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Iperf is a widelyused tool for network performance measurement and tuning. It is significant as a crossplatform tool that can produce standardized performance. Xilinx Wiki PS and PL based Ethernet in Zynq MPSo. A Framework For Task Based Learning Willis Pdf File here. C1. Introduction. The page focus upon Ethernet peripherals in the Zynq Ultra. Scale MPSo. C. It describes using the processing system PS based gigabit Ethernet MAC GEM through the extended multiplexed IO EMIO and multiplexed IO MIO interface with the 1. G physical interface in PS. The page focus upon Ethernet peripherals in the Zynq UltraScale MPSoC. It describes using the processing system PS based gigabit Ethernet MAC GEM through the. Some additional Technical Info Updating the firmware was problematic in Ubuntu, but a breeze in windows 7. On Windows, get the MFT from the Mellanox website. Directory of hundreds of tools for monitoring and analyzing network traffic. 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The design provided with this application note enable the use of multiple Ethernet ports and provide kernel mode Linux device drivers. In addition, this document includes Ethernet performance measurement with checksum offload support enable. This page discusses the following. Hardware and software design build steps for xapp. Understanding Bench marking Ethernet performance for xapp. Visit Performance page for Performance Numbers and Procedure to take performance numbers. Hardware utilization summary can be found here at Resource Utilization. Please note We fully verified and tested the designs with ZCU1. Rev. D ES1 board. For 1. G validation, Cisco GLC T 1. Iperf-compile.jpg' alt='Netperf Windows 7 Download' title='Netperf Windows 7 Download' />BASE X Ethernet to SFP Module is used. For 1. 0G, Solarfires SFN6. F Dual Port 1. 0Gb. E SFP Adapter is the NIC that has been used and together with Avago afbr 7. Netperf+Benchmark+Results.jpg' alt='Netperf Windows 7 Download' title='Netperf Windows 7 Download' />Ethernet SFP module. XAPP1. 30. 5XAPP1. PS MIO PS 1. G, PS EMIO PS PL,PS EMIO SGMIIPS PL,PL 1. G SGMII and PL 1. G, 1. 0G Ethernet designs Supports Vivado 2. Petalinux 2. 01. 7. SDKmacb driver support. Supports Xilinx phy driver for 1. Base XFour designs are described in this application note. The designs support Vivado IP Integrator tool flow. Hardware Design. 2. Building PS MIO and PS EMIOTo rebuild the hardware design, execute the following after setting up Vivado environment. Open a Linux terminal or Vivado tcl shell in windows. Navigate to hardwarevivadoscriptspsemioeth1g for PS EMIO Ethernet design vivado source psemioeth1gtop. PSMIO design,navigate to hardwarevivadoscriptspseth1g and run vivado source pseth1gtop. This step creates a vivado project and opens the Vivado IDE with the design loaded See tool snapshot below. Relevant constraints file is also associated with the design. NOTE In this design GEM3 is also enabled along with GEM0 in ZYNQ Ultra. Scale GUI. GEM3 is connected to on board ZCU1. TI RGMII PHY thorugh MIO and GEM0 is connected to PL through EMIO. In the Flow Navigator Panel, click on Generate Bitstream to implement the design and get a bitstream see below Figure. On completion of bitstream generation, open the implemented design see below Figure. Click on File Export Export Hardware to SDK see below Figure6. Choose Include bitstream option, and click OK see below Figure7. A hardware description file will be generated in lt projectname. For xapp. 13. 05 software building, follow the steps mentioned in section 2. Building PL Ethernet1. Drivers Ed Journal Entries. G,PL Ethernet SGMII, PS EMIO Ethernet SGMII. To rebuild the hardware design, execute the following after setting up Vivado environment. Open a Linux terminal or Vivado tcl shell in windows. Navigate to hardwarevivadoscriptspleth1g for PL Ethernet 1. G 1. 00. 0BASE X design vivado source pleth1gtop. For PL Ethernet SGMII, navigate to hardwarevivadoscriptsplethsgmii and run, vivado source plethsgmiitop. For PS EMIO Ethernet SGMII, navigate to hardwarevivadoscriptspsemioethsgmii and run, vivado source psemioethsgmiitop. This step creates the project and opens the Vivado IDE with the design loaded See below Figure. Relevant constraints file is also associated with the design. In the Flow Navigator panel, click on Generate Bitstream to implement the design and get a bitstream. On completion of bitstream generation, open the implemented design see below Figure. Click on File Export Export Hardware to SDK see below Figure6. Choose Include bitstream option, and click OK. A hardware description file will be generated in lt projectname. For xapp. 13. 05 software building, follow the steps mentioned in section 2. Building PL Ethernet1. GTo rebuild the hardware design, execute the following after setting up Vivado environment. Open a Linux terminal or Vivado tcl shell in windows. Navigate to hardwarevivadoscriptspleth1. PL Ethernet 1. 0G BASE R design vivado source pleth1. This step creates the project and opens the Vivado IDE with the design loaded below Figure. Relevant constraints file is also associated with the design. In the Flow Navigator panel, click on Generate Bitstream to implement the design and get a bitstream. On completion of bitstream generation, open the implemented design see below Figure. Click On File Export Export hardware to SDK see below Image6. Choose Include bitstream option, and click OK. A hardware description file will be generated in lt projectname. For software building, follow the steps mentioned in section 2. Peta. Linux Installation. Prerequisites. This section lists the requirements for the Peta. Linux Tools Installation. Download Petalinux 2. SDK software from Xilinx website. Refer to section 3. Peta. Linux installation instructions. Directory structure. The xapp. 13. 05 is released with the source code, Xilinx Vivado and Petalinux projects and an SD card image that enables the user to run the demonstration. It also includes the binaries necessary to configure and boot the Zynq Ultra. Scale MPSo. C board. Download and unzip the XAPP package from xilinx website. Copy the content in to XAPP directory. This DIrectory is refered as XAPPHOME in rest of section. PS MIO and PS EMIO1. BASE X and SGMII Ethernet. PS MIO and PS EMIO Ethernet BSP1. BASE X and SGMII installation PS EthernetPSPL Ethernet project provides installable BSP, which includes all necessary design sources, configuration files, tested hardware images and software images. Create PS MIO and PS EMIO Ethernet project from Peta. Linux BSPRun petalinux create command on the consolepetalinux create t project s lt path to bsp bash cd XAPPHOMExapp. PS emio 1. 00. 0BASE X. PS emio SGMII. bash petalinux create t project s bspsxapp. SGMII. bash petalinux create t project s bspsxapp. Configure Peta. Linux for PS emio 1. BASE X. bash cd psemioeth1g. PS emio SGMII. bash cd psemioethsgmii. NOTE Above step may take a longer time depending on the network bandwidth. Configure the kernel. Check and enable the Xilinx PHY driver from kernel configuration. Device Drivers Network device support PHY Device support and infrastructure lt Drivers for xilinx PHYs. Save the changes and exit. Edit device for PS EMIOFollow below process for PS EMIO only. Modifications to system user. Modify the system user. For the PS EMIO 1. BASE X, make the following modifications to system user. For the PS EMIO SGMII, make the following modifications to system user. Build. Build images using Peta. Linux. bash petalinux build v. Create Zynq mp Boot image BOOT. PS emio 1. 00. 0base x. PS emio SGMII. bash petalinux package boot fsblzynqmpfsbl. SD Images. SDcard Deployable binaries a BOOT. PS emio. Copy BOOT. BIN and image. ub from PETALINUX xapp. SD partition. For PS mio. Copy BOOT. BIN and image. PETALINUX xapp. 13. SD partition. 2. 5 PL Ethernet 1.