User guide
Table Of Contents
- Contents
- 1. About This MegaCore Function Suite
- Release Information
- Device Family Support
- Features
- Design Example
- Performance and Resource Utilization
- 2D FIR Filter
- 2D Median Filter
- Alpha Blending Mixer
- Avalon-ST Video Monitor
- Chroma Resampler
- Clipper
- Clocked Video Input
- Clocked Video Output
- Color Plane Sequencer
- Color Space Converter
- Control Synchronizer
- Deinterlacer
- Deinterlacer II
- Frame Buffer
- Gamma Corrector
- Interlacer
- Scaler
- Scaler II
- Switch
- Test Pattern Generator
- Trace System
- 2. Getting Started with Altera IP Cores
- 3. Interfaces
- Interface Types
- Avalon-ST Video Protocol
- Avalon-MM Slave Interfaces
- Avalon-MM Master Interfaces
- Buffering of Non-Image Data Packets in Memory
- 4. 2D FIR Filter MegaCore Function
- 5. 2D Median Filter MegaCore Function
- 6. Alpha Blending MegaCore Function
- 7. Avalon-ST Video Monitor MegaCore Function
- 8. Chroma Resampler MegaCore Function
- 9. Clipper MegaCore Function
- 10. Clocked Video Input MegaCore Function
- 11. Clocked Video Output MegaCore Function
- 12. Color Plane Sequencer MegaCore Function
- 13. Color Space Converter MegaCore Function
- 14. Control Synchronizer MegaCore Function
- 15. Deinterlacer MegaCore Function
- Core Overview
- Functional Description
- Parameter Settings
- Signals
- Control Register Maps
- 16. Deinterlacer II MegaCore Function
- 17. Frame Reader MegaCore Function
- 18. Frame Buffer MegaCore Function
- 19. Gamma Corrector MegaCore Function
- 20. Interlacer MegaCore Function
- 21. Scaler MegaCore Function
- 22. Scaler II MegaCore Function
- 23. Switch MegaCore Function
- 24. Test Pattern Generator MegaCore Function
- 25. Trace System MegaCore Function
- A. Avalon-ST Video Verification IP Suite
- B. Choosing the Correct Deinterlacer
- Additional Information
Chapter 1: About This MegaCore Function Suite 1–9
Performance and Resource Utilization
January 2013 Altera Corporation Video and Image Processing Suite
User Guide
Clocked Video Output
Table 1–11 lists the performance figures for the Clocked Video Output.
Color Plane Sequencer
Table 1–12 lists the performance figures for the Color Plane Sequencer.
Stratix V
(2)
310 426 43,008 — 3 40 198.61
Notes to Table 1–10:
(1) EP4CGX15BF14C6 devices.
(2) 5SGXEA7H3F35C3 devices.
Table 1–10. Clocked Video Input Performance (Part 2 of 2)
Device Family
Combinational
LUTs/ALUTs
Logic
Registers
Memory
f
MAX
(MHz)
Bits M9K M20K MLAB Bits
Table 1–11. Clocked Video Output Performance
Device Family
Combinational
LUTs/ALUTs
Logic
Registers
Memory
f
MAX
(MHz)
Bits M9K M20K MLAB Bits
Converts Avalon-ST Video to DVI 1080p60 clocked video.
Cyclone IV GX
(1)
276 292 51,200 7 — — 138.81
Stratix V
(2)
188 148 51,200 — 3 — 199.24
Converts Avalon-ST Video to PAL clocked video.
Cyclone IV GX
(1)
297 307 18,432 3 — — 134.46
Stratix V
(2)
240 144 18,432 — 1 — 213.68
Converts Avalon-ST Video to SDI 1080i60 clocked video.
Cyclone IV GX
(1)
320 325 43,008 6 — — 138.10
Stratix V
(2)
250 152 43,008 — 3 — 220.17
Converts Avalon-ST Video to SDI 1080p60 clocked video.
Cyclone IV GX
(1)
316 326 43,008 6 — — 146.93
Stratix V
(2)
241 152 43,008 — 3 — 216.54
Notes to Table 1–11:
(1) EP4CGX15BF14C6 devices.
(2) 5SGXEA7H3F35C3 devices.
Table 1–12. Color Plane Sequencer Performance (Part 1 of 2)
Device Family
Combinational
LUTs/ALUTs
Logic
Registers
Memory DSP Blocks
f
MAX
(MHz)
Bits M9K M20K (9×9) (18×18)
Rearranging a channels in sequence 4:2:2 stream, from Cb,Y,Cr,Y to Y,Cb,Y,Cr. 8 bit data.
Cyclone IV GX
(1)
284 339 — 0 — — — 271.08
Stratix V
(2)
213 240 — — 0 — — 397.3
Joining a single channel luminance stream and a channels in sequence horizontally half-subsampled chrominance stream to
a single 4:2:2 channels in sequence output stream. 8 bit data.
Cyclone IV GX
(1)
388 464 — 0 — — — 230.20