4 capture vbi mode, Figure 7-6 – AMD Geode SC1201 User Manual

AMD Geode™ SC1200/SC1201 Processor Data Book

319

Video Processor Module

32579B

Figure 7-6. Capture Video Mode Weave Example Using Two Video Frame Buffers

7.2.1.4

Capture VBI Mode

There are three types of VBI data defined by the CCIR-656
protocol: Task A data, Task B data, and Ancillary data. The
VIP block supports the capture for each data type. Gener-
ally Task A data is the data type captured. Just as in Cap-
ture Video mode, there are three registers that tell the bus
master where to put the raw VBI data in the GX1 module’s
frame buffer. Once the raw VBI data has been captured,
the data can be manipulated or decoded. The VIP block
has two options of what to do with the altered VBI data.
These options are independent functions so both options
can be done simultaneously.

1)

The data can be used by an application. An example
of this would be an Internet address that is encoded on
one or more of the VBI lines, or have an application
decode the Closed Captioning information put in the
graphics frame buffer.

2)

The altered VBI data can be sent to the TVOUT block
of the Video Processor via the video frame buffer or
graphics frame buffer. See VIP block diagram (Figure
7-4 on page 315). The Closed Captioning data could
be altered and then sent out this way. One reason to
capture the Closed Captioning data would be to do a
language conversion. If the VIP block is in Capture
Video mode then this option is not possible because
the video frame buffer can be used for sending video
or VBI, but not simultaneously.

The registers, F4BAR2+Memory Offset 40h, 44h, and 48h,
tell the bus master the destination addresses for the VBI
data in the GX1 module’s frame buffer. Five bits
(F4BAR2+Memory Offset 00h[21:17]) are used to tell the
bus master the data types to store. Capture VBI mode
needs to be enabled at F4BAR2+Memory Offset
04h[9,1:0]. The Field Interrupt bit (F4BAR2+Memory Offset
04h[16]) should be used by the software driver to know
when the captured VBI data has been completed for a field.

Video Data Odd Base

F4BAR2+Memory Offset 20h

Video Data Even Base

F4BAR2+Memory Offset 20h

VID_START_OFFSET

GX_BASE+Memory Offset 8320h

Ping-pongs between the

two buffers during runtime

GX1 Module’s Video Frame Buffer

1

2

4

5

6

7

8

9

10

11

12

13

14

15

16

17

1

2

3

4

6

7

8

9 10 11 12 13 14 15 16 17 18 19 20

22

Capture video fill sequence

GX1 Module’s Display

5

5

21

Video Data Even Base

F4BAR2+Memory Offset 24h

Video Data Even Base

F4BAR2+Memory Offset 24h

Odd and Even fields are

Buf #2

Video Frame Buffer #1

Video Frame Buffer #2

18

23

5

11

3

7

Line 1 Odd Field

Line n Odd Field

Line 2 Odd Field

Line 1 Even Field

Line 2 Even Field

Line n-1 Odd Field

Line n-1 Even Field

Line n Odd Field

Line n Even Field

Line 1 Odd Field

Line 1 Even Field

Line 2 Odd Field

Line 2 Even Field

Line n-1 Odd Field

Line n-1 Even Field

Line n Even Field

15

18

85 frames per second

30 frames per second

Buf #1

Controller empty sequence

“Weaved” together

Ping-pongs between the two buffers during runtime