Dual Core ARM® Cortex-A53 and Dual Core Cortex-R5 Processor 16nm FinFET+ Combined with Programmable Logic Satisfy Network Communication, High-Speed Data Exchange and Storage, Industrial Motor Control, Sensor Fusion and Industrial IoT Applications , Deep Learning, AI Intelligence, Cloud Computing, 4K Video Transmission Processing
Dual-Core ARM CORTEX-A53 +Dual-Core ARM CORTEX-R5
PS end 1GB DDR4,32bit
Mini Display Port up to 4K@30Hz or 1080P@60Hz Output
32MB QSPI FLASH
All Doucments Saved in Dropbox, after buy the board, email to get it.Development Software Version: Vitis 2020.1 Linux Version: petalinux 5.4.0-xilinx-v2020.1
Course_S0_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
Course_S1_FPGA E xperiment Tutorial
01. Introduction to Ultrascale+ MPSoC
02. AXU2CGA/B Board Hardware Introduction
03. Introduction to Verilog Basic Modules
04. PL's "Hello World" LED Experiment
05. PLL Experiment Under Vivado
06. FPGA on-chip RAM Read and Write Test Experiment
07. FPGA on-chip ROM Read and Write Test Experiment
08. FPGA on-chip FIFO Read and Write Test Experiment
09. Key Experiment in Vivado
10. PWM Breathing Light Experiment
11. RS232 Experiment
12. RS422 Experiment
13. RS485 Experiment
14. HDMI Output Experiment (AN9134 Module)
15. HDMI Character Display Experiment
16. 7-inch LCD Screen Display Experiment (AN970 Module)
Course_S2_Vitis Application Tutorial
01. Experience ARM, bare metal output "Hello World"
02. PS RTC Interrupt Experiment
03. PS Side UART Read and Write Control
04. PS Side Use of I2C
05. PS Side Use of Display Port
06. PS Side SD Card Read and Write
07. PS Side Use of Ethernet (LWIP)
08. PS Side Remote Update QSPI Flash by Ethernet
09. Use of System Monitor
10. PS Side Use of EMIO
11. PL Side Use of AXI GPIO
12. Custom IP experiment
13. Use of Dual Core AMP
14. Use of “Free RTOS” under ZYNQ
15. PL Read and Write PS DDR Data
16. Realize PS and PL Data Interaction Through BRAM
17. DMA Loop Test
18. Use of DMA--DAC Waveform Generator (AN108 Module)
19. Use of DMA--ADC oscilloscope (AN108)
20. Use of DMA--ADC oscilloscope (AN9238)
21. Use of DMA--ADC Oscilloscope (AN706)
22. Use of DMA--ADC Oscilloscope (AN108)
23. Use the Scatter/Gather DMA Based on DAC Module (AN9767)
24. AN5642 Binocular Camera Collection and Display
25. SD Card Read and Write Operation Camera Capture
26. Binocular camera Ethernet transmission
27. MIPI Acquisition and Display Based on AN5641 Module
28. Audio Module AN831 Recording and Playback
29. Use of 7 inch LCD Module
30. 7-inch Touch Screen GUI and Touch Control
31. Ethernet Transmission--ADC Acquisition Based on AN108 Module
32. Ethernet Transmission--ADC Acquisition Based on AN9238 Module
33. Ethernet Transmission-- ADC Acquisition Based onA N706 Module
Course_S3_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 3 nvironment
07. Use Vitis to Develop Linux Programs
08. Vitis Accelerates Basic Platform Creation
Remark: Linux Version petalinux 5.4.0-xilinx-v2020.1
Course_S4_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. Gpio 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
Course_S5_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
Course_S6_HSL Tutorial Tutorial
01. Getting to Know Vitis HLS
02. 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
Course_Vitis-AI Basic
1. Docker Environment Construction
2. Vitis-AI Development Process
03. Neural Network Training based on Keras Framework
04. Debugging Tools
FPGA Board
AXU2CGA
FPGA Chip
XCZU2CG-1SFVC784E
Chip CPU
Dual-Core ARM Cortex-A53,1.2GHz, Dual-Core ARM Cortex™-R5,500MHz
PS RAM
DDR4,1GB 32bit, 2400Mbps
Chip Level
Commercial Grade
Working Temperature
0°c~70°c
Speed Grades
-1
Logic Cells
103K
CLB Flip-Flops
94K
Look Up Tables (LUTs)
47K
Global Clock
3
DSP slice
240
Max. Distribu- ted RAM
1.2Mb
BlOCK RAM
5.3Mb
EMMC FLASH
/
QSPI FLASH
32MB
HP I/O (1.8V)
34个
HD I/O (3.3V)
34个
DP Interface
Mini Display Port up to 4K@30Hz or 1080P@60Hz Output (ALINX customized DP to HDMI cable, need to buy Separately )
PCIE Interface
Used to Connect PCIE Peripherals, Communication Speed up to 5Gbps
MIPI Interface x 2
Used to Connect ALINX MIPI Interface OV5640 Camera Module AN5641
USB 3.0 x 4
Used to Connect External USB Peripherals
USB Uart
Used for Serial Communication with PC or External Devices
Gigabit Ethernet
10/100/1000M Ethernet with RJ-45 Interfaces for Data Exchange
System Clock
PS System Clock is 33.3333Mhz, PL Clock is 25Mhz (Not with Battery)
JTAG
10-pin 0.1-inch Standard JTAG Port for Programs Debug and Download
EEPROM
EEPROM 24LC04 with IIC Interface On-Board
SD Card Slot
1 Micro SD Card Slot, Support SD Mode and SPI Mode
LED
5 User LEDs
KEYs
5 KEYs, 1 Reset KEY, 4 User KEYs
40-Pin Expansion Ports
Two 40-Pin Expansion Ports (0.1 inch Pitch), Can be Connect with Various ALINX Modules (Binocular Camera Module, TFT LCD Screen, Camera, AD/DA and Other Modules).
Voltage Input
+12 V DC
Current Input
Max. Current 3A
FPGA Board
1
Heatsink
1
Size Dimension
FPGA Development Board 3.45 inch x 3.94 inch
Number of Layers
14-Layer PCB, Reserve independent power 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
Ultra Small Size Cost-effective, Suitable for Entry
Dual Core ARM Cortex-A53,1.2GHz;Dual Core Cortex™-R5, 500MHz;PS end 1GB DDR4,32bit,Data rate 2400Mbps
Deep Learning, AI Computing, Video Processing High-Speed Data Transmission Processing, etc.
Core Board + Carrier Board Customers Can Directly Use the Core Board in their Design
Rich Interfaces in the Carrier board. MINI DP Interface, USB 3.0 x 4, Gigabit Ethernet, USB Uart, PCIe TF Card Slot, 40-pin Expansion Ports x 2, MIPI Camera Interface x 2 Apply to AI Intelligence, Cloud Computing, Network Communication High-Speed Data Transmission, Video Image Processing and Industrial Control.
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
AN9767/AN706 Module On-Board Demo
*The Signal Source Output Signal is Connected to the AN9767 Module, and the Waveform Signal is Displayed through the Oscilloscope
*The Signal Source Output Signal is Connected to the AN706 Module, Run the System to Draw the Waveform Data, and is Displayed to the Monitor through the Mini DP Interface of the FPGA Development Board
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