NXP Automotive Processors – Product Map
Automotive Microcontrollers and Processors product map, listing specification tables.
Broad range of automotive software tools for helping you to simplify and shorten the time required to build ECUs based on NXP microcontrollers: runtime and embedded software, toolboxes compatible with MATLAB/Simulink® a wide array of drivers, libraries, stacks and boot loader software, also MCU initialization tools, auto code generation support to AUTOSAR Microcontroller Abstraction Layers (MCAL) and Operating Systems (OS).
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A complimentary straightforward development tool based on open-source software, with no code-size limitations that enable editing, compiling, and debugging.
A complete highly-visual and automated framework to accelerate development of the most complex embedded applications.
AUTOSAR (Classic) Software supports the development of standardized electronic systems that improve quality, performance, safety, and environmental friendliness. It also helps to simplify the process of updating software over the lifetime of a vehicle.
A user-friendly real-time debug monitor and data visualization tool that enables runtime configuration and tuning of embedded software applications.
A comprehensive collection of tools that plug into the MATLAB® and Simulink® model-based design environment to support fast prototyping, verification and validation on NXP microcontroller-based real targets.
A complimentary development tool enabling editing, simulation, compiling, and deployment of designs from MATLAB environment for vision and sensor fusion using S32V234 processor.
A graphical tool for configuring and auto-generating all the necessary software to execute control algorithms on MPC5554 MCUs.
A graphical tool to easily configure and generate complete documentation for MPC5XXX MCUs.
A GNU (GNU AS) based assembler for the Signal Processing Toolbox (SPT) instructions implemented for MPC5775K MCUs.
A toolkit enabling developers to introduce DL algorithms into their applications and to continue satisfying automotive standards, helping them to move quickly and easily from a development environment to full implementation of AI applications in automotive-grade embedded processors.
An extensive suite of robust hardware interface and hardware abstraction layers, peripheral drivers, real-time operating system (RTOS), stacks and middleware that helps simplifying and accelerating application development on several S32 systems on chips (SOCs).
A HMTL-based user-friendly graphical plug-in tool for PMSM FOC and BLDC motor control applications and real-time control structure parameter tuning through FreeMASTER debugging tool.
A precompiled off-the-shelf software library with building blocks for motor control and general mathematical applications.
A tool for software development to configure the GTM through an Eclipse-based GUI for NXP MCUs containing GTM IP.
A programmable I/O controller for performing complex timing and I/O management independently of the CPU.
A complex AVB solution for multichannel audio streaming and syntonized audio playback over multiple audio end nodes for NXP Power Architecture® and Arm® processors
A runtime software to implement near-field communication (NFC) protocol stack.
Hardware boards, kits, and systems to quick start prototyping, evaluating, or developing for automotive and industrial advanced driver assistance systems (ADAS), in-vehicle networking, body, chassis, motor control, powertrain, and safety applications.
Automotive Microcontrollers and Processors product map, listing specification tables.
Learn to use the S32K Power Estimation Tool (S32K-PET) for gaining valuable insights about power consumption right at the start when creating energy-efficient automotive-embedded applications.
How to configure and generate embedded software automatically with our NXP Model-Based Design Toolbox (MBDT) from MATLAB® and Simulink.
Learn to simplify your motor control application development using dedicated motor control libraries for automotive applications while reducing the time to market.
Learn how to use MathWorks’ new Motor Control Blockset™ together with Embedded Coder® to generate C code for motor control algorithms.
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