Apply to PCIe, Video Image Processing SFP/ Ethernet Communication
AX7015 Supporting Verilog HDL Demos and Docuemnts . All Doucments Saved in Dropbox, after buy the board, email to get it.
Course_S1_Basic Tutorial
01: Software Package Introduction and FPGA Board Inspection
02: Introduction to ZYNQ
03: Vivado development environment
04: PL's "Hello World" LED experiment
05: HDMI output experiment
06: HDMI Pass-through ILA Debugging experiment
07: GTX transceiver bit error rate test IBERT experiment
08: Experience ARM, bare metal output "Hello World"
09: PS lights up the LED lights of the PL
10: PS timer interrupt experiment
11: PL button interrupt experiment
12: Ethernet Experiment (LWIP)
13: Custom IP experiment
14: Use VDMA to drive HDMI display15: Curing Programs
16: PCIE Testing
17: PCIe transmits video to HDMI display
18: HDMI video input to PCIe capture display
19: Developing PCIe under Linux
20: Install virtual machine and Ubuntu system
21: Ubuntu installs the Vivado software for Linux
22: Petalinux tool installation
23: NFS service software installation
24: Customizing Linux with Petalinux
25: Develop Linux programs using the SDK
26: GPIO experiment under Linux
27: HDMI display under Petalinux
28: Use the Debian 8 desktop system
29: Making QSPI Flash booted Linux
30: QSPI and EMMC boot Linux
31: GTP optical fiber data communication
32: GTP optical fiber video image transmission
Course_S2_SDK Application Tutorial
01: PS side MIO operation—light up the LED Light
02: PS side MIO operation—Key interrupt
03: PS side UART read and write control
04: Use of XADC
05: PL read and write PS DDR data
06: Realize PS and PL data interaction through BRAM
07: Use of dual core AMP
08: Use of Free RTOS under ZYNQ
09: DMA loop test
10: Use of DMA--DAC waveform generator (AN108)
11: Use of DMA--ADC oscilloscope (AN108)
12: Use of DMA--ADC oscilloscope (AN9238)
13: Use of DMA--ADC oscilloscope (AN706)
14: Use of the SG DMA based on ADC module (AN926)
15: Use the SG DMA based on DAC module (AN9767)
16: OV5640 camera acquisition display (1)
17: OV5640 camera acquisition display (2)
18: Binocular camera Ethernet transmission
19: Use of 7 inch LCD module
20: Use of 7-inch touch screen disaply
21: SD card read and write operation BMP picture display
22: SD card read and write operation camera capture
23: Ethernet Transmission ADC Acquisition Based on AN108 Module
24: Ethernet Transmission ADC Acquisition Based on AN706 Module (AN9238)
25: Ethernet Transmission--ADC Acquisition Based on AN706 Module
26: Remote update QSPI Flash based on UDP/TCP
Course_S3_HSL Application Tutorial
01: Getting to Know HLS
02: Status Indicator LED
03: Floating Point Coprocessing
04: Video Color Bar
05: Video Frame Buffer Read and Write Management
06: Image Scaling Overlay
07: Character Overlay
08: Image Contrast Adjustment
09: Auto Focus
10: Edge Detection
11: Corner Detection
12: Fast Fourier Transform
Course_S4_Linux Application Tutorial
01: QT application on ZYNQ
02: OpenCV Application(USB Camera Display)
03: Binocular Camera Module OpenCV Display
04: Touch screen module application
05: AXI DMA Read and Write Test
06: DMA-based ADC Waveform Display (AN9238)
07: DMA-based ADC Waveform Display (AN706)
08: Autorun petalinux application
09: Appendix - Linux Common Commands
FPGA Board
AN9767 Collection Package
AN706 Collection Package
AN9238 Collection Package
Video Package
Luxury Package
FPGA Board
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Downloader
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AN9767
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AN706
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AN9238
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Binocular Camera
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7-inch LCD
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Supporting Modules in the Package, Click to Learn More
*Learn more about the Core Board, Click to view >>
FPGA Board
AX7015
FPGA Chip
XC7Z015-2CLG485I
Kernel
Dual-Core ARM Cortex-A9 Main Frequency 767MHz
Speed Grades
-2
Working Temperature
-40°c~85°c
Look Up Tables (LUTs)
46200
CLB Flip-Flops
92400
EMMC FLASH
8GB
Transceivers
4-Channels,PCIE Gen2 x4
PL IOs
148
LVDS
24
RAM
DDR3,1GB, Data Rate 1066Mbps
Chip Level
Industrial Grade
Logic Cells
74K
Multiplier
160(18x25MACCs)
BLOCK RAM
3.3Mb
QSPI FLASH
256MBit
PS MIOs
39
Voltage Adjustable IO
50
DDR3
Two 512MB DDR3, 32bit Bus, Data Rate 1066Mbps
QSPI Flash
256Mbit, Used as FPGA User Data Storage
EMMC Flash
8GB, Used as a Large-Capacity Storage Device in the ZYNQ System
Transceivers
4 GTP, each up to 6.25Gb/s,Used for SFP and PCIe Data Communication
SFP Interface
2-way High-Speed SFP Interface, the Receiving and Transmitting Speed of Each Channel is up to 6.125Gb/s
PCIe 2.0
Provides a Standard PCIe 2.0 x2 High-Speed Data Transmission Interface Single-Channel Communication Rate up to 5GBaud
Ethernet Interface
Two 10/100M/1000M with RJ-45 Interfaces for Data Exchange
JTAG
10-pin 0.1-inch Standard JTAG Port for Debug and Download
HDMI input/Output
HDMI Video Input and Output Interface, up to 1080P@60Hz Support 3D Output and Data Input in Different Formats
USB 2.0
4 USB2.0 Interface, Used for Connect USB Peripherals such as Mouse, Keyboard and U Disk
USB Uart
2 USB Uart Interface, Used for Serial Communication with PC or External Devices
Crystal Oscillator
33.333 Mhz Provide Stable Clock Source for the PS System
125 Mhz Active Crystal Oscillator
SD Card Slot
1 Micro SD Card Slot, Support ted SD Mode and SPI Mode
LED
5 LED lights, 1 Controlled by PS, 4 Controlled by PL
KEYs
2 Keys and 1 Reset Key, 1 PS Control keys, 1 PL Control 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 2A
FPGA Board
1
USB Downloader Cable
1 Set
Mini USB Cable
1
Transparent Protection Board
1
12V Power Adapter
1
Card Reader
1
TF Card
1
Size Dimension
Core Board 2.36 inch x 2.36 inch, Carrier Board 7.40 inch x 4.17 inch
Number of Layers
10-Layer Core Board PCB, 4-Layer Carrier Board PCB
Industrial Ethernet, Multi-Channel Video Transmission Multi-Channel Network and SFP Communication High-Speed Data Transmission Exchange
Expansion Interface Connects Binocular Camera Module Realize SPF Video Transmission
The FPGA Development Board Collects Video Images through the Camera Module, and Transmits it to another FPGA Development Board through the SFP Interface. After the SFP Interface Receives the Data, Displayed it to the Monitor through the HDMI Interface.
Optical Transceiver Communication Eye Diagram
Meet Various PCIe High-Speed Data Transmission Video Image Processing Needs
PCIe Read and Write Speed Test
HDMI Video Input to PCIe Capture Display
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 HDMI Interface of the FPGA Development Board
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