is to run all benchmarks:
./jmh-benchmarks/jmh.sh
Pass a pattern or name after the command to select the benchmarks:
./jmh-benchmarks/jmh.sh LRUCacheBenchmark
Check which benchmarks that match the provided pattern:
./jmh-benchmarks/jmh.sh -l LRUCacheBenchmark
Run a specific test and override the number of forks, iterations and warm-up iteration to 2:
./jmh-benchmarks/jmh.sh -f 2 -i 2 -wi 2 LRUCacheBenchmark
Run a specific test with async and GC profilers on Linux and flame graph output:
./jmh-benchmarks/jmh.sh -prof gc -prof async:libPath=/path/to/libasyncProfiler.so\;output=flamegraph LRUCacheBenchmark
The following sections cover async profiler and GC profilers in more detail.
Using JMH with async profiler
It's good practice to check profiler output for microbenchmarks in order to verify that they represent the expected application behavior and measure what you expect to measure. Some example pitfalls include the use of expensive mocks or accidental inclusion of test setup code in the benchmarked code. JMH includes async-profiler integration that makes this easy:
./jmh-benchmarks/jmh.sh -prof async:libPath=/path/to/libasyncProfiler.so
With flame graph output (the semicolon is escaped to ensure it is not treated as a command separator):
./jmh-benchmarks/jmh.sh -prof async:libPath=/path/to/libasyncProfiler.so\;output=flamegraph
Simultaneous cpu, allocation and lock profiling with async profiler 2.0 and jfr output (the semicolon is escaped to ensure it is not treated as a command separator):
./jmh-benchmarks/jmh.sh -prof async:libPath=/path/to/libasyncProfiler.so\;output=jfr\;alloc\;lock LRUCacheBenchmark
A number of arguments can be passed to configure async profiler, run the following for a description:
./jmh-benchmarks/jmh.sh -prof async:help
Using JMH GC profiler
It's good practice to run your benchmark with -prof gc to measure its allocation rate:
./jmh-benchmarks/jmh.sh -prof gc
Of particular importance is the norm alloc rates, which measure the allocations per operation rather than allocations
per second which can increase when you have make your code faster.
Running JMH outside of gradle
The JMH benchmarks can be run outside of gradle as you would with any executable jar file:
java -jar <kafka-repo-dir>/jmh-benchmarks/build/libs/kafka-jmh-benchmarks-*.jar -f2 LRUCacheBenchmark
Writing benchmarks
For help in writing correct JMH tests, the best place to start is the sample code provided by the JMH project.
Typically, JMH is expected to run as a separate project in Maven. The jmh-benchmarks module uses the gradle shadow jar plugin to emulate this behavior, by creating the required uber-jar file containing the benchmarking code and required JMH classes.
JMH is highly configurable and users are encouraged to look through the samples for suggestions on what options are available. A good tutorial for using JMH can be found here
Gradle Tasks
If no benchmark mode is specified, the default is used which is throughput. It is assumed that users run
the gradle tasks with ./gradlew from the root of the Kafka project.
-
jmh-benchmarks:shadowJar- creates the uber jar required to run the benchmarks. -
jmh-benchmarks:jmh- runs thecleanandshadowJartasks followed by all the benchmarks.
JMH Options
Some common JMH options are:
-e <regexp+> Benchmarks to exclude from the run.
-f <int> How many times to fork a single benchmark. Use 0 to
disable forking altogether. Warning: disabling
forking may have detrimental impact on benchmark
and infrastructure reliability, you might want
to use different warmup mode instead.
-i <int> Number of measurement iterations to do. Measurement
iterations are counted towards the benchmark score.
(default: 1 for SingleShotTime, and 5 for all other
modes)
-l List the benchmarks that match a filter, and exit.
-lprof List profilers, and exit.
-o <filename> Redirect human-readable output to a given file.
-prof <profiler> Use profilers to collect additional benchmark data.
Some profilers are not available on all JVMs and/or
all OSes. Please see the list of available profilers
with -lprof.
-v <mode> Verbosity mode. Available modes are: [SILENT, NORMAL,
EXTRA]
-wi <int> Number of warmup iterations to do. Warmup iterations
are not counted towards the benchmark score. (default:
0 for SingleShotTime, and 5 for all other modes)
To view all options run jmh with the -h flag.