SC1200UCL-266 AMD (ADVANCED MICRO DEVICES), SC1200UCL-266 Datasheet - Page 325

SC1200UCL-266

Manufacturer Part Number

SC1200UCL-266

Description

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheet

1.SC1200UCL-266.pdf (443 pages)

Specifications of SC1200UCL-266

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Video Processor Module

7.2.3.1

If the video data is in the YUV color space and RGB mix-

ing/blending is desired, this CSC must be enabled. The

CSC_FOR_VIDEO bit, F4BAR0+Memory Offset 4Ch[10],

controls this CSC.

YUV video data is passed through this CSC to obtain 24-bit

RGB data using the following CCIR-601-1 recommended

formula:

• R = 1.1640625(Y – 16) + 1.59375(V – 128)

• G = 1.1640625(Y – 16) – 0.8125(V – 128) –

• B = 1.1640625(Y – 16) + 2.015625(U – 128)

The CSC clamps inputs to prevent them from exceeding

acceptable limits.

7.2.3.2

Either the video or graphics data can be routed through an

integrated palette RAM for Gamma correction. There are

three 256-byte RAMs, one for each color component value.

Gamma correction supported in the YUV or RGB color

space for the video data and RGB color space for the

graphics data. Gamma correction is accomplished by treat-

ing each color component as an address into each RAM.

The output of the RAM is the new color. A simple RGB

Gamma correction example is to increase each color com-

ponent by one. The address 00h in the RAMs would con-

tain the data 01h. The address 01h would contain the data

02h and so on. This would have the effect of increasing

each original Red, Green, and Blue value by one.

• G_V_GAMMA, F4BAR0+Memory Offset 04h[21] selects

7.2.3.3

The RGB to YUV CSC serves two options: YUV blending

(TV output mode only) and RGB blending (TV, CRT, and

TFT output modes). Through several multiplexers, this

CSC is used to convert the graphics data from RGB to YUV

for YUV blending (CSC_FOR_GFX = 1, F4BAR0+Memory

Offset

(CSC_FOR_GFX = 0), the CSC is used post blending to

convert the mixed/blended data from RGB to YUV for the

TVOUT block.

AMD Geode™ SC1200/SC1201 Processor Data Book

0.390625(U – 128)

which data path (video or graphics) to send to the

Gamma correction block. GAMMA_EN,

F4BAR0+Memory Offset 28h[0] enables the Gamma

correction function. To load the Gamma correction

palette RAM, use F4BAR0+Memory Offset 1Ch and

20h.

4Ch[11]).

YUV to RGB CSC in Video Data Path

Gamma Correction

RGB to YUV CSC

When

RGB

blending

enabled

RGB graphics data or mixed/blended graphics/video data

is passed through this CSC to obtain 24-bit YUV data using

the following CCIR-601-1 recommended formula:

• Y = 0.257R + 0.504G + 0.098B + 16

• U = -0.148R – 0.291G + 0.439B + 128

• V = 0.439R – 0.368G – 0.071B + 128

The CSC clamps inputs to prevent them from exceeding

acceptable limits.

7.2.3.4

See Section 7.2.4.1 "Flicker Filter and Scan Rate Conver-

sion" on page 329 for details regarding the flicker filter.

7.2.3.5

A color/chroma key mechanism is used to support the

Mixer/Blender logic. There are two keys: key1 is for the cur-

sor and key2 is for graphics or video data. Key1, the cursor

key, is always a color key. The cursor color key registers

are located at, F4BAR0+Memory Offset 50h-5CF. How the

cursor key mechanism works with the Mixer/Blender is

explained in Section 7.2.3.6. COLOR_CHROMA_KEY

(F4BAR0+Memory Offset 04h[20]) determines whether

key2 is a color key or a chroma key. The Video Color Key

Color keying is used when video is overlaid on the graphics

(GFX_INS_VIDEO, F4BAR0+Memory Offset 4Ch[8] = 0).

Chroma keying is used when graphics is overlaid on the

video (GFX_INS_VIDEO = 1). How the color/chroma key

mechanism works with the Mixer/Blender is explained in

Section 7.2.3.6.

7.2.3.6

The Mixer/Blender takes each pixel of the graphics and

video data streams and mixes or blends them together.

Mixing is simply choosing the graphics pixel or the video

pixel. Blending takes a percentage of a graphics pixel

(Alpha_value * Graphics_pixel_value) and percentage of

the video pixel (1 - Alpha_Value * Video_pixel_value) and

adds them together. The percentages of each add up to

100%. The actual formula is:

• Blended Pixel = (Alpha_value * Graphics_pixel_value) /

Where: Alpha_value = 0 to 255

Mixing and blending are supported simultaneously for

every rendered frame, however, each pixel can only be

mixed or blended. The mix or blend question is decided by

the pixel position, whether video is overlaid on the graphics

or visa versa (GFX_INS_VIDEO, F4BAR0+Memory Offset

4Ch[8]), and several programmed “windows”. Figure 7-

11illustrates and example frame.

256 + ((256 – Alpha_value) * Video_pixel_value) / 256

1/2 Y Flicker Filter

Color/Chroma Key

Color/Chroma Key and Mixer/Blender

32579B

325

SC1200UCL-266 AMD (ADVANCED MICRO DEVICES), SC1200UCL-266 Datasheet - Page 325

SC1200UCL-266

Specifications of SC1200UCL-266

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