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1. About the Video and Vision Processing Suite
2. Getting Started with the Video and Vision Processing IPs
3. Video and Vision Processing IPs Functional Description
4. Video and Vision Processing IP Interfaces
5. Video and Vision Processing IP Registers
6. Video and Vision Processing IPs Software Programming Model
7. Protocol Converter Intel® FPGA IP
8. 1D LUT Intel® FPGA IP
9. 3D LUT Intel® FPGA IP
10. Adaptive Noise Reduction Intel® FPGA IP
11. Advanced Test Pattern Generator Intel® FPGA IP
12. AXI-Stream Broadcaster Intel® FPGA IP
13. Bits per Color Sample Adapter Intel® FPGA IP
14. Black Level Correction Intel® FPGA IP
15. Black Level Statistics Intel® FPGA IP
16. Chroma Key Intel® FPGA IP
17. Chroma Resampler Intel® FPGA IP
18. Clipper Intel® FPGA IP
19. Clocked Video Input Intel® FPGA IP
20. Clocked Video to Full-Raster Converter Intel® FPGA IP
21. Clocked Video Output Intel® FPGA IP
22. Color Plane Manager Intel® FPGA IP
23. Color Space Converter Intel® FPGA IP
24. Defective Pixel Correction Intel® FPGA IP
25. Deinterlacer Intel® FPGA IP
26. Demosaic Intel® FPGA IP
27. FIR Filter Intel® FPGA IP
28. Frame Cleaner Intel® FPGA IP
29. Full-Raster to Clocked Video Converter Intel® FPGA IP
30. Full-Raster to Streaming Converter Intel® FPGA IP
31. Genlock Controller Intel® FPGA IP
32. Generic Crosspoint Intel® FPGA IP
33. Genlock Signal Router Intel® FPGA IP
34. Guard Bands Intel® FPGA IP
35. Histogram Statistics Intel® FPGA IP
36. Interlacer Intel® FPGA IP
37. Mixer Intel® FPGA IP
38. Pixels in Parallel Converter Intel® FPGA IP
39. Scaler Intel® FPGA IP
40. Stream Cleaner Intel® FPGA IP
41. Switch Intel® FPGA IP
42. Text Box Intel® FPGA IP
43. Tone Mapping Operator Intel® FPGA IP
44. Test Pattern Generator Intel® FPGA IP
45. Unsharp Mask Intel® FPGA IP
46. Video and Vision Monitor Intel FPGA IP
47. Video Frame Buffer Intel® FPGA IP
48. Video Frame Reader Intel FPGA IP
49. Video Frame Writer Intel FPGA IP
50. Video Streaming FIFO Intel® FPGA IP
51. Video Timing Generator Intel® FPGA IP
52. Vignette Correction Intel® FPGA IP
53. Warp Intel® FPGA IP
54. White Balance Correction Intel® FPGA IP
55. White Balance Statistics Intel® FPGA IP
56. Design Security
57. Document Revision History for Video and Vision Processing Suite User Guide
31.4.1. Achieving Genlock Controller Free Running (for Initialization or from Lock to Reference Clock N)
31.4.2. Locking to Reference Clock N (from Genlock Controller IP free running)
31.4.3. Setting the VCXO hold over
31.4.4. Restarting the Genlock Controller IP
31.4.5. Locking to Reference Clock N New (from Locking to Reference Clock N Old)
31.4.6. Changing to Reference Clock or VCXO Base Frequencies (switch between p50 and p59.94 video formats and vice-versa)
31.4.7. Disturbing a Reference Clock (a cable pull)
Visible to Intel only — GUID: nle1657031228094
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19.2. Initializing the Clocked Video Input IP
The IP provides an Avalon memory-mapped interface, which you can use as a control interface to configure the IP. Initially, the IP is disabled and does not transmit any data or video. However, the Clocked Video Input IP still detects the format of the clocked video input and accepts data on the input video interface.
To start the output of the IP:
- Write a 1 to control register bit 0 to enable the clocked video input block
- Write a 1 to control register bit 4 to enable Vsync and Hsync autopolarity detection.
- Optionally, write a 1 to control register bit 3 to enable the frame cleaner logic.
- Optionally, write the minimum expected number of frames for F0 and F1 to control register bits 23:16 to enable autodetect interlaced video format mode. If you write zeros to this set of bits, the IP does not automatically auto-detect video interlaced formats.
- Write the expected output video height and width values to ref_lock_cfg1 register. The IP only starts transmitting video on the output interface when the values on ref_lock_cfg1 matches the values on registers active_line_count and total_line_count.
- Write the expected number of frames and output video lines values to ref_lock_cfg2 register. The IP only starts transmitting video on the output interface when the values on ref_lock_cfg2 are matched.
- Alternatively, if you write zeros to ref_lock_cfg1 and ref_lock_cfg2, the IP does not try to match any specific output video resolution values and immediately produces video.
- Optionally, set the values for each of the color planes that the frame cleaner use to do the padding on the output video frame in case a cable is pulled.
- Read status register bit 4. When this bit is 1, the IP starts transmitting video. The transmission starts on the next start of frame boundary.