Preliminary
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HD Video Processing Subsystem (HDVPSS)
1.6
HD Video Processing Subsystem (HDVPSS)
The HDVPSS module includes video display processing modules using the latest TI developed algorithms,
flexible compositing and blending engine, full range of external video interfaces in order to deliver a high
quality video contents to the end devices.
1.6.1 Features Supported
Overall Features
•
The HDVPSS supports three HD (up to 1080p) and one SD (NTSC/PAL) output displays
simultaneously.
•
The HDVPSS is able to accept the HDVICP2 Video Decoder output formats and adjust to several
video formats. This includes (but not limited to) tiled and raster data formats, scan format conversion,
scan rate conversion, aspect-ratio conversion, and frame size conversion.
•
The HDVPSS handles both video and graphics efficiently to create high-quality user interfaces. This
includes (but not limited to) deinterlacing, scaling, noise reduction, alpha blending, chroma keying,
flicker filtering, and pixel format conversion
•
The HDVPSS generates secure video signal with proper content protection mechanisms, i.e., HDCP
and Macrovision/CGMS-a for digital and analog outputs, respectively.
•
VC-1 Range Mapping and Range Reduction support on Primary, Auxiliary, and both Secondary 420
Inputs.
Video Processing Features
•
Two parallel video processing pipelines (main and aux) for concurrent video stream processing are
supported.
•
The main video pipeline is used for processing video for the full size HD display. The main video
pipeline employs highest-quality image processing – noise reduction, motion-adaptive deinterlacer,
edge-directed scaler, and spatial edge enhancement.
•
The second video pipeline is used for processing the video for the full HD/SD video output in a dual
independent output mode or the video sub-window in a picture-in-picture (PIP) mode. The pipeline
employs an area-efficient algorithm that includes a motion-adaptive 3D deinterlacer and a non edge
adaptive scaler.
•
Noise reduction (including deringing, per pixel motion adaptive temporal and spatial noise reduction) is
required on the main video pipeline. An additional spatial and temporal noise reduction block includes
for memory to memory operation on any other video stream.
•
Supported video input formats are 4:2:0 (aligned-chroma, semi-planar, frame/field), and 4:2:2 (planar,
semi-planar, frame/field). YUV420, the output formats of the HDVICP2 and video formats of captured
external digital video data, is supported.
•
Scan format conversions (i.e., interlaced to progressive and vice versa) is supported. Especially the
interlaced to progressive conversion employs a high quality motion-adaptive 3D deinterlacer to properly
render both static and dynamic objects in scenes. In addition, sophisticated film-mode detection based
on decoded frames (as well as the input bit-stream) is used for best rendering of film-based video.
•
The output of the video processing is sent to either compositor or external memory. When the output is
sent to external memory, context switching between multiple inputs is handled efficiently.
•
Both the main and auxiliary video pipelines include a write-back path to the external memory to support
memory to memory scaling of video frames independently from the display output frame timing.
•
Color processing is to provide 1) color space conversion, 2) dynamic contrast control, and 3)
color-related processing such as flesh tone detection, memory color enhancement, and white point
control. Advanced color processing is performed in the CIE Color Appearance Model 2.0 (CIECAM
2.0).
•
Color keying (transparency) is supported.
•
The NF (Noise Filter) performs a memory to memory spatial/temporal noise filter algorithm on a 422
raster input source and produces a 420 tiled output source.
167
SPRUGX9 – 15 April 2011
Chip Level Resources
© 2011, Texas Instruments Incorporated
Содержание TMS320C6A816 Series
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