Performance Optimization

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(m)Ruby on Small Devices

Shashank Daté • November 11, 2016 • Cincinnati, OH

The video titled '(m)Ruby on Small Devices' presented by Shashank Daté at RubyConf 2016 focuses on the concept of mruby, a lightweight implementation of the Ruby programming language that is optimized for use on small, resource-constrained devices such as the Raspberry Pi Zero. The talk begins with an introduction to mruby, clarifying its relationship to Ruby and its compatibility with Ruby version 1.9. The speaker emphasizes mruby's minimalistic nature, which makes it suitable for embedding and linking within applications on small devices.

Key points discussed in the video include:

  • Definition of mruby: It is a minimalistic version of Ruby designed to be lightweight and has fewer classes and modules compared to Ruby 2.3.
  • Target Devices: The focus is on small devices like Raspberry Pi Zero, which has limited RAM and CPU capability, making it a challenge for typical programming environments.
  • Memory and Performance: The speaker highlights how mruby uses less memory and CPU cycles than standard Ruby, making it ideal for resource-constrained environments. For instance, Ruby consumes around 6 MB of RAM compared to mruby's significantly lower usage.
  • Embedding and Linking: Daté explains the embedding of Ruby scripts into C code and linking necessary libraries to create executables that run embedded Ruby code.
  • Installation Process: The steps to install mruby on devices such as the Raspberry Pi are outlined, including the prerequisites like Git and GCC.
  • Demonstration of Functionality: The presenter showcases a simple Ruby program using mruby, illustrating how to compile and execute it as a bytecode file. The demo emphasizes the modular nature of mruby, allowing the user to customize which components to include.
  • Comparison with Lua: Mruby is compared with Lua, another lightweight scripting language, noting its advantages and limitations in the context of embedding.
  • Community Involvement: Daté notes the need for community support to expand the available libraries for mruby and promote its use in various applications.

The conclusion of the presentation is a reflection on the possibilities of using mruby in constrained environments while stressing the importance of understanding hardware limitations and the embedded environment before implementing code. The speaker encourages audience interaction and exploration of mruby during a live demo session on a Raspberry Pi.

(m)Ruby on Small Devices
Shashank Daté • November 11, 2016 • Cincinnati, OH

RubyConf 2016 - (m)Ruby on small devices by Shashank Daté

mruby is the lightweight implementation of the Ruby language for linking and embedding within your applications. This talk will show how it can be used on small resource constrained devices like Raspberry Pi Zero and exploring some techniques of memory and run-time optimizations.

RubyConf 2016

00:00:15.860 Good morning, everybody. As you can see, the title of my talk is '(m)Ruby on Small Devices.' By now, you are all introduced to mRuby.
00:00:21.240 There were two talks on mRuby: one by Eric and one by Kosher. I apologize if I am butchering the name. I did not tell you what mRuby stands for. So, let’s clarify that.
00:00:45.649 mRuby is the minimalistic Ruby, considered as the lightweight sibling of Ruby. It complies with part of the Ruby ISO standard and is sponsored by an institute in Japan. I will follow a convention of using the name 'mRuby' with a capital 'R' to indicate the language and 'mruby' with a lowercase 'r' for the interpreter, just as we do with Ruby.
00:01:15.360 The language is derived from an ISO standard for Ruby, believe it or not. However, mRuby is not Ruby; it is a smaller subset. From my last count of the documentation of mRuby and Ruby, I found that mRuby has about 36 classes and 7 modules, and not all classes have the same list of methods. In comparison, Ruby 2.3 has about 105 classes and 19 modules.
00:01:48.180 The syntax of mRuby is compatible with version 1.9 of Ruby, not with 2.x, because it was conceived before Ruby 2.x was released. The work on mRuby started around 2010, as Matt told me the other day. It has a more liberal license—the MIT license—so you can use it for fun and profit.
00:02:22.530 Now, why should we use something like mRuby? The stated purpose of mRuby is for embedding and linking, especially in the age of small devices. We have devices like Fitbits talking to phones, which in turn connect to the cloud, controlling our Philips Hue lights. These are small devices we want to manage, and using lighter languages is one of the purposes of mRuby.
00:02:52.410 We want to embed and link it, and also because Matt is interested in developing it. Just as there is a rich man named Mitch, we too are nice people working on mRuby.
00:03:19.739 Now, when I refer to 'lightweight,' I mean that it uses less memory during runtime, and the size of the executable must be small enough to fit on small devices. It consumes fewer CPU cycles, making it fast enough to drive devices. It has minimal dependencies on external libraries, which we will explore in the demo part of my session.
00:03:57.570 So, what do we mean by small devices? In this context, I am referring to devices like the Raspberry Pi Zero, which is a single-board computer that costs about five dollars, has a 32-bit single-core CPU, and 512 MB of RAM.
00:04:11.010 We must ensure that everything we do on this tiny computer fits within its constraints. The Raspberry Pi has storage through microSD cards, and we will have a Birds of a Feather session soon where we can hack these Raspberry Pis. I often play with these devices for fun; however, the one I’m using for my demo today is a slightly beefier version because I need to run more intense tasks.
00:04:41.310 This is my first time doing this presentation from a Raspberry Pi running here at the podium. I want to give a huge shoutout to the organizers for accommodating my request and to the AV team for their assistance last night. So, Raspberry Pi is not just for fun; I also use it for profit.
00:05:15.180 I work for a closed-loop credit card company that not many people use unless they have a fleet of trucks or jets. We have fuel cards, and these POS devices are small devices as well. Compared to the Raspberry Pi, they are more bulky and heavier, but in terms of specifications, they operate on a 200 MHz ARM9 32-bit RISC CPU and have only 6 MB of RAM, 2 MB of which is available for my program.
00:06:02.430 Programming on such limited devices is challenging, and my dream is to run mRuby on them. The crux of the issue is that there are not many libraries available for mRuby that run properly on these devices, but with support from the community, I aim to make it happen.
00:06:46.640 Now, this is the company that I work for, Chainlyst. We use a combination of Ruby, Rails, Ember, and Oracle in our stack. If anyone here is interested in a career, we have a 'Now Hiring' link on our website. Please feel free to reach out to me after the talk.
00:07:25.230 Next, let’s discuss embedding and linking. Yesterday's talk highlighted embedding, where you can take a Ruby script and embed it inside C code. Most of the mRuby code I will show today will include some C components.
00:08:01.949 For example, I am creating a string, 'hello world,' loading that string into the mRuby evaluator, which interprets and executes the string, then closes the evaluator.
00:08:45.260 Next, we talk about linking. My system uses GCC as the compiler. Initially, you provide the path to include the mRuby headers required by C code. Expect that this talk engages an audience that understands these concepts, and I will link the Ruby library, 'libmruby,' into my C code, creating an executable that will execute and run the Ruby code embedded inside.
00:09:30.960 To install mRuby, you need some prerequisites. You will need Git, GCC to build mRuby, and a parser generator like Bison on a Linux platform. The issue is that you need Ruby itself to compile mRuby on the device.
00:10:12.600 For most small devices, it can be challenging to have Ruby installed, but for Raspberry Pi, it’s not a problem. I first install Ruby, clone the Git repository, and use 'mini rake' to compile mRuby on my Raspberry Pi.
00:10:48.180 When compiled, mRuby generates various binaries, including the interpreter, which allows interactive sessions similar to Ruby's IRB. The compiler converts the bytecode into a symbol table or an actual executable, and there's even a debugger.
00:11:39.590 For our demo, I’ve prepared a simple Ruby program, 'hello.rb,' which simply outputs 'Hello World.' Compiling it will produce a bytecode file, 'hello.mrb,' which the mRuby compiler can interpret. If you want to examine this file’s contents, you can use the 'hexdump' command.
00:12:48.990 To run this bytecode using mRuby, you need to pass the '-b' flag, ensuring it executes as intended. You can also generate bytecode as a symbol table with the '-B' flag, including that generated file in the C code.
00:13:10.150 The result allows for embedding the mRuby bytecode efficiently within C code. So, how does mRuby generate gems? It has a gem generator called 'mrbgems.' mRuby offers very modular options, allowing you to choose which Ruby parts you want in your compiled version.
00:13:31.760 You can modify the 'build_config.rb' file that comes with the Git repository to include or exclude specific gems, effectively generating an executable that’s personalized for particular needs.
00:14:18.940 The embedded world is often driven by another lightweight embedding language called Lua, which has been around for a long time. Although mRuby is making strides, it's important to note that Lua might outperform mRuby in some contexts due to its simpler design.
00:14:37.080 Lua possesses a prototype-based structure with no classes, making it smaller and faster in certain scenarios. Both languages have similar structures for embedding scripts into C code, demonstrating soft similarity.
00:15:54.909 As we move forward, I will transition to the demo section, and while I showcase mRuby, please feel free to experiment on my Raspberry Pi. I will share the IP address for SSH access, which is 10.35.5.141, and use the password 'RubyConf2016'.
00:17:05.070 I encourage you to look at the Raspberry Pi session and hack it as you please. Please note that this Raspberry Pi will be formatted after the conference. Moving forward in the demo, I want to show you what I mean by lightweight binaries.
00:18:27.669 The mRuby binary size is about 1.5 MB, which is suitable because it must run within a 2 MB limit for my small devices. To check dependencies, using the 'ldd' command reveals its runtime libraries. If you do this for Ruby, you would observe more dependencies.
00:19:30.780 When looking at the sizes, the compiled version can be deceiving, as it may rely on additional libraries. It's crucial to measure both storage size on disk and memory usage when running on devices.
00:20:00.390 Lastly, I'll demonstrate the memory consumption of running Ruby and compare it with mRuby to see how it behaves under limited resources.
00:20:27.780 As you can see, Ruby consumes around 6 MB of RAM, which is not suitable for smaller devices. In contrast, mRuby uses substantially less RAM when running similar programs, making it viable for those environments.
00:21:24.900 Performance benchmarks also show mRuby's speed when executing tasks like calculating Fibonacci numbers. In my experiments, mRuby has particularly behaved favorably in terms of speed compared to Ruby.
00:21:55.230 Another important factor for devices is the speed at which they load applications. I’ll share how various languages perform on this metric, including timing for Ruby, mRuby, Lua, and others.
00:22:35.940 The time it takes to initialize and run applications can vary widely across languages. As you can see, each language has its own performance characteristics that matter significantly when working on constrained devices.
00:23:25.550 Through experimentation, I’ve found that mRuby has significant hurdles in terms of cross-compiling for my target devices. Some libraries necessary for mRuby may not be available on those devices, making it particularly challenging.
00:24:50.370 I want to emphasize that developers must understand their operating environment well before embedding code. Feel free to ask any questions or seek clarifications.
00:34:20.970 As a closing note, the use of mRuby on constrained devices is certainly possible; it just requires careful consideration of the hardware and the embedded environment to be successful.
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