zybo zynq

Tags: zynq zybo u-boot LinuxZybo Zync-7000 Development Board work booting Linux on the ZyboThis article translated from: http://www.dbrss.org/zybo/tutorial4.htmlThis article is mainly about Zybo hardware system construction,u-boot,linux-kernel Transplant,Linaro file system transplant.IntroductionIf you is new to Linux

Core. Double Click IP Core to configure it. Choose Import XPS settings,add zybo_zynq_def.xml,click OK. Download Link: Http://www.digilentinc.com/Data/Products/ZYBO/ZYBO_def.zip Now ZYNQ have been configured and fit for Zybo. Click Ok,go back to block design,click Add IP button again,insert GPIO IP core. Double Click GPIO core to config it: The configurati

http://blog.csdn.net/pengwangguo/article/details/52292664http://blog.csdn.net/pengwangguo/article/details/51991750Http://www.cnblogs.com/surpassal/category/412020.htmlhttp://blog.csdn.net/a746742897/article/details/52803865http://blog.csdn.net/emsoften/article/details/46817543 nandpl353 DriveHttp://www.wiki.xilinx.com/Zynq+Pl353+SMC+and+NAND+driversHttp://infocenter.arm.com/help/topic/com.arm.doc.ddi0380g/DDI0380G_smc_pl350_series_r2p1_trm.pdfhttp://d

Create a spark cluster (computing level) for the zybo cluster ): 1. Each node has the same filesystem and MAC address conflict, so: Vi./etc/profile Export Path =/usr/local/sbin:/usr/local/bin:/usr/sbin:/usr/bin:/sbin:/bin: $ path Export java_home =/usr/lib/jdk1.7.0 _ 55 Export classpath =.: $ java_home/lib/tools. Jar Export Path = $ java_home/bin: $ path Export hadoop_home =/root/hadoop-2.4.0 Ifconfig eth1 HW ether 00: 0a: 35: 00: 01: 03 If

Tags: image evel elf file Environment build config HTTP link zynq comIn this article, we compile UbootExtract:[#17 #17:26:56 [email protected] ~/zybo_demo] $tar zxvf *.tar.gz　　The following problems occurred during the decompression processTar:xlnx-boot/arch/arm/include/asm/arch:cannot create symlink to ' arch-zynq ': File exists　　Cause: The source package cannot be placed in the shared folder and the sourc

) {ULPI->io_priv = Ci->hw_bank.abs +0x170; CI->usb_phy =ULPI; } return 0; } Then look at the device tree, driven by the above information, the number No. 991 pin in the device tree name is "Xlnx,phy-reset-gpio", in the directory search [Email protected]:~/work/linux_xilinx/linux/arch/arm/boot/dts$Find. -type F-name"*zynq*.dts*"|Xargs grep "Phy-reset-gpio" ./zynq-picozed-sdr2.dtsi:xlnx,phy-reset-gpi

For zynq such a "arm+ Programmable logic" Heterogeneous processing system we are no strangers, and its innovation is also obvious to all of us. But for more applications to enjoy the dividends of this "innovation", making it truly "landed" requires a lot of systematic work to create a perfect ecosystem. From previous articles, we have seen Xilinx's efforts in this area, especially the iterative advanced hardware Development (VIVADO) and software devel

　　Recently I have been learning the use of ZYNQ Soc, the purpose is to respond to scientific research needs, to make a common algorithm verification platform. Presumably the idea is: ZYNQ PS End is responsible for and MATLAB and other PC data analysis and visualization software interaction: can transfer data, but also through the host Computer Configuration update hardware algorithm module configuration reg

ZYNQ Linux Linaro System image made SD card boot 0. OverviewZynq generated uboot and normal arm device is not the same, Zynq belongs to two secondary boot uboot and then by the Uboot boot the kernel, probably means that there is a mechanism inside the ZYNQ, the mechanism can not be modified by the dial switch to control the startup mode, For example, starting fro

Reg_data_out In return to this frame diagram:Here, our Axi IP has the ability to interact with ZYNQ and VGA, it is the bridge between PS and PL, now we are only a VGA IP, and this IP is a common IP, yes, "MiZ702 study notes 12--encapsulation of a common VGA IP," said , we will modify the program slightly, in the IP packaging, we can get.Finally, we add these IP, respectively, to complete the hardware to build the connection. Actually, I'll mention so

The purpose of this article is mainly to use a concise method of DDR3 read and write, of course, this way every read and write needs CPU intervention, efficiency is relatively low, but this is the process of learning it.As much as possible, this series of articles makes each experiment relatively independent, ensuring the integrity of the process as much as possible and ensuring the reproducibility of the experiment. However, the use of the module or IP specific role and usage is not guaranteed

Operating system: Ubuntu 16.04 LTSApplication software: Vivado 2016.2 + petalinux 2016.2Refer to the Official Application manual: Ug1144-petalinux-tools-reference-guide.pdf1. Software Installation 1.1 Basic software InstallationBefore installing the application software, you need to install the necessary basic software for the ZYNQ development environment, which is clearly indicated on page 11 of the manual.Note: The TFTP software uses TFTP-HPA as fol

ZYNQ QSPI Controller Application NoteHello,panda1 ZYNQ QSPI ControllerThe ZYNQ QSPI controller supports three modes: I/O mode, linear address mode, and traditional SPI mode, where the linear address mode dual-chip option supports a maximum linear address space of 32MB and can be read by PS DMA.1.1 Linear Address modeLinear address mode can only be read from QSPI

16bit other unchanged position save original stateDirm: This register controls the output switch, when dirm[x]=0 , suppresses the outputOEN: output Enable, when oen[x]=0 output off, pin foot in tri-stateTherefore, if you want to read the IO state you have to read the value of Data_ro, if you are working on one of them is writingMask_data_lsw/mask_data_mswPlease refer to the Technical manual for the specific relevant parameters Ug585-zynq-7000-trm.p

Zynq in-chip XADC Application NoteHello,pandaApplication Note briefly describes the resources and several applications of Xilinx Zynq XADC. Reference Documentation:U ug480:7series_xadc.pdf;U xapp795:driving-xadc.pdfU xapp554:xadc-layout-guidelines.pdfU xapp1203:post-proc-ip-zynq-xadc.pdfU xapp1183:zynq-xadc-axi.pdfU xa

/ ./configure--host= Arm-xilinx-linux--cross-prefix=arm-xilinx-linux-gnueabi---disable-asm--enable-shared--prefix= 2.5 Xvidcore cross-compiling Xvidcore configuration file in/build/generic CD build/generic ./configure--host=arm-xilinx-linux-gnueabi--disable-assembly--enable-shared--prefix= 2.6 FFmpeg Cross-compiling git clone https://git.ffmpeg.org/ffmpeg.git ffmpeg cd ffmpeg ./configure--enable-shared--disable-static-- cross-prefix=arm-xilinx-linux-gnueabi- --arch=arm--target-os=linux--dis

According to the Xilinx official guidance document 1078, 1079来 debug amp Mode boot more laborious, because already very old tutorials. In fact, the whole document is useful for just a few points. Summarize the implementation on a few lines of code. In order to make the majority of code friends easily implemented, the close-up method is as follows: The first step: Create Zynq FSLB Common Engineering, and then add the LOADCPU1 code in main. void LoadC

Operating system: Ubuntu 16.04 LTSApplication software: Vivado 2016.2 + petalinux 2016.2Refer to the Official Application manual: Ug1144-petalinux-tools-reference-guide.pdf1. Software Installation 1.1 Basic software InstallationBefore installing the application software, you need to install the necessary basic software for the ZYNQ development environment, which is clearly indicated on page 11 of the manual.Note:The TFTP software uses TFTP-HPA as foll

Zynq Development (ii) Use of gpio Mio I. Principles Mio use can refer to the official development manual ug585-Zynq-7000-TRM, which has a more detailed description. Ipvq7000 series chips have 54 mio, which are allocated to bank0 and bank1 in the ps section, which are directly connected to PS. Note that the base address of the gpio operation is 0xe000_a000. The official manual provides the following: In add

Open Vivado, click Create New Project,Below the establishment sub-directory project must tick. Click Next:Select the first one, and the options below are not checked. Click Next:Select Verilog language, do not add files, and then always click Next: To the selection of the board step, directly click on the boards,ChooseComplete.To create a zynq embedded system:Create a block design, expand IP Integrator in the Flow Navigator area, select Create Block d