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1. About the Video and Image Processing Suite
2. Avalon Streaming Video
3. Clocked Video
4. VIP Run-Time Control
5. Getting Started
6. VIP Connectivity Interfacing
7. Clocked Video Interface IPs
8. 2D FIR II IP Core
9. Mixer II IP Core
10. Clipper II IP Core
11. Color Plane Sequencer II IP Core
12. Color Space Converter II IP Core
13. Chroma Resampler II IP Core
14. Control Synchronizer IP Core
15. Deinterlacer II IP Core
16. Frame Buffer II IP Core
17. Gamma Corrector II IP Core
18. Configurable Guard Bands IP Core
19. Interlacer II IP Core
20. Scaler II IP Core
21. Switch II IP Core
22. Test Pattern Generator II IP Core
23. Trace System IP Core
24. Warp Lite Intel FPGA IP
25. Avalon-ST Video Stream Cleaner IP Core
26. Avalon-ST Video Monitor IP Core
27. VIP IP Core Software Control
28. Security Considerations
29. Video and Image Processing Suite User Guide Archives
30. Document Revision History for the Video and Image Processing Suite User Guide
A. Avalon-ST Video Verification IP Suite
7.1. Supported Features for Clocked Video Output II IP
7.2. Control Port
7.3. Clocked Video Input IP Format Detection
7.4. Clocked Video Output IP Video Modes
7.5. Clocked Video Output II Latency Mode
7.6. Generator Lock
7.7. Underflow and Overflow
7.8. Timing Constraints
7.9. Handling Ancillary Packets
7.10. Modules for Clocked Video Input II IP Core
7.11. Clocked Video Input II Signals, Parameters, and Registers
7.12. Clocked Video Output II Signals, Parameters, and Registers
15.1. Deinterlacing Algorithm Options
15.2. Deinterlacing Algorithms
15.3. Run-time Control
15.4. Pass-Through Mode for Progressive Frames
15.5. Cadence Detection (Motion Adaptive Deinterlacing Only)
15.6. Avalon-MM Interface to Memory
15.7. Motion Adaptive Mode Bandwidth Requirements
15.8. Avalon-ST Video Support
15.9. 4K Video Passthrough Support
15.10. Behavior When Unexpected Fields are Received
15.11. Handling of Avalon-ST Video Control Packets
15.12. Deinterlacer II Parameter Settings
15.13. Deinterlacing Control Registers
A.3.1. c_av_st_video_control
A.3.2. c_av_st_video_data
A.3.3. c_av_st_video_file_io
A.3.4. c_av_st_video_item
A.3.5. c_av_st_video_source_sink_base
A.3.6. c_av_st_video_sink_bfm_’SINK
A.3.7. c_av_st_video_source_bfm_’SOURCE
A.3.8. c_av_st_video_user_packet
A.3.9. c_pixel
A.3.10. av_mm_transaction
A.3.11. av_mm_master_bfm_`MASTER_NAME
A.3.12. av_mm_slave_bfm_`SLAVE_NAME
A.3.13. av_mm_control_register
A.3.14. av_mm_control_base
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15.13.2. Tuning Motion Shift and Motion Scale Registers
To tune the motion shift register, follow these steps:
- Enable motion visualization; set Visualize Motion Values register to 1.
- Enable cadence detection and tuning registers by setting register 12 to 1.
- Feed the Deinterlacer II IP core with the sequence of interest, ideally one with static areas and areas in motion, such as a waving flag sequence. Areas in the image where motion is detected will appear in pink, with the luminance in proportion to the amount of motion detected.
- Adjust the Motion Shift register through software when the Deinterlacer II IP core runs, to observe the effect on the motion detected. Choose a motion shift value that does not cause any motion to be detected in static areas of the image.
- When you are satisfied that the correct amount of motion shift is applied, disable motion visualization by resetting the register back to 0.
- Look for weave artifacts in moving portions of the image, ideally using a test sequence with fast moving sharp edges or narrow lines. If you do not detect any visible weave artifacts, gradually decrease the Motion Scale register value from the default 125 until the artifacts become visible.
- Gradually increase the value of Motion Scale register until all the weave artifacts disappear.