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1. DisplayPort Intel® FPGA IP Design Example Quick Start Guide
2. Parallel Loopback Design Examples
3. HDCP Over DisplayPort Design Example for Intel® Arria® 10 Devices
4. DisplayPort Intel® Arria® 10 FPGA IP Design Example User Guide Archives
5. Revision History for DisplayPort Intel® Arria® 10 FPGA IP Design Example User Guide
2.1. Intel® Arria® 10 DisplayPort SST Parallel Loopback Design Features
2.2. Intel® Arria® 10 DisplayPort MST Parallel Loopback Design Features
2.3. Enabling Adaptive Sync Support
2.4. Creating RX-Only or TX-Only Designs
2.5. Design Components
2.6. Clocking Scheme
2.7. Interface Signals and Parameters
2.8. Hardware Setup
2.9. Simulation Testbench
2.10. DisplayPort Transceiver Reconfiguration Flow
2.11. Transceiver Lane Configurations
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2.8. Hardware Setup
The DisplayPort Intel® FPGA IP design example is 8Kp30 capable and performs a loop-through for a standard DisplayPort video stream.
- To run the hardware test, connect a DisplayPort-enabled source device to the DisplayPort FMC daughter card sink input.
- The DisplayPort sink decodes the port into a standard video stream and sends it to the clock recovery core.
- The clock recovery core synthesizes the original video pixel clock to be transmitted together with the received video data.
Note: You require the clock recovery feature to produce video without using a frame buffer.
- The clock recovery core then sends the video data to the DisplayPort source and the Transceiver Native PHY TX block.
- Connect the DisplayPort FMC daughter card source port to a monitor to display the image.
LEDs | Function |
---|---|
USER_LED[0] | This LED indicates that the source is successfully lane-trained. At this point, the IP core asserts rx0_vid_locked. |
USER_LED[5:1] | These LEDs illuminate design example lane counts.
|
USER_LED[7:6] | These LEDs indicate the RX link rate.
|