Soft_Acc_17p2_rpu4.png/618574575/800x510/Soft_Acc_17p2_rpu4.png' alt='How To Install Rpu Software Download' title='How To Install Rpu Software Download' />Xilinx Wiki Zynq Ultra. Scale MPSo. C Ubuntu part 2. Zynq Ultra. Scale MPSo. C Ubuntu part 2 Building and Running Ubuntu Desktop from Sources. Document History. Date. Version. Author. Description of Revisions. Sept 1. 5 2. 01. 61. Upender Cherukupally. Initial version of step by step guide to build the Ubuntu Desktop for Zynq Ultra. Scale MPSo. CJan 2 2. Free etds software rpu version 3. Die PCFAQ enthlt Antworten zu vielen Fragen rund um den PC, sowie Erklrungen der hufigsten Computerbegriffe und ein Wrterbuch. Rajesh Gugulothu. Updated for 2. 01. Feb 2. 4 2. 01. 73. Rajesh Gugulothu. Updated with 2. 01. How To Install Rpu Software Download' title='How To Install Rpu Software Download' />Release and Added designfiles to support zcu. Rev BRev D ,Rev 1. Aug 4 2. 01. 74. 0. Janardhan G Rajesh Gugulothu. Updated with 2. 01. QrHtotg9PRI/U1yh5wfkClI/AAAAAAAACyo/LoA_39ZfQOo/s1600/Untitled.gif' alt='How To Install Rpu Software Download' title='How To Install Rpu Software Download' />Note Your browser does not support JavaScript or it is turned off. Press the button to proceed. Added design files to support zcu. Rev 1. 0 and Rev. Rev D with Production silicon boards. Summary. Zynq Ultra. Scale MPSo. C delivers unprecedented levels of heterogeneous multi processing and combines seven user programmable processors including Quad core ARM Cortex A5. Application Processing Unit APU, Dual core 3. ARM Cortex R5 Real Time Processing Unit RPU, and ARM Mali 4. QFJt50/T6SUKMppJ9I/AAAAAAAAA1M/h1xZNOu9L78/s1600/Untitled2.gif' alt='How To Install Rpu Software Download' title='How To Install Rpu Software Download' />MP2 Graphics Processing Unit GPU. It is Industrys First All Programmable Multi Processor So. C delivering 5x system level performance per watt and any to any connectivity. This Tech Tip covers step by step instructions to build and boot Ubuntu Desktop on the Zynq Ultra. Scale MPSo. C targeting the ZCU1. The following Zynq Ultra. Scale MPSo. C PS components are used in this design. Quad core ARM Cortex A5. Application Processing Unit. Free Decorating Cakes Games Programs. Graphics Processing Unit. DDR controller. UARTSDe. MMC interface. Gigabit Ethernet. USB 3. 0. Display. Port. Software Stack used for this design. SMP Linux on APU subsystem. Ubuntu Desktop root file system. ARM Mali, Open. GL ES2. OSGRequirements. Xilinx ZCU1. Class 1. 0 SD card 8 GBEthernet Cable for Internet connectivity, installing packages using apt get utility, and for user to try Webserver demoMicro USB to Standard USB cable. K Monitor or Full HD Monitor and Display. Port cable. USB 3. USB 2. 0 micro cable to standard USB female adapter, USB Hub to connect USB mouseUSB keyboard USB keyboard with mouse integrated, etc. Procedure to build from sources. This section covers the following topics. Creating the Hardware design using Vivado. Exporting the hardware design to Petalinux. Configuring the hardware. Creating petalinux project. Configuring the kernel. Creating the bootable Linux images. Preparing the SD card with the built Images or ready to test images. ZCU1. 02 Board setup. Steps to execute the Demo. Creating hardware design using Vivado. This section explains the procedure to create the hardware design using 2. Vivado Design suite. Open the Vivado Design Suite and run the project. Zynq Ultra. Scale MPSo. C IP. Download and Extract the UbuntuDesktopSourceRelease2. Linux directory unzip UbuntuDesktopSourceRelease2. Note For user convenience prebuilt hardware description file is provided along with the design files. User can use the design1wrapper. UbuntuDesktopSourceRelease2. HDFfile directory and skip to the sectionPreparing Linux images using Petalinux 2. Launch the Vivado Design Suite 2. On LinuxThe Vivado Design Suite opens to the Welcome window. From the Welcome window you can create a new project, open an existing project, or enter Tcl commands directly into the Vivado Design Suite as well as access documentation and examples. In the TCL console of the Vivado Welcome screen, change the directory to UbuntuDesktopSourceRelease2. Hardwarewhere the project. UbuntuDesktopSourceRelease2. Hardware. Source the project. Vivado GUI TCL console by following the below command. This TCL script will do the following. Automatically create a Vivado project. Creates a new block design and automatically populates the Zynq Ultra. Scale MPSo. C PS System,required components and connections. Configures the Zynq Ultra. Scale MPSo. C PS System for the ZCU1. Generates the hardware description file in the current directory. After the process is completed the, design1wrapper. UbuntuDesktopSourceRelease2. Hardware directory. Preparing Linux Images using Petalinux 2. This section describes how to build the Linux images for zcu. Petalinux SDK of version 2. Creating the petalinux project. Create the petalinux project using the respective bsp which can be downloaded from the below path. Download the Petalinux petalinux v. ZCU1. 02 BSP for corresponding board. Install the Petalinux by running the above downloaded installer. Note please refer the Petalinux user guide. After installation is done set the Petalinux environment by running below command in bash shell source lt Petalinuxinstallationpath settings. Note use source lt Petalinuxinstallationpath settings. Cross check if PETALINUX environment variable is set to the above installation path by using below command echo PETALINUXCreate the Petalinux project with the below command petalinux create t project s lt path to the downloaded zcu. Note In the above command, give the BSP path file according to the board revision. Change the directory to created Petalinux project. Configure the Petalinux project with the hardware description file. User can use the prebuilt design1wrapper. UbuntuDesktopSourceRelease2. Hdffile or can use the design1wrapper. The Peta. Linux configuration wizard opens. Enable the SD card for rootfs select Image Packaging Configuration Root file system type SD cardSave and Exit the wizard. Wait until Peta. Linux reconfigures the project. Clean the existing Bootloader image. This is to ensure that the bootloader is recreated in sync with new hardware design. Modify Device tree for Dual Lane display port configuration by following the instructions in Xilinx Answer 6. Configuring the kernel. Change directory to Petalinux project xilinx zcu. Following are some of the mandatory configurations needed for successful booting of Ubuntu Desktop. Disable initramfs in kernel configuration GUI at General setup Initial RAM file system and RAM disk initramfsinitrd supportFollowing settings are required to enable Input device, multimedia and USB related settings. Device Drivers Input device support Event interfaceDevice Drivers Input device support KeyboardsDevice Drivers Input device support Mouse interfaceDevice Drivers Multimedia support Media USB Adapters USB Video Class UVCDevice Drivers Multimedia support Camerasvideo grabbers supportDevice Drivers Multimedia support V4. L platform devices. Device Drivers USB support and enable all required classes. Device Drivers HID support Generic HID driver. Device Drivers HID support USB HID support USB HID transport layer. Disabling the PMBUS PMIC so that power demo can use them without any issues. Device Drivers Hardware Monitoring support PMBus support Maxim MAX2. Enable the PHY settings. Device Drivers PHY SubsystemDevice Drivers PHY Subsystem Xilinx Zynq. MP PHY driverDisable the PCI settings. Bus Support PCI support This needs to be disabled for this version. Enable the sound related settings Device Drivers Sound card supportDevice Drivers Sound card support Advanced Linux Sound Architecture enabling ALSA support. Kernel hacking Tracers Kernel Function Tracer. Save and Exit the kernel configuration. Creating bootable linux images.