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Optimizing Production Performance with MRI JIT

Takashi Kokubun • November 08, 2021 • Denver, CO

In his talk at RubyConf 2021, Takashi Kokubun presents strategies for optimizing production performance in Ruby applications utilizing the MRI JIT (Just-In-Time) compiler. He discusses the challenges and advancements related to the JIT compiler since its introduction in Ruby 2.6, particularly focusing on the improvements made in Ruby 3.0.

Key Points Discussed:

  • Introduction to MRI JIT: Kokubun begins by explaining the different versions of the JIT compiler, including MJIT, which leverages a C compiler, and the upcoming Widget project aimed at optimizing performance further. He highlights how MRI has evolved and the reasons behind slowing execution in previous Ruby versions.
  • Tuning JIT Performance for Rails Applications: He emphasizes that using Ruby 3 (particularly version 3.0) enables significantly better performance compared to earlier versions. Kokubun provides insights into optimizing Rails applications by tuning JIT settings and recognizing the limitations of earlier Ruby versions.
  • Warming Up Performance: Kokubun introduces techniques for warming up the JIT compiler to reach peak performance. This includes setting appropriate thresholds for method calls to ensure that methods are recognized and compiled efficiently.
  • Performance Considerations and Optimizations: He discusses specific optimization tips such as adjusting the jit.max_cache option to a higher value to compile more methods, the impact of using trace points in the Rails framework, and potential locking issues that occur during method compilation.
  • Future of MRI JIT: Finally, he speculates on the future of Ruby's JIT compilation, mentioning ongoing efforts to improve performance through the integration of new compiler architectures like Widget and MIR (Mid-level Intermediate Representation).

Conclusion:

Kokubun concludes that while using the JIT compiler may initially seem to slow down production applications, with the proper tuning and understanding of its functionalities, developers can achieve significant speed improvements. He advocates for the continuous development and shift towards Widget as a promising avenue for further enhancements in Ruby performance, enhancing productivity for developers working with Ruby on Rails.

Optimizing Production Performance with MRI JIT
Takashi Kokubun • November 08, 2021 • Denver, CO

Since we introduced a JIT compiler to Ruby in 2.6, it had been known to slow down production applications like Rails. This year, we finally figured out why it was the case and found a way to fix it. Now we can even see the JIT compiler of Ruby 3.0 optimizes one of the most popular Rails applications.

In this talk, you'll learn some tricks to make sure it happens on your production application. Get the easy speedup of your application for free!

RubyConf 2021

00:00:10.320 Hello everyone! Today, I'm going to talk about optimizing production performance with MRI JIT. Let me introduce myself first; my name is Takashi Kokubun. On the internet, especially on GitHub and Twitter, I use the account ID 'kokubin'. I also work as a recommender in my spare time, primarily focusing on JIT compilers and maintaining ERB, and sometimes contributing to ILB for colorizing the output and introducing some useful commands.
00:00:45.360 Today, I'm going to discuss four main topics. First, I will talk about what MRI JIT we have today. After that, I will discuss how to tune JIT performance for Rails applications, as Rails represents production workloads of Ruby usage personally. Then, I will explain how we can warm up the MRI JIT performance to reach its peak. Lastly, I will briefly discuss the future of MRI JIT.
00:01:25.520 The first section is about an emergency introduction. First of all, there are basically three types of JIT implementations currently. The first one is called MJIT, which was developed by a person named Brady B. Makarov. It was merged into Ruby in version 2.6, and we have been using it until today. By default, it is not enabled, so we need to enable it via a specific option. The main characteristic of MJIT is that it runs a C compiler to generate native code, meaning you have to have a compiler ready at runtime for it to function correctly.
00:02:26.560 Because it is implemented with a C compiler, it can support GCC, Clang, and Microsoft Visual C++. As long as you are using one of these C compilers, it operates well and is multiplatform. However, recently Shopify has been developing another JIT compiler application called 'WIDGET' that is currently in discussions to be merged into Ruby 3.1. When you see this recording, it might already have been merged. WIDGET is also planned to be optionally enabled by specifying a configuration option.
00:03:01.680 Unlike MJIT, WIDGET uses an in-process x86 assembler, so there is no need for compiling processes under a separate instance. MJIT is slower due to the overhead of invoking a C compiler process. However, WIDGET has quicker warm-up times because of its native code compilation performance. Additionally, there has been some discussion about an initiative called MIR, which is a JIT framework originally motivated by Oleg. It is designed to improve JIT performance by executing inline C code directly without invoking a separate compiler process, thus mitigating certain bottlenecks.
00:04:45.360 The next topic focuses on tuning JIT performance for Rails applications. This section begins with a graph shared by software teams that show how MRI JIT compares to non-JIT performance and MJIT. Despite some improvements, we often find that MJIT can run slower than no JIT at all. However, some tricks exist to enhance performance above the level of non-JIT execution, which I will delineate in this section. You can see that in Ruby 3.0, you can actually see performance improvements over the virtual machine's performance by utilizing features available in the new versions.
00:06:20.400 Firstly, you need to use Ruby 3 to take advantage of these improvements as Ruby versions 2.6 and 2.7 face challenges achieving optimal performance. In real-world applications, the cache efficiency of compiled methods significantly improves with Ruby 3, so if you’re on Ruby 2, you may notice duplicated cores between different methods, which leads to poor caching. Even with Ruby 3, certain issues remain, so the performance may not be consistent across all environments.
00:09:10.880 Moving on to garbage collection and compacting, some versions default to moving pointers that could be affected when embedding C pointers into native code. To address this, it's crucial to manage execution carefully when using methods compiled by MJIT. The trace point functionalities have received optimizations as well, ensuring that instructions within the virtual machine can be efficiently compiled.
00:13:39.680 When it comes to warming up the environment for the JIT compiler, you should ensure methods are called a sufficient number of times to get them recognized by the JIT. For example, you need to ensure a method is executed at least 10,000 times for it to gain JIT compilation, so if your benchmarks don’t reach this threshold, they don't effectively measure JIT performance.
00:16:15.440 As a final point, I'll delve into the future of MRI JIT. You might be curious why we have multiple JIT compilers. Rather than competing with each other, these teams work towards shared enhancements. For example, one idea being proposed is a multi-tiered JIT, utilizing both a lightweight and heavyweight compiler to optimize frequently used methods. However, the current state indicates the need to further refine the engine to enhance performance. In the long run, the focus will likely shift toward WIDGET, which has demonstrated superior performance coupled with broader developer support.
00:27:32.320 In conclusion, while there are many benchmarks suggesting that MRI JIT applications may underperform compared to their non-JIT counterparts, careful tuning and configuration can yield significant speed improvements. We see this transition as a movement towards embracing and optimizing WIDGET in collaboration with ongoing development efforts. Thank you for listening to my talk!
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