High speed optical fiber network communication, high-speed data exchange and storage, industrial control, deep learning, AI intelligence, cloud computing, 4K video transmission and processing
4 x ARM CORTEX-A53 + 2 x ARM CORTEX-R5
Mali™-400 MP2 GPU
PS 8GB DDR4、PL 32GB DDR4
32GB EMMC FLASH、512Mbit QSPI FLASH
4 x100G optical fiber interface
2 x FMC HPC
Development software version: vitis2020.1, Linux version: petalinux5.4.0-xilinx-v2020.1 all supporting materials of the development board are provided through Baidu online disk. After purchase, please contact customer service to obtain
Development Environment
01. Vitis Installation
02 Install Virtual Machine and Ubuntu System
03. Install Linux Version of Vitis Software on Ubuntu
04. Petalinux tool Installation
05. NFS Service Software Installation
06. QT Creator Development Environment
07. Linux Common Commands
Remark:Vitis 2020.1
FPGA Experiment Tutorial
01. Introduction to Ultrascale+ MPSoC
02. PL's "Hello World" LED Experiment
03. PL Side DDR4 Read and Write Test Experiment
04. Bit error rate test of gty transceiver ibert experiment
05. Experience ARM, bare metal output "Hello World"
06. PS RTC Interrupt Experiment
07. PS Side Use of EMIO
08. PS Side UART Read and Write Control
09. PS Side Use of CAN
10. PS Side Use of I2C
11. PS Side Use of Display Port
12. PS Side SD Card Read and Write
13. PS Side Use of Ethernet (LWIP)
14. PS Side Remote Update QSPI Flash by Ethernet
15. Use of System Monitor
16. PS Side Use of EMIO
17. PL Side Use of AXI GPIO
18. PL Side RS485 Test
19. PL Side Use of Ethernet
20. Custom IP experiment
21. Use of Dual Core AMP
22. Use of “Free RTOS” under ZYNQ
23. PL Read and Write PS DDR Data
24. Realize PS and PL Data Interaction through BRAM
25. DP Acquisition and Display Based on AN5641 Module
26. PCIe ROOT
HLS Experiment Tutorial
01. Getting to Know Vitis HLS
02 Vitis HLS Getting Started
03. HLS Interacts with CPU Registers
04. How to use the built-in Functions in the xfopencv Library
05. Image RGB to Grayscale Conversion
06. Image RGB to YCrCb
07. Image Morphological Filtering
08. Image overlay
09. Image Contrast Adjustment
10. Corner Detection
11. SOBEL operator realizes edge detection
12. Canny Operator Realizes Edge Detection
13. How to Implement opencv Simulation With Vitis HLS
Linux Basic Tutorial
01. Customizing Linux with Petalinux
02 Program hello world
03. Gpio Control LED
04. Add Boot Scripts and User Files
05. SD Card Root File System
06. QT and OPENCV Cross-Compilation 3nvironment
07. Use Vitis to Develop Linux Programs
08. Vitis Accelerates Basic Platform Creation
09. NVMe SSD operation under Linux
10. From QSPI Flashstart-up Linux
11. Starting Linux from EMMC
Remark: Linux Version petalinux 5.4.0-xilinx-v2020.1
Linux Driver Tutorial
01. Character Device
02. A New Way of Writing Character Devices
03. Device Tree and of Function
04. pinctrl and gpio Subsystem
05. Concurrent Processing
06. Pio input
07. Timer
08. Interrupt
09. Blocking IO
10. Non-Blocking IO
11. Asynchronous IO
12. Platform
13. Platform and Device Tree
14. MISC device driver
15. Input Subsystem
16. PWM Drive
17. I2C Driver
18. USB Driver
19. SPI Drive
20. Uart Driver
21. Block Device Driver
22. NIC driver
23. DMA Driver
24. Multi-touch screen driver
25. LCD Drive
Linux Application Development Tutorial
01. Building a Minimalist Working Environment
02 Hello World with Remote Debugging
03. OpenCV Edge Detection
04. OpenCV+Qt Face Detection
05. GStreamer's Camera Display
06. Qt+DRM+Gstreamer Camera Display
07. Qt+GPU Camera Display
08. Linux Register Operation
Vitis-AI Basic
01. Docker Environment Construction
03 Neural Network Training based on Keras Framework
04. Debugging Tools
FPGA Chip
XCZU19EG--2FFVC1760I
Chip CPU
4x ARM Cortex-A53, 1.333GHz ;Dual Core Cortex™-R5, 533MHz
Chip GPU
Mali™-400 MP2
Chip level
Speed grade -2, industrial grade, working temperature -40 ° c~85 ° C
PS-end High Speed Connection
PCIe® Gen2 x4, 2x USB3.0, SATA 3.1, DisplayPort, 4x Tri-mode Gigabit Ethernet
PS-end General Connection
2xUSB 2.0, 2x SD/SDIO, 2x UART, 2x CAN 2.0B, 2x I2C, 2x SPI, 4x 32b GPIO
Logic Cells
1,143K
CLB Flip-Flops
1,045K
Look Up Tables (LUTs)
523K
Global Clock
11
PCI E Gen 3x16
5
100G Ethernet
4
PL GTY 32.75Gb/s
28
Max. Distribu- ted RAM
9.8Mb
Total Block RAM
34.6Mb
UltraRAM
36Mb
DSP Slices
1968
150G Interlaken
4
PL GTH 16.3Gb/s
44
DDR4
PS DDR4, 4 Pieces of 1G DDR4, 4GB Total, 64bit, Data Speed 2400Mbps
PL has a 260 pin DDR4 sodimm socket (self purchased memory module is required)
QSPI Flash
Two pieces of 512Mbit QSPI flash, a total of 1024mbit, are used for the storage of zboot files, system files and user data of zynq chip
EMMC Flash
32GB EMMC flash memory chip, users store operating system files or other user data
PCIe x8 Slot
PCIe X8 slot 1-way PCIe X8 slot is used for PCIe X8 communication, connecting pciex8, x4, X2, X1 PCIe boards to realize PCIe data communication. It supports PCI Express 2.0 standard, and the single channel communication rate can be as high as 5gbaud.
DP Interface
Mini Display Port up to 4K@30Hz or 1080P@60Hz Output (ALINX customized DP to HDMI cable, need to buy Separately )
100G Optical fiber interface
Four qsfp28 optical fiber interfaces provide independent transmission and reception channels, which can operate at 25gbps at 100m of OM4 MMF, and the overall data rate is 100gbps
FMC HPC
Two FMC HPC expansion ports, external Xilinx or alinx FMC daughter boards (HDMI input and output module, binocular camera module, high-speed AD module, etc.)
CAN Bus Interface x2
Used for CAN Communication Service
RS485 Bus Interface x2
Used for 485 communication Service
MIPI Interface
1 channel Mipi camera input interface, used to connect Mipi camera module
M.2 NVME Interface
Used to Connect the M.2 SSD Solid State Drive (Need to Buy it Yourself)
USB to serial port
PS and PL have one UART to USB interface respectively. Used for debugging communication with computer.
The third UART port is led out from the PS end through a 1mm spacing, 10PIN FPC connector, which can be connected to peripheral devices such as serial port screen
Ethernet interface
One Gigabit Ethernet interface at PL and PS ends respectively to exchange Ethernet data with computers or other network devices
USB 3.0 x 4
Used to Connect External USB Peripherals
SMA Interface
3 pairs of differential SMA interfaces are used for external high-speed input and output signals
SATA Interface
4-way SATA interface for connecting peripherals such as hard disks
JTAG
10-pin 2.54mm standard JTAG port for downloading and debugging of field programmers
Clock Configuration
A passive crystal provides 32.768 KHz real-time clock source for PS system
A crystal oscillator provides 33.333MHz clock input for the PS section
A differential 200MHz PL system clock source for DDR4 controller reference clock
Real Time Clock
1 built-in RTC real-time clock
EEPROM
EEPROM 24LC04 with 1 piece of IIC interface
Temperature Sensor
Sensor Chip LM75, Used to Detect the Ambient Temperature
SD Card Slot
1 Micro SD Card Slot, Support SD Mode and SPI Mode
LED
1 power indicator, 1 DONE configuration indicator, 2 user indicators
KEYs
3 KEYs, 1 Reset KEY, 2 User KEYs
Voltage Input
+12 V DC
Current Input
Max. Current 3A
FPGA Board
1
DC Fan (Fixed on the Board)
1
Mini USB Cable
1
USB Downloader Cable
1 Set
12V Power Adapter
1
Transparent Protection Board
1
TF Card
1
Card Reader
1
Size Dimension
165mm x 113.94mm
Number of Layers
Adopt 8-layer PCB design, and reserve independent power supply layer and GND layer
Intelligent identification and detection, image and video processing, security monitoring, machine vision, fire monitoring,
traffic safety, smart construction site, smart hotel, smart agriculture, Internet of Things
Vehicle Identification
Infrared Vehicle Identification
Pedestrian recognition
Indoor Person Recognition
Fire detection
Helmet detection
Concrete defect detection
PCB defect detection
Rich extension interface
Intelligent Recognition, Image and Video Processing Security Monitoring, Machine Vision
Rich peripheral interfaces: 2 x FMC HPC interfaces, 4 x M.2 SSD interfaces, 1 x PCIe main mode slot, 4 x SATA interfaces, 3 x SMA interfaces,1 x DP interface, 4 x 100G optical fiber interfaces, 4 x USB3.0 interfaces, 2 x Gigabit Ethernet interfaces, 3 x UART interfaces, 1 x TF card slot, 2 x CAN bus interfaces, 2 x RS485 interfaces, and 1 x Mipi camera interface
It supports AI intelligence, cloud computing, high-speed optical fiber network communication, high-speed data storage, video image processing, pre project verification, machine vision, industrial control and other applications
25gbps operation at 100m of OM4 MMF, with an overall data rate of 100gbps
MIPI Camera Module AN5641 On-Board Demo
The MIP Camera Module AN5641 for Video Capture and Displays it on the Monitor through the Mini DP Interface
● 결제일로부터 1~3주 안에 배송됩니다.
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