Round 10 of the Framework Benchmarks project is now available! It has been a little less than a year since the previous round and in that time, approximately 133 contributors have made 2,835 git commits. These contributions have improved the project's toolset and added many new framework test implementations.
We retired our in-house i7-2600K hardware environment for Round 10, and we changed our Amazon EC2 environment to c3.large instances. Meanwhile, the Peak R720 dual-Xeon E5 environment with 10-gigabit Ethernet is our default view for the results rendering.
Much of the effort in the past year has been focused on improving the toolset, allowing contributors to create their own test and development environment with less effort and to optionally focus on just the frameworks or platforms of interest to them. Between Round 9 and Round 10, we saw an average of 7 commits per day.
|Round 9||~105||205 configurations|
|Round 10||~125||293 configurations|
Round 10 notes and observations
- Competition for the top position in the JSON-serialization test within the Peak environment has heated up so much that Round 10 sees a more than 100% increase in the top performance versus Round 9 (2.2M versus 1.05M). For Round 10, Lwan has taken the crown. But we expect the other top contenders won't leave this a settled matter. A year ago, we said one million HTTP responses per second without load balancing was easy. We're delighted that 1M is already old news.
- Compiled languages such as C, C++, Java, Scala, and Ur continue to dominate most tests, and Lua retains its unique position of standard-bearer for JIT languages by showing up within the top 10 on many test types.
- While Go has, if anything, slightly improved since Round 9, the increased competition means Go is not in the top-ten leaderboard within the Peak environment. Go remains a strong performer in the smaller-server scenario as demonstrated by our EC2 c3.large environment.
- During our preview cycles on Round 10, we elected to—for the time being as least—remove SQLite tests. SQLite tests miss the spirit of the database tests by avoiding network communication to a secondary server (a database server), making them a bit similar to our future caching-enabled test type. The SQLite tests may return once we have the caching test type specified and implemented.
- The 2,835 git commits since Round 9 averages out to 7 commits per day. The contributors to this project have been keeping very busy! Since Round 9, 675 issues were opened and 511 issues were closed. Of those issues, 441 pull requests were created, and 321 pull requests were merged, which is roughly one PR merged per day.
- The project is now Vagrant-compatible to ease environment setup.
- Travis CI integration allows contributors to get a "green light" on pull requests shortly after submission. The massive breadth and test coverage represented by this project has created an inordinate load on the servers Travis provides for free use by the open source community. Going forward, we are working with Travis to more intelligently narrow our work-load based on the particulars of each PR. A great big thanks to Travis for being so tolerant of the crushing load we've created.
- If you would like to contribute to the project, we've migrated documentation to ReadTheDocs.
- Windows support has again fallen behind. We have received a great deal of Windows help in the past, but we don't have the internal capacity to keep it current with the evolution of the project. Round 10 does not include Windows tests, but we'd very much welcome any help catching Windows up for the next round.
- For a bit of novelty, we are presently testing our benchmarks on a Raspberry Pi 2 Model B environment. If the results are interesting, we may include this environment in Round 11.
Hamilton Turner created a Gource video that illustrates the changes between Round 9 and Round 10.
A huge thank-you to Hamilton Turner, whose contributions to Round 10 are legion. He even referenced the project in his Ph.D. thesis!
A continued and special thanks to Peak Hosting for providing the dedicated hardware server environment we're using for our project. In a world that seems all too content to consider physical hardware as exceptional, we're living a life of multi-Xeon luxury. It is so choice; if you have the means, I highly recommend picking some up.
As always, we also want to thank everyone who has contributed to the project. We are at 572 forks on Github and counting. Considering we have only recently put serious effort into making the project approachable for contributors, we're super impressed by this number.
If you have questions, comments, criticism, or would like to contribute a new test or an improvement to an existing one, please join our Google Group, visit the project at Github, or come chat with us in #techempower-fwbm on Freenode.
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