There are a number of existing ISP Graph diagrams provided within the VSDK. It is possible to import them into S32DS and use them in a new C/C++ project. The steps to do this are detailed within this document. Prerequisite Before following the steps in this HOWTO, ensure you have the Vision Extension Package for V2xx (as well as the S32V2xx development package) installed to S32DS. 1) Launch S32DS 2) Select File -> New -> S32DS Application Project. 3) Enter a project name, such as: ISP_ISP_Generic_demo 4) Select 'A53 APEX/ISP Linux' 5) Click Next 6) Deselect the APEX2 options and 'ISP Visual Modeling' option. 7) Click Finish 😎 Select File -> New -> S32DS Project from Example. 9) Select isp_generic. 10) Select Finish 11) Open isp_generic in the project explorer 12) Double-click ISP data flow ; isp_generic. The ISP data flow graph will appear in the editor 13) Define a new configuration for emitting code from the graph       a) Right-click in the ISP data flow window and select Emit As -> Emit Configurations...       b) Select ISP Emitter       c) Press New Launch Configuration       d) Enter a name       e) To select the graph, press Browse Workspace       f) Expand each item until you can select the .isp file. Click OK       g) Select the location of the emitted output to the application project, select Browse Workspace       h) Select the name of your application project, then press OK       i) Enter 'A53_gen' to the Dynamic sequences sources folder box. This is the folder within the target project that generated code will be stored. Check the box for Emit host code.       j)Now select the location to store the configuration file. Go to the Common tab, select Shared file and click Browse       k) Select the .launches folder inside ISP_ISP_Generic_demo and click OK       l) Click Apply and Emit. Dialog box will appear when code generation is successful              m) Expand the folders within ISP_ISP_Generic_demo, A53_gen, src and inc, to see the newly generated output files 14) Build the project 'ISP_ISP_Generic_demo' for ISP 15) Open file 'ISP_ISP_Generic_demo/A53_inc/isp_user_define.h', by double clicking on it in the Project Explorer. Change '#define DCU_BPP DCU_BPP_YCbCr422' to '#define DCU_BPP DCU_BPP_24' and change '#define __DCU_BPP' to "#undef __DCU_BPP". Before After 16) Using the method detailed in steps 8 - 10, create the example project 'isp_sonyimx224_csi_dcu'. Take from this project the file 'isp_sonyimx224_csi_dcu/A53_src/main.cpp' and use it to replace the file 'ISP_ISP_Generic_demo/A53_src/main.cpp' in the current project. Then make the following modifications:  On line 36, change <#include "mipi_simple_c.h"> to <#include "isp_generic_c.h">. On line 303, change <gpGraph_mipi_simple> to <gpGraph> AND <gGraphMetadata_mipi_simple> to <gGraphMetadata> On line 330, change <FDMA_IX_FastDMA_Out_MIPI_SIMPLE> to <FDMA_IX_ISP_OUTPUT>. Please see C:\NXP\S32DS.3.1\S32DS\software\VSDK_S32V2_RTM_1_3_0\s32v234_sdk\docs\drivers\SDI_Software_User_Guide.pdf for details on what this code is for. 17) In Project Explorer, right-click on "...\A53_gen\src\isp_process.cpp" and select Build path -> Remove from -> A53 18) Select 'ISP_ISP_Generic_demo:A53' in the Project Explorer panel, then Build for A53 19) Run it remotely on the target using the method fromHOWTO: Create S32V234 Cortex-A53 Linux Project in S32DS . Should get results similar to this:

PE Micro is not able erase unused FLASH block - typically if your application resist in Large block and Low/Mid block is used for data storage. As a workaround you can flash empty s-record into desired area.  Create new empty project for MPC5777C for flashing custom .srecord Copy empty s-record (in attachment) into project folder. If you need different address range or s-record values - feel free modify attached python script and generate your own s-record.  Open debug configuration and modify C/C++ Application to empty s-record Add custom flash algorithm nxp_mpc5777c_1x32x64k_eeprom_highspeed.pcp via Debug -> Advanced Options. Scripts are lcated in [S32DS_INSTALL_DIR]\eclipse\plugins\com.pemicro.debug.gdbjtag.ppc_1.7.3.201803261737\win32\gdi\P&E\ Start debug session. You can check if memory is rewritten properly (in this case I write zeroes to Low/Mid block): 

Condition:  I am trying FreeRTOS using S32K118 EVB and run in DEBUG mode. When I set the break point in vTaskDelay and press Resume for the first time, there is a smooth stop at the break point. The second time I press Resume, the debugger should enter the same break point again, but there is no response. Then I press Suspend and can't press Resume again, at this point I can only leave. However, I am free to run this project with no problem, what's wrong? Analysis: This is due to an access of DDR memory region which is not initialized by default project settings. Solution: To resolve it, a macro initializing the DDR memory should be selected to run at the beginning of a debug session. A user should go to Advanced Options dialog and check "Enable initialization script". Our DDR init macros can be found at the following location within S32DS3.2 layout: eclipse\plugins\com.pemicro.debug.gdbjtag.pne_4.2.8.201909091700\win32\gdi\P&E\supportFiles_ARM\NXP\S32Vxxx\S32V234M100_DDR3_EVB29288.mac. Please note that the type of the macro might depend on the revision of the board and S32V23x device one is working with. I am also attaching a picture of debug configuration and Advanced Options dialog with all the settings in place.

In this document, we show the steps to use the New Project Wizard to create a new application project for APEX2, ISP, or both.   1. Launch S32DS for Vision 2. Select 'S32DS Application Project' 3. Enter a name for the project 4. Select the 'A53 APEX2/ISP Linux' processor option 5. Click Next 6. Select the APEX2/ISP options you need.       a. APEX2 programming - will add support to your project for an APEX2 application, you need this for any new APEX2 project       b. APEX2 visual modeling - will create a separate project for your APEX2 program diagram, you need this to connect your APEX2 graph diagrams together. But you could also create it separately later. The APEX graph diagram must be created separately with another New Project Wizard.       c. ISP programming - will add support to your project for an ISP application, you need this for any new ISP project       d. ISP visual modeling - will create a separate project for your ISP data flow diagram, you will not need this if you plan to use an existing graph diagram. This can also be created later.       e. ISP static sequencer - by default, a dynamic sequencer is generated from your graph diagram, enable this to generate a static sequencer instead. This can be set/changed later in the Emit Configurations. 7. Click Finish 8. You now have a project or set of projects for development on the S32V234.

Migration guide You can use a project that was created in an earlier version of S32 Design Studio for Power Architecture 2.1, but it requires changes according to the new product directory structure. The following explains how to import and configure your project. Click File > Import... > General > Existing Projects into Workspace, then click Next. Click Browse... and browse to the project location, click OK, select the Copy projects into workspace option, then click Finish. If the Problems view displays the following warning: "The hardware settings required for project not found", right-click it and select Quick Fix on the context menu. Select the project from the Resource list and click Finish. Specify the Family, Device and Core settings. Click OK. For the EWL source code debugging, open the debug configuration settings, switch to the Source tab, select Path Mapping: EWL and click Edit. Update the e200_ewl2 location: Compilation Path: e200_ewl2 Local file system path: <s32ds_for_power_dir>\S32DS\build_tools\e200_ewl2 Depending on the project type, update the following environment variables and file locations. For projects with the SPT tools: open the project settings, click C/C++ Build > Settings > SPT Assembler. Update the SPT include files location: "${SPT_TOOLCHAIN_DIR}/inc" for the SPT1 tools, "${SPT2_TOOLCHAIN_DIR}/inc" for the SPT2 tools, and "${SPT2.5_TOOLCHAIN_DIR}/inc" for SPT2.5 accordingly. For projects with the attached PEx SDK: after you import the project, the path validation notification appears. Click Yes to open the S32 SDK Specific properties page and update SDK path (click Browse and navigate to the <s32ds_for_power_dir>/S32DS/software/<sdk_name> folder). If you import the project example, additionally open the project settings, click C/C++ Build > Build Variables and update the S32_SDK_PATH value: ${eclipse_home}/../S32DS/software/<sdk_name>. For projects with the attached FreeMaster or AMMCLIB SDKs: open the project settings, click C/C++ Build > Settings and update the SDK paths on the following pages: Standard S32DS C/C++ Compiler > Includes Standard S32DS C/C++ Linker > Libraries Standard S32DS Assembler > General For the FreeMaster SDK project, additionally navigate to the project folder, open the .project file, and update the linkedResources locations. If some errors and warnings still occur, try to close and reopen your project, or restart S32DS for Power Architecture.

      Product Release Announcement Automotive Microcontrollers and Processors S32 Design Studio for ARM® 2018.R1  Update 6          What is new? S3214x SDK RTM 2.0.0. This is a cumulative update - it includes all the content of previous updates (Update 1, Update 2, Update 3, Update 4, Update 5) To select the new SDK in the New Project Wizard, the Toolchain must be changed to 'ARM Bare-Metal 32-bit Target Binary Toolchain' Installation instructions The update is available for online (via Eclipse Updater) or offline installation (direct download link) online installation:  go to menu "Help" -> "Install New Software..." dialog  select predefined update site "S32DesignStudio - http://www.nxp.com/lgfiles/updates/Eclipse/S32DS_ARM_2018.R1/updatesite" select all available items and click "Next" button   offline installation:   go to S32 Design Studio for ARM product page -> Downloads section or use direct link to download the update archive zip file Start S32DS and go to "Help" -> "Install New Software..." Add a new "Archive" repository and browse to select the downloaded update archive .zip file you downloaded in the previous step Select all available items and click "Next" button.   This will starts the update installation process.

The list of S32 Design Studio examples has been moved here: https://community.nxp.com/docs/DOC-341380  S32K144 EXAMPLE: S32K_printf_implementation - S32DS  EXAMPLE: S32k144 UART printf/scanf under FreeRTOS - S32DS  EXAMPLE: S32K SDK  - Function call on configurable period using LPIT timer.  EXAMPLE: FlexNVM used as code/data flash  EXAMPLE: S32K144 EEEPROM usage  EXAMPLE: S32K144 EEEPROM usage - No SDK  EXAMPLE: S32K144 .noinit section usage  For more examples and how to's: S32K1xx document &amp; example list

Hello,   The first official release of S32DS for Power Architecture is available in the download section of S32DS web page: http://www.nxp.com/s32ds S32 Design Studio is based on Eclipse open development platform and integrates the Eclipse IDE, GNU Compiler Collection (GCC), GNU Debugger (GDB), and other open-source software. This release supports Windows 7/8/8.1 (32/64 bit), version for Linux will be released later on.   S32DS Power Architecture v1.0 main features Free of charge tool with no code size limitation (no license file required) Eclipse Luna 4.4 Framework GNU Tools for e200 processors build tools (support VLE ISA only, based on gcc 4.9.2, binutils 2.24 and gdb 7.8) Libraries included: newlib, newlib-nano and Freescale EWL2 P&E Multilink (with P&E GDB Server) New Project wizard to create application and library projects for supported devices Peripherals Register View   Devices supported MPC56xx MPC5601P, MPC5602P, MPC5603P, MPC5604P MPC5644B, MPC5644C, MPC5645B, MPC5645C, MPC5646B, MPC5646C MPC5601D, MPC5602B, MPC5602C, MPC5602D, MPC5603B, MPC5603C, MPC5604B, MPC5604C, MPC5605B, MPC5606B, MPC5607B MPC5606S MPC57xx MPC5775K, MPC5774K MPC5746R, MPC5745R, MPC5743R MPC5777M MPC5777C MPC5748G, MPC5747G, MPC5746G MPC5746C, MPC5745C, MPC5746D, MPC5746B, MPC5745D, MPC5745B MPC5744P, MPC5743P, MPC5742P, MPC5741P   Technical Support S32 Design Studio is supported by NXP community - https://community.freescale.com/community/s32/s32ds/ For more details see the attached release notes.   Regards, Stanislav

There are 2 errors which produce the FNP error 0 message for which we have identified solutions:   1) That activation request yields no right to a license If you receive the following error message following an attempt to activate S32 Design Studio, this is a known issue and we have a solution.     This issue is due to a recent event. On October 1st, 2019, Flexera made this change. Since NXP uses Flexera for product activations, we were affected.   The solution to the issue is to enable support for TLS 1.2 within your Internet Properties.   2) com.acresso.activation.handler.ServerException If you receive the following error message following an attempt to activate S32 Design Studio, this is a known issue and we have a solution. This issue is known to occur on older releases of S32 Design Studio.     The version of FlexNet Publisher (FNP) used to activate the S32 Design Studio on your PC has an issue on some users machines. While we don't fully understand what change is happening to cause this issue, we have determined that an update to the version of FNP will resolve it. We have incorporated a newer version in the 3.5 release of S32 Design Studio.   Attached is a package of files (Activation.7z) which will allow you to update the version of FNP on your machine.   Enter the following command replacing the paths as noted. It should be possible to execute from CMD window located at any path. Make sure to use the ‘/’ instead of ‘\’ and if you have any paths with spaces, then enclose the full path with “.   For 64-bit OS: C:/NXP/S32DS.3.5/jre/bin/java  -Djava.library.path="{path to where you extracted the activation.zip}/Activation/cll/x64"  -jar "{path to where you extracted the activation.zip}/Activation/license.jar" activateUI   For 32-bit OS: C:/NXP/S32DS.3.5/jre/bin/java -Djava.library.path="{path to where you extracted the activation.zip}/Activation/cll/i86" -jar "{path to where you extracted the activation.zip}/Activation/license.jar" activateUI   If you have no existing S32DS installation from which to use Java, then please use the attached package (CLL_FNP.11.18.0.2.zip) and follow the instructions in the included .txt file. This package only works on Windows OS 64-bit.

Dear S32DS users, S32 Design Studio for ARM v1.3 Update 2 has been just released. What is new? The main new feature is production grade RTM version of S32K SDK v1.0.0. Attached are the release notes. Installation instructions The update 2 is available for online / offline installation. online installation: select predefined NXP S32 Design Studio update repository in "Help" -> "Install New Software..." dialog and proceed to installation.     offline installation: go to S32 Design Studio product page -> Downloads section and download the "S32 Design Studio for ARM v1.3 - Update 2" file.   Start S32DS and go to Help -> Install New Software... Add a new "Archive" repository, browse to select the downloaded Update 2 file.   Tick all the update items and proceed to installation.  

The following article describes how to add FreeRTOS thread aware debugging to the Eclipse Debug view using SEGGER J-Link: Show FreeRTOS Threads in Eclipse Debug View with SEGGER J-Link and NXP S32 Design Studio | MCU on Eclipse  I hope this is useful, Erich

S32V234 EVB has 32GB of eMMC memory. This memory can be used as OS drive.In text bellow is RED color used for important notes,  GREEN for console commands and BLUE for filenames. Courier font family is used for code/configuration data.  Requirements  Prepared SD Card with linux image (HOWTO: Prepare A SD Card For Linux Boot Of S32V234-EVB Using BSP From VSDK ) and with u-boot.s32 file in boot partition. Host PC machine with Linux OS, NFS, TFTP server and network connectivity with EVB NFS shared folder with BSP Linux root file system (the root.tar file located in [S32DS_Vision]\s32v234_sdk\os\build_content.tar\build_content\v234_linux_build\ ) tftp server with Image, s32v234-evb.dtb and u-boot.s32 files putty or other terminal connected to s32v234 EVB (tested with minicom on Linux) Procedure  Setup NFS share and TFTP server. Please look at internet for more details about NFS and TFTP https://www.digitalocean.com/community/tutorials/how-to-set-up-an-nfs-mount-on-ubuntu-16-04  How do I install and run a TFTP server? - Ask Ubuntu  Don't forget add into root file system files Image, s32v234-evb.dtb and rootfs.tar - we will need them later f or boot and rootfs partitions. Also make sure that all rootfs files are owned by root.  Here is my entry for /etc/exports file for NFS: /rfs    192.168.1.0/24(rw,no_root_squash,sync) and here /etc/xinetd.d/tftp file: service tftp {    protocol = udp    port = 69    socket_type = dgram    wait = yes    user = nobody    server = /usr/sbin/in.tftpd    server_args = /tftpboot    disable = no } It looks like that in ubuntu is some bug and I have to move tftp files location from /tftpboot to /svr/tftp  The tftp file in /etc/xined.d/ remain unchanged. This issue is probably related only to ubuntu.  Make sure that both servers (nfs,tftp) are accessible from other machine (you can use S32V234 EVB started from SD card for that).  I used static IP addresses on PC Host side and EVB. In my case PC has address 192.168.1.1 and EVB 192.168.1.10. You can also use DHCP server - but this is not part of this document. Boot from SD card and stop booting by pressing any key when you see first numbers on terminal window. You can get list of commands by help command. First - we need to write u-boot.s32 file to eMMC. Unfortunately - there can be active only one storage - SD Card or eMMC. We need to copy u-boot.s32 from SD Card to RAM (use RAM address 0xC0000000), deactivate SD Card and connect eMMC. In u-boot console use fatload mmc 0:1 0xC0000000 u-boot.s32 command. Write down the size of loaded file - you will need it later for counting number of sectors. In my case - the file size is 282624 (0x45000).    Once is u-boot.s32 in the RAM, we can disconnect SD card and connect eMMC by switching J37 jumper from 1-2 to 2-3 (there may be different name for other board vesions - but the location is same). After switching from SD to eMMC you need to rescan mmc device by command: mmc rescan You can verify if eMMC is  mapped correctly by  mmcinfo Now we copy u-boot from RAM to emmc. eMMC is located on address 0x1000 - but it is addressed by 512 (0x200) bytes sector size. In this case mmc device address starts on 0x1000/0x200 = 0x08. Number of sectors is (u-boot.s32 filesize) / (sector size) - 0x45000/0x200=0x228. Write u-boot from RAM to eMMC by: mmc write 0xC0000000 0x08 0x228   Now we can switch boot source from SD to eMMC by switches located on rear side of EVB. The switch name may vary across board version but location is again the same. Turn OFF EVB and remove SD card. For booting from eMMC switch SW503 - BOOT CFG (0:7) 7'th switch from OFF to ON. Switches position for eMMC boot: Turn ON EVB and stop again boot in u-boot console. Now we need to configure u-boot for booting from NFS. You can check u-boot variables by  printenv  command. Make sure that nfsbootargs has correct EVB ip address, NFS server IP address and path to root file system. In my case - EVB IP is 192.168.1.10, NFS server is 192.168.1.1 and root file system on host PC machine is located in /rfs directory. You can also test network connectivity to PC Host machie by ping command.  You can change any of system variables by setenv command. For example - IP address can be changed by: setenv ipaddr -f ipaddr 192.168.1.10 Here is printenv output on my EVB:  We are done with configuration - let's boot from NFS by:  run nfsboot It takes a while. At the end you can see login prompt: Login as root user. Now we need create boot and root file system partition on eMMC by fdisk.  Boot partition fdisk /dev/mmcblk0 check if there are already some partitions by  p command in fdisk. If there are partitions - delete all of them by  d command. If done - let's create new boot partion with 255 MB size: n p 1 [ENTER] key for default selection +255M Root FS partition in fdisk continue with: n p [ENTER] key for default selection [ENTER] key for default selection [ENTER] key for default selection Change boot partition type from Linux to FAT32.  t 1 c Write all changes by w   Create filesystem for boot (vfat) and root fs (ext3) partition: mkfs.vfat -n boot /dev/mmcblk0p1 mkfs.ext3 -L rootfs /dev/mmcblk0p2 Now is time for copy some files in new partitions. I created in root home directory boot and rootfs folders:  cd mkdir boot mkdir rootfs mount /dev/mmcblk0p1 ./boot mount /dev/mmcblk0p2 ./rootfs Copy Image and s32v234-evb.dtb files from root to already mounted mmcblk0p1 partition: cp /Image ./boot cp /s32v234-evb.dtb /boot   And now - the final step - untar root file system to mmcblk0p2: tar -xf /rootfs.tar -C ./rootfs We are done. Disconnect Ethernet cable, reboot and wait for login prompt:   Troubleshooting   Can't start u-boot console: You have only about two seconds from power up to interrupt regular boot by pressing key to jump in u-boot console. So - keep trying. Best time for pressing any key is when numbers 2  1 are shown up.  Can't perform NFS boot: check network connectivity between EVB and host PC. Try ping host PC from u-boot console. If it doesn't work - check EVB ipaddress by echo $ipaddr or printenv u-boot command. check that nfsbootargs contain corect path/ip address to NFS root file system. Check again if your NFS directory is accessible from other machine and it is really s32v234 BSP Linux rootfs. Root fs must not be inside some subfolder.  check if you can get files from tftp server from other machine. for example tftp 192.168.1.1  ... get Image Can't perform partitioning of eMMC: Make sure that /dev/mmcblk0 is unmounted (in case that there was already some partitions).  Can't mount partitions on /dev/mmcblk0: Make sure that all files on NFS root file system belongs to root. You can also check boot messages for mount errors related to /proc file system.           

This tutorial walks a user through the steps to create a new application for the S32V234 MCU using S32DS for Vision and the built in ISP Visual Graph tool. The completed application will take an image from camera, processes it on ISP and put the processed image in DDR buffers. Once the image is in DDR buffer, host (A53 core running Linux) will direct the display control unit (DCU) to display it on screen. Prerequisites: Some knowledge of the S32V234 System on a Chip (SoC) Have an understanding of the ISP architecture Be familiar with the NXP Vision SDK software Looking for Interactive Tutorial? You can view this tutorial as a video: S32 Design Studio: Getting Started – ISP Graph Tool Tutorial

S32DS for Vision contains many example projects from which you can learn how S32DS, with the Vision Extension Package for V2xx, can be used with the help of the Vision SDK to develop vision applications. The example projects contain generated and hand-written code, which utilize the Vision SDK to demonstrate a workflow using S32DS. In this document, the procedure for creating a project from one of the provided APEX2 examples through to execution on the EVB is detailed. Prerequisite Before following the steps in this HOWTO, ensure you have the Vision Extension Package for V2xx (as well as the S32V2xx development package) installed to S32DS. 1) Launch S32DS 2) Select 'New S32DS Project from example' 3) Select apex2_fast9 project 4) Click Finish 5) Select apex2_fast9: A53 in the Project Explorer panel. Build the project using build config 'TEST_A53'. 6) Start a debug session using method as described in HOWTO: Create A53 Linux Project in S32DS for Vision, beginning at step 9. 7) Click Resume  Should see something similar to what is pictured below There are green diamonds at the corners in the image as identified by the fast9 corner detection algorithm

Dear S32DS users, S32 Design Studio for ARM v1.3 Update 1 has been released.  The update is available for online or offline installation. For online installation please select predefined NXP repository in "Help" -> "Install New Software..." dialog and proceed to installation. For offline installation please go to S32 Design Studio product page -> Downloads section and download the "S32 Design Studio for ARM v1.3 - Update 1" file: Then start S32DS and go to Help -> Install New Software... Add a new "Archive" repository, browse to select the downloaded file: Tick all the update items and proceed to installation. The main new feature is beta S32K SDK v0.9.0. Attached are the release notes.

        Product Release Announcement Automotive Processing S32 Design Studio for ARM 2.2         January 31, 2020   The Automotive Processing's Embedded Tools Team at NXP Semiconductors is pleased to announce the release of the S32 Design Studio for Arm® v2.2.  Here are some of its major features: GNU Bare-Metal Targeted Tools for Arm® 32-bit Embedded Processors (GCC version 6.3.120170509, revision g7fea41d) GNU Tools for Arm® Embedded Processors (Launchpad) (GCC version 4.9.3 20150529,revision 227977) Libraries: NewLib, NewLib Nano, EWL, and EWL Nano Semihosting for Arm® 32-bit Bare-Metal Targeted toolchain MSYS2 32bit version 1.0.0 GDB 7.12.1 with Python support The wizards for creating application, library projects and projects from project examples The S32DS Extensions and Updates tool Support for importing projects from CodeWarrior for MCU v.10.6 and Kinetis Design Studio Support for importing MCAL configuration to a custom SDK IAR v7.x and v8.11.2 compiler support Green Hills compiler support SEGGER J-Link (with SEGGER GDB Server) iSystem, Lauterbach and IAR debuggers support PEMicro debugger support (P&E Multilink/Cyclone/OpenSDA) Kernel Aware debugging for FreeRTOS, OSEK MQX 4.2 for MAC57D54H EmbSys Registers view support FreeMASTER Serial Communication Driver v2.0 Sample Drivers for KEA family (Evaluation grade) Integrated S32SDK RTM 3.0.2 Integrated AMMCLIB SDKs 1.1.18 The Getting Started page   NOTE Support for S32V234 was moved to S32 Design Studio for S32 Platform 3.x and not included into S32 Design Studio for ARM anymore. The complete S32 Design Studio for ARM 2.2 release notes are attached below.   Installation Notes Please visit the S32 Design Studio for ARM product page - download section or direct link to download the installer. The installer requires the NEW Activation ID to be entered during the installation. You should receive an email that includes your Activation ID after starting the download.   Technical Support S32 Design Studio issues are tracked through the S32 Design Studio Public NXP Community space: https://community.nxp.com/community/s32/s32dsS32 Design Studio    

Installation & Activation HOWTO: Install Wind River compiler Eclipse plug-in into S32 Design Studio  HOWTO: Install Lauterbach TRACE32 debugger plug-in into S32 Design Studio  HOWTO: Install PLS UDE debugger plug-in into S32 Design Studio HOWTO: Activate S32 Design Studio    Getting Started HOWTO: Create a Blinking LED Project (MPC5748G)  HOWTO: Build a Project and Setup a Debug Configuration for debugging in S32 Design Studio   Build tools & standard libraries HOWTO: Run a routine from RAM in S32 Design Studio   HOWTO: Use printf() function and EWL library  HOWTO: Migrate project created in S32DS Power v1.x into v1.2+  HOWTO: Add a static library file into S32DS GCC project  HOWTO: Link a binary file(s) into the application project using GNU build tools  HOWTO: Execute a library function from RAM memory using GNU build tools  NEW!   Debug & Flash Programming HOWTO: download separate elf/srec/hex file to microcontroller using S32 Design Studio  HOWTO: Program data flash (DFLASH) in S32 Design Studio for Power  HOWTO: Program DCF record into UTEST flash in S32 Design Studio for Power  HOWTO: debug multi-core project in S32 Design studio  HOWTO: Update OpenSDA Firmware on EVB  HOWTO: MPC5777C - Low/Mid Flash block erase via PE Micro   HOWTO: Use RappID BL tool with MPC5744p EVB  HOWTO: Debug multiple elf files in S32 Design Studio  HOWTO: Reset MCU in S32 Design Studio debugger (Pemicro/OpenSDA interface)  HOWTO: Program multiple memory types in single debug session  NEW!   SDKs HOWTO: Working with AMMCLib SDKs  HOWTO: Working with FreeMASTER SDKs  HOWTO: Add custom SDK into existing project  HOWTO: Use SDK based example code as standalone (usable for GIT, SVN...) NEW!   General Usage HOWTO: S32 Design Studio Command Line Interface  HOWTO: Add user example into S32DS  HOWTO: Generate S-Record/Intel HEX/Binary file  HOWTO: Update S32 Design Studio  How to export Generated Code to S32 Design Studio IDE (applicable for MBDT for MPC5744P v2.0)   HOWTO: Install update from 3rd party vendor  S32 Design Studio for Power Architecture v2.1 Migration Guide  HOWTO: Set project optimization level    Troubleshooting Troubleshooting: Issue opening documents from Getting Started page  Troubleshooting: PEmicro Debug Connection: Target Communication Speed  Troubleshooting: Indexer errors on header file  S32 Design Studio Offline activation issue hot fix  Troubleshooting: Installer rolls back immediately following activation code entry  Troubleshooting: Activation fails with error message FNP ERROR 0 

The S32 Design Studio for S32 Platform supports the S32G274A device with the S32 Debugger. This document provides the details on how to setup and begin a debugging session on the S32G274A evaluation board.   Preparation Setup the software tools Install S32 Design Studio for S32 Platform Use the Extensions and Updates menu within S32 Design Studio for S32 Platform to add the S32G2xx Development Package.   Setup the hardware Confirm the setup of the S32G274A evaluation board.  Configure the JTAG. The S32G274A evaluation board supports both 10- and 20- pin JTAG connections. The default board configuration is set to 20-pin, change the position of the jumper J59 from 2-3(default)  to 1-2, if you are using the 10 Pin JTAG interface. Both are supported by the S32 Debugger and S32 Debug Probe. Connect the power supply cable Setup the S32 Debug Probe Connect the S32 Debug Probe to the evaluation board via JTAG cable. Refer to the S32 Debug Probe User Manual for installation instructions. Use the JTAG connection as was confirmed in the previous step. Connect the S32 Debug Probe to the host PC via USB OR via Ethernet (via LAN or directly connected, and configured for static IP address) and power supply connected to USB port. Launch S32 Design Studio for S32 Platform Create new or open existing project and check that it successfully builds. If creating a new project, be sure the S32 Debugger is selected in the New Project Wizard.   Procedure Open the Debug Configurations menu, then follow the steps depending on whether an S32 Debugger configuration exists for your project. If the project was created using the New Project Wizard in S32 Design Studio for S32 Platform, and the S32 Debugger was selected as the debugger, then it likely has existing debug configuration(s).     S32 Debugger Configuration(s) Exist If existing S32 Debugger configuration, proceed with probe configuration. Otherwise, skip to the next section. Below is shown the debug configuration which appears for the provided SDK example project 'hello_world_s32g275a'. The suffixes 'debug', 'ram', and 's32debugger' refer to how the project was built and the debugger the configuration is for. Select the debug configuration which corresponds to the project, build type debug, and primary core (if a multicore project) Select the Debugger tab Select the Interface (Ethernet/USB) by which the S32 Debug Probe is connected. If connected via USB and this option is selected for interface, then the COM port will be detected automatically (in the rare event where 2 or more S32 Debug Probes are connected via USB to the host PC, then it may be necessary to select which COM port is correct for the probe which is connected to the EVB) If connected via Ethernet, enter the IP address of the probe. See the S32 Debug Probe User Manual for ways to determine the IP address.   S32 Debugger Configuration(s) Do Not Exist There might be no existing debug configuration if the project is being ported from another IDE or was created to use another debugger. Select the S32 Debugger heading and click New Launch configuration (or double click on the S32 Debugger heading, or right click on the S32 Debugger heading and select New from the context menu) A new debug configuration appears with the name set to the name of the active project in the Project Explorer window(this can be set by opening a file from the project or selecting an already opened file from the project in the editor), and the build type which was used to build it. If this is not matching your intended project then it can either be modified to match or deleted and recreated after the active project has been changed to the desired project. Adjust the name of the project as desired. From the Main tab, check that the Project field is set to the correct project name, as listed in the Project Explorer, and that the C/C++ Application is set to the ELF file which was built. If the Project field is not correct, click Browse... and then select the correct project name from the list. If more than one project is open in the workspace, then each will be listed. This shows how, regardless of which project is active in the C/C++ perspective, any available workspace project could be associated. This can be useful when reusing a debug configuration from one project in another. This is not common, but if the C/C++ Application is not correct, click Search Project... and then select the correct binary file (will only work if Project field is correct and project was successfully built). Switch to the Debugger tab, Click 'Select device and core' and then select the correct core from the list. In this case, the M7_0 core is correct. If this is not the primary core, then uncheck the box next to 'Initial core'. This is done only for multi-core projects for the non-boot cores. This causes the scripts to skip the initialization of the core as the boot core will launch the other cores so additional initialization will not be required. Select the Interface (Ethernet/USB) by which the S32 Debug Probe is connected. If connected via USB and this option is selected for interface, then the COM port will be detected automatically (in the rare event where 2 or more S32 Debug Probes are connected to the host PC, then it may be necessary to select which COM port is correct for the probe which is connected to the EVB) If connected via Ethernet, enter the IP address of the probe. See the S32 Debug Probe User Manual for ways to determine the IP address. Click Apply Click Debug. This will launch the S32 Debugger. When the debugger has been successfully started, the Debug perspective is opened and the application is executed until a breakpoint is reached on the first line in main().    

This application demonstrate integration Processor Expert (PE) RAppID Suite for  MPC5777M initialization tool with S32 Design Studio for Power v1.1. There is a separate RAppID project and RAppID Workspace folder included in this project:       This multicore project first initializes the device (PinMux, Clocks, PIT timer). Each core toggles with one LED with different time period. Z4_0 core: LED1...GPDO[0] Z7_0 core: LED2...GPDO[1] Z7_1 core: LED3...GPDO[2]     Yo can adjust the device initialization in PE RappID (open included workspace), generate the code and finally rebuild the project in S32DS.   Note:  Do not let generate PE_Types.h file since it includes some non-vle instructions mixed with VLE ones - this cannot be built by S32DS compiler. linker command file generation needs to be disabled otherwise it generates HighTec specific keywords that S32DS GCC linker does not understand.    Test HW:       MPC5777M-512DS, MPC57xx Motherboard MCU:             PPC5777MQMVA8 0N78H Debugger:    PeMicro USB-ML-PPCNEXUS Target:           Debug (internal flash) EVB connection:  USER LED1 connected to P8.0, LED2 connected to P8.1 LED3 connected to P8.2

Hello,   The new official release of S32DS for Power Architecture v1.1 is available now! You can download it from S32DS product web page: S32 Design Studio IDE|NXP       This release requires the product activation! Please enter the Activation code from the notification email (it is sent after you click on S32DS download button) into the installer dialog (see the screenshots below). The Activation code is valid for both versions (Windows/Linux).     S32 Design Studio is based on Eclipse open development platform and integrates the Eclipse IDE, GNU Compiler Collection (GCC), GNU Debugger (GDB) and other open-source software to offer designers a straightforward development tool with no code-size limitations. This release supports Windows 7/8/8.1/10 (32/64 bit) and Linux versions as well.   S32DS Power v1.1 main features Free of charge tool with no code size limitation (no license file required - Only acti) Eclipse Luna 4.4 Framework GNU Build Tools for e200 processors supports VLE and BookE ISA, LSP, SPE/SPE2 based on gcc 4.9.2, binutils 2.24 and gdb 7.8.2 Libraries included: newlib, newlib-nano and Freescale EWL2 (ewl and ewl-nano) P&E Multilink (with P&E GDB Server) Graphical tool for creating SPT algorithms SDK management included (FreeMASTER for 560xP, AMMCLIBs) GreenHills and Diab compilers support by new project wizard Lauterbach, iSystem** and PLS debuggers support by new project wizard Kernel Aware Debugging FreeRTOS, eCOS, OSEK. "New S32DS project from” added to support project creating from examples Devices supported MPC56xx MPC5601P, MPC5602P, MPC5603P, MPC5604P MPC5644B, MPC5644C, MPC5645B, MPC5645C, MPC5646B, MPC5646C MPC5601D, MPC5602B, MPC5602C, MPC5602D, MPC5603B, MPC5603C, MPC5604B, MPC5604C, MPC5605B, MPC5606B, MPC5607B MPC5606S MPC5604E MPC5644A MPC5643L MPC5676R MPC57xx MPC5775K, MPC5774K MPC5746R, MPC5745R, MPC5743R MPC5777M MPC5777C MPC5748G, MPC5747G, MPC5746G MPC5746C, MPC5745C, MPC5746D, MPC5746B, MPC5745D, MPC5745B MPC5744P, MPC5743P, MPC5742P, MPC5741P S32 S32R274   Host Operating System Support Microsoft Windows 7/8/8.1/10 32-bit and 64-bit (Home and Pro Editions) Linux versions Ubuntu 12.04/14.04, Debian 8, CentOS 7   Technical Support S32 Design Studio is supported on NXP community - https://community.freescale.com/community/s32/s32ds/ For more details see the attached release notes (product & GCC build tools)   * Red items are the new features ** iSystem plugin integration with the project wizard will be available in S32DS PA v1.2   Regards, Stan