Generate code optimized for ARM Cortex-R processors
Embedded Coder® Support Package for ARM® Cortex®-R Processors lets you generate, execute, and verify code from MATLAB® and Simulink® on ARM Cortex-R based processors. Support for select real-time
Generate code optimized for ARM Cortex-A processors.
. For DSP filter support, use the ARM Cortex A Ne10 Library Support from DSP System Toolbox™.This support package is functional for R2014a and beyond.If you have download or installation issues, please
Generate code optimized for Cortex-M processors.
DSP filter support, use ARM Cortex-M CMSIS Library Support from DSP System Toolbox™.This support package is functional for R2013b and beyond.If you have download or installation issues, please contact
Generate code for the ARM Cortex-based VEX Microcontroller.
Simulink® Coder™ Support Package for ARM® Cortex®-based VEX® Microcontroller enables you to create and run Simulink® models on a VEX microcontroller. The support package includes a library of
Generate optimized DSP algorithm code for ARM Cortex-A.
DSP System Toolbox™ Support Package for ARM® Cortex®-A Processors with NEON™ technology provides optimization for the Ne10 library when generating code with Embedded Coder® for ARM Cortex
Add-on for Embedded Coder Support Package for ARM Cortex-A/ Cortex-M Processors
for ARM Cortex-M or ARM Cortex-A hardware processor platforms using Embedded Coder® Support Package for ARM® Cortex®-M Processors or Embedded Coder® Support Package for ARM® Cortex®-A Processors on your
Generate optimized DSP algorithm code for Cortex-M.
done for ARM Cortex-M processor-based systems using the Cortex Microcontroller Software Interface Standard (CMSIS) DSP library.This support package is functional for R2013b and beyond.
Generate code for the ARM Cortex-A cores on Intel SoC Platform.
Embedded Coder® Support Package for Intel® SoC Platform supports ANSI® C code generation for the ARM® portion of the Intel SoC. When used in combination with the HDL Coder™ Support Package for
This toolbox enables users to perform PIL testing on embedded processors and simulators through the MULTI IDE by Green Hills Software.
Processor architectures supported are Arm Cortex-A, Cortex-R, Cortex-M, Renesas RH850 - Supports Linux and Windows host operating systemsProcessor SupportOn MULTI’s instruction set simulator - Cortex-A –
Generate code optimized for Discovery boards
Embedded Coder® Support Package for STMicroelectronics® Discovery Boards provides support to Embedded Coder that includes automated build and execution, processor-optimized code for ARM® Cortex
Generate code optimized for BeagleBone Black.
for configuring and accessing BeagleBone Black peripherals and communication interfaces. For NEON™ optimized code for DSP filters, use ARM® Cortex® A Ne10 Library Support from DSP System Toolbox™.This
Generate code optimized for TI Concerto.
Embedded Coder® Support Package for Texas Instruments™ C2000™ F28M3x Concerto™ Processors enables you to create and run Simulink® models on Texas Instruments C28x and ARM® Cortex®-M3 MCUs. The
Generate code for the FPGA portion of RFSoC devices
applications, including executables for ARM Cortex-A53 processors.This support package is functional for R2021a and beyond.For R2021a, to access the documentation for this support package, use the following
Interface for Deep Learning Libraries from MATLAB Coder
architectures:•Intel Math Kernel Library for Deep Neural Networks (MKL-DNN) for Intel CPUs that support AVX2•ARM Compute library for ARM Cortex-A processors that support NEON instructionsThis support package is
version 188.8.131.52Hong Ye
MATLAB-to-C workflow example on IAR Embedded Workbench®.
The DSP System Toolbox™ Support Package for ARM® Cortex®-M Processors, when paired with EmbeddedCoder®, enables you to generate optimized C code from MATLAB® System objects™ or Simulink® blocks.This
MATLAB-to-C workflow example on KEIL μVision IDE
As an example of MATLAB-to-C workflow with optimized code generation on ARM Cortex-M processors, the white paper illustrates how to port the generated C code from MATLAB (R2014b) to KEIL μVision IDE
Simulink (Embedded Coder) Target for TI Stellaris LaunchPad
Simulink (Embedded Coder) Target for TI Stellaris LaunchPadSummary:TI Stellaris LaunchPad (http://www.ti.com/stellaris-launchpad-b) is a low-cost development board based on ARM Cortex
Unscented Kalman filtering tutorial: Simulink and tilt sensor case study.
with Rapid STM32 blockset and ARM Cortex-M3 processors (STM32) to develop digital signal processing systems; using a tilt sensor as a case study. It covers the development process from design, simulation