视频

  • 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.
  • 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 ® .
  • 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.
  • Integrate Simulink ® into an existing software architecture.
  • Use Embedded Coder ® to generate compiler directives for variant choices specified with Variant Source and Variant Sink blocks.