MATLAB Coder™, Simulink Coder™, and Embedded Coder® generate ANSI/ISO C/C++ code that can be compiled and executed on NXP processors. Embedded Coder lets you easily configure the code generated from MATLAB® and Simulink® algorithms to control software interfaces, optimize execution performance, and minimize memory consumption.
Using NXP toolboxes based on Embedded Coder, you can generate code from your Simulink models and implement it directly on the supported processors listed below, generate processor-optimized code, perform processor-in-the-loop (PIL) tests with execution profiling, and use a full set of I/O devices and peripherals.
You can also use Embedded Coder to create your own NXP processor-specific customizations using published APIs and reference examples. For example, you can generate processor-specific (non- ANSI) optimized code.
NXP processor families compatible with Embedded Coder generated code include:
|8 bit||16 bit||32 bit||64 bit|
|HC08 MCUs||HC12, HC16 MCUs||Kinetis ARM® Cortex MCUs||QorIQ ARM Processors|
|HC05, HC11 MCUs||HCS12, S12X MCUs||i.MX Application Processors|
|RS08, S08 MCUs||DSP5685x, DSP56F8xx DSCs||ColdFire+/ColdFire® MCUs|
|LPC9XX/80C51||MC56F8xx DSCs||MC56F84xxx DSCs|
|S12 MagniV||MPC7xxx, MPC8xxx Power Architecture® (PowerPC®)|
|MPC5xxx (Qorivva) Power Architecture Automotive MCUs|
|MPC57xx/MPC57xx/MPC55xx AUTOMOTIVE & Industrial MCUs|
|QorIQ Processing Platforms
QorIQ Qonverge Platform
|S32 Processors and MCUs|
|Vybrid Controller Solutions|
LPC800/1100/1200 ARM Cortex-M0+/M0 based MCUs
|MAC57Dxxx ARM-based MCUs|
RAppID Toolbox support includes:
Motor Control Development Toolbox support includes:
MathWorks does not offer an Embedded Coder Hardware Support Package for the devices listed on this page. Third Party Connection hardware and software products may exist, and MathWorks Consulting Services is available to aid with hardware integrations.
Any NXP hardware listed above