Product Release Announcement Automotive Embedded Systems NXP Model-Based Design Toolbox for LAX – version 1.2.0 RTM   The Automotive Embedded Systems, Model-Based Design Tools Team at NXP Semiconductors, is pleased to announce the release of the Model-Based Design Toolbox for LAX version 1.2.0 RTM. This release supports automatic code generation for ARM Cortex-A53 and NXP LAX Accelerator cores from MATLAB for NXP S32R45 Automotive Microprocessors. This release adds support for RSDK 1.2.0, improves to code generation and Radar processing demo, and adds support for new trigonometric LAX kernels. The product comes with 60 examples, covering the supported RSDK LAX Kernels by MATLAB API and demonstrating the programming of the LAX accelerator from MATLAB environment.   Target audience: This product is part of the Automotive SW – Model-Based Design Toolbox.   FlexNet Location: https://nxp.flexnetoperations.com/control/frse/download?element=3983168   Technical Support: NXP Model-Based Design Toolbox for LAX issues will be tracked through the NXP Model-Based Design Tools Community space. https://community.nxp.com/community/mbdt   Release Content: Automatic C code generation from MATLAB® for NXP S32R45: ARM Cortex-A53 NXP LAX Accelerator Support Linux application build and run NXP Auto Linux BSP 37.0 for S32R45 Includes MATLAB API for additional RSDK LAX Kernels highly optimized for LAX accelerator add, sub, mul, div, times, cT, inv abs, abs2, sqrtAbs ¸conj, norm, norm2 diag, eye, zeros, ones, find, sort cospi, sinpi, tanpi, cispi, sincpi acospi, asinpi, atanpi, atan2pi Improved code generation and reduced memory usage Support for Radar SDK version 1.2.0 Support for MATLAB versions: R2021a R2021b R2022a R2022b R2023a R2023b R2024a More than 60 examples showcasing the supported functionalities: Cholesky Gauss-Newton Eigen (new) Kalman Filter Linear Regression Navier-Stokes QR Factorization (updated) MUSIC DoA (updated) Radar processing demo (updated) Range FFT, Doppler FFT, and Non-Coherent Combining offloaded to NXP SPT accelerator MUSIC DoA offloaded to NXP LAX accelerator     For more details, features, and how to use the new functionalities, please refer to the Release Notes and Quick Start Guides documents attached.   MATLAB® Integration: The NXP Model-Based Design Toolbox extends the MATLAB® experience by allowing customers to evaluate and use NXP LAX Accelerator from NXP’s S32R45 MPU and evaluation board solutions out-of-the-box. NXP Model-Based Design Toolbox for LAX version 1.2.0 is fully integrated with MATLAB® environment.       Target Audience: This release (1.2.0 RTM) is intended for technology demonstration, evaluation purposes, and prototyping on NXP S32R45 MCUs and Evaluation Boards.   Useful Resources: Examples, Trainings, and Support: https://community.nxp.com/community/mbdt    

        Product Release Announcement Automotive Processing NXP Model-Based Design Toolbox for HCP – version 1.2.0 RFP       The Automotive Processing, Model-Based Design Tools Team at NXP Semiconductors, is pleased to announce the release of the Model-Based Design Toolbox for HCP version 1.2.0. This release supports automatic code generation from MATLAB/Simulink for S32G2xx, S32S2xx, and S32R41 MPUs. This new product adds support for new MATLAB versions R2022a and R2022b for running in Processor-in-the-Loop mode.   FlexNet Location: https://nxp.flexnetoperations.com/control/frse/download?element=13897177   Technical Support: NXP Model-Based Design Toolbox for HCP issues will be tracked through NXP Model-Based Design Tools Community space. https://community.nxp.com/community/mbdt     Release Content Automatic C code generation from MATLAB® for NXP S32G2xx derivatives: S32G274A Automatic C code generation from MATLAB® for NXP S32S2xx derivatives: S32S247TV Automatic C code generation from MATLAB® for NXP S32R4x derivatives: S32R41 Supported Evaluation Boards GoldBox Development Platform (S32G-VNP-RDB2 Reference Design Board) GreenBox II Development Platform X-S32R41-EVB Development Board Support for MATLAB versions: R2020a R2020b R2021a R2021b R2022a R2022b Tools update for S32R41: S32 Flash Tool v2.1 S32 Debugger v3.5 Simulation mode: We provide support for Software-in-Loop (SIL) and Processor-in-Loop (PIL) simulation mode with code execution profiling: Includes an Example library with 16 examples that cover: Software-in-Loop (SIL), Processor-in-Loop (PIL) GUI to help you setup the toolbox and the evaluation board :     For more details, features, and how to use the new functionalities, please refer to the Release Notes document attached.   MATLAB® Integration The NXP Model-Based Design Toolbox extends the MATLAB® and Simulink® experience by allowing customers to evaluate and use NXP’s S32G2xx, S32S2xx, and S32R41  processors and evaluation board solutions out-of-the-box with: NXP Model-Based Design Toolbox for HCP version 1.2.0 (RFP) is fully integrated with MATLAB® environment in terms of installation:       Target Audience This release (1.2.0 RFP) is intended for technology demonstration, evaluation purposes, and prototyping S32G2xx, S32S2xx, and S32R41 and Evaluation Boards.   Useful Resources Examples, Trainings and Support: https://community.nxp.com/community/mbdt    

General Installer and Setup  How to install the license of MBDT for S32K3?  How to setup the S32K344 toolbox and EVB?  How to export the generated code to S32DS3.4? Export generated projects in MBDT for s32k3XX  Programming methods MBDT for S32k3 using P&E Multilink Custom code usage SENT Protocol Support in S32K3 MBDT Sequential reset S32K344-Q172 sequential reset SIL / PIL / External Mode External mode External mode example wouldn't compile after update  S32K3X4EVB-Q257 with MBDT PIL Example: Not able to run Simple PIL S32CT example Peripherals ADC How to add a new ADC channel using the external configuration tool  SPI How to send 32 bit frames  DIO S32K3x4-Q172P_with_MBDT_Blink_Project DIO and PWM configuration issues ICU PWM Duty cycle measurement PWM PWM raising edge and falling edge detection Interrupt based PWM generation CAN FreeMASTER over CAN connection issue  Apps Motor Control SPI configuration MODEL based design tool box- 32 bit instruction (SIMULINK)