Simulink Coder


  • Hear about embedded code generation advances in R2018a with the major release of MATLAB Coder and Embedded Coder.
  • Watch how to quickly customize and generate code using Embedded Coder Quick Start, Code Perspective, and Embedded Coder Dictionary.
  • Learn about recent improvements to Embedded Coder that let you customize generated data, functions, and files according to your production software environment and standards.
  • See how Embedded Coder lets you quickly use specific optimization levels in R2018a and how it has a multifaceted approach to producing more efficient code.
  • Watch how MathWorks coder products, such as MATLAB Coder and Embedded Coder share a common coder engine that is increasingly optimized for code patterns in computer vision and automated driving/ADAS applications.
  • Hear how Embedded Coder supports automatic data buffer reuse, user-specified reuse, and starting in R2018a, an intuitive user-suggested data reuse option that minimizes unnecessary data copies in generated code. 
  • Hear how Embedded Coder generates native SIMD instructions including Intel SSE and AVX for Windows and Linux. Previous SIMD support used code wrappers but native SIMD generation in R2018a improves quality and efficiency. 
  • See how Automated Driving System Toolbox and Embedded Coder let you design, simulate, and generate C++ code for automated driving and ADAS systems. Examples include adaptive cruise control with sensor fusion and model predictive control.
  • Hear how Simulink and Embedded Coder let you model classes and generate C++ code. Object-oriented design and realization is critical for services-oriented architecture and middleware including Adaptive AUTOSAR, ROS 2.0, DDS, and more.
  • Fixed-Point Designer lets you optimize lookup tables in Simulink and generate highly efficient code with Embedded Coder. The Lookup Table optimizer compresses data into data types that minimize memory use with low impact to numerical accuracy.
  • Generate C and C++ code from Simulink ® and Stateflow ® models using Simulink Coder™.
  • Quickly generate C/C++ code for rapid prototyping or hardware-in-the-loop (HIL) testing using Simulink ® and Stateflow ® .
  • Automatically generate code for embedded systems requiring production code efficiency and quality.
  • Develop an automotive powertrain controller using Model-Based Design.
  • Use HIL testing instead of hardware prototypes to test control algorithms. Convert physical model to C code and simulate in real time on controller hardware.
  • Run a parameter sweep using a standalone executable. Convert the Simscape™ model to C code to enable rapid testing of parameter values.
  • Set up and control a robot arm in real-time with xPC Target™.