• Generate C and C++ code optimized for embedded systems using Embedded 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.
Model AUTOSAR queued sender-receiver communication using Simulink and Embedded Coder.
  • Develop an automotive powertrain controller using Model-Based Design.
  • Configure and generate AUTOSAR-compliant code, and export AUTOSAR software component description XML files for a Simulink
  • Design, simulate, and generate code for designs running on a Texas Instruments™ Piccolo microcontroller using Embedded Coder™. Verify the object code running on the MCU using PIL testing.
  • Generate AUTOSAR-compliant code and export component description XML files using Simulink ® and Embedded Coder ® .
  • Perform simulation of the AUTOSAR client-server using Embedded Coder ® .
  • Test AUTOSAR software algorithms and perform client-server simulation using Embedded Coder ® and Simulink ® .
  • Model the behavior of saving an odometer value to non-volatile memory when ECU goes to sleep using the newly introduced Initiate, Terminate, and Preconfigured NvM AUTOSAR BSW blocks.
Learn how to import an AUTOSAR composition description file to Simulink with a demonstration of a top-down workflow using a live script example.
  • Use Simulink Coder ® to generate C code from fixed-point models.
  • Use Embedded Coder and Simulink ® to carry out verification through hardware-software cosimulation.
  • Generate code, run processor-in-the-loop (PIL) testing, and log signals and tune parameters in real-time using the CAN Calibration Protocol (CCP) and Simulink External Mode.
  • Generate code and run processor-in-the-loop (PIL) testing for the ARM9 processor using the Hitex STR9-comstick. The demo kit contains example models, code generation files, and an instruction guide.
  • Design, simulate, and generate code for designs running on an ARM Coretex-A8 core of a BeagleBoard using Embedded Coder™.
  • Generate code for a Green Hills ® INTEGRITY target and perform processor-in-the-loop (PIL) testing on the PowerPC simulator using the MULTI ® IDE.
  • Simulink ® and Embedded Coder ® provide a complete environment to design algorithms, generate code, and execute and verify code. This session is for Simulink users working on hardware-related...
  • Install Embedded Coder ® Hardware Support Package for BeagleBone Black, and explore the support package by watching a demo on how to install and execute the image inversion algorithm.