ALXD800EEXJ2VD AMD (ADVANCED MICRO DEVICES), ALXD800EEXJ2VD Datasheet - Page 461

ALXD800EEXJ2VD

Manufacturer Part Number

ALXD800EEXJ2VD

Description

Manufacturer

AMD (ADVANCED MICRO DEVICES)

Datasheet

1.ALXD800EEXJ2VD.pdf (675 pages)

Specifications of ALXD800EEXJ2VD

Operating Temperature (min)

Operating Temperature (max)

85C

Operating Temperature Classification

Commercial

Mounting

Surface Mount

Lead Free Status / RoHS Status

Compliant

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Video Input Port

6.9.2.1

The Input Formatter receives 8- or 16-bit VIP input data, It

does a 4:2:2 to 4:2:0 translation (if enabled) and formats it

into either linear data or planar data for storage in the Cap-

ture RAM.

6.9.2.2

The Input Control block operates in either VIP 2.0 16-bit

mode, VIP 2.0 8-bit mode, VIP 1.1 compatible mode, Mes-

sage Passing mode, Data Streaming mode, or BT.601

Input mode. The Input Control block decodes preamble

and status from EAV/SAV and ancillary packets as well as

start/stop control for message passing packets or HSYNC/

VSYNC timing in BT.601 like input mode and generates

control to the Input Formatter and Capture RAM. Video

frame timing is decoded and passed on to the Address

Generator and GLIU. The VIP input state machine is imple-

mented in the Input Control block.

It should be noted that values from the configuration and

control registers are synchronized to the video clock before

being used by the Input Control block.

The VIP Input Control block contains:

• A state machine that keeps track of the video stream

• Logic to infer the odd/even VBI/ancillary packet informa-

• Sequencing control generation for the Input Formatter.

• Generation of start and stop capture, as well as capture

• Line start and end logic.

6.9.2.3

The Capture FIFO is a 256 WORDx64bit dual port RAM.

The input side is driven by the VIP clock. The output side is

driven by the GLIU clock. The memory is divided into a 192

QWORD buffer for video and a 64 QWORD buffer for ancil-

lary data when linear buffers are defined in system mem-

ory. It is partitioned into four 64 QWORD buffers when

planar buffers are defined in system memory. One 64

QWORD buffer is used for each of the Y, U, V and ancillary

data types. Data is stored in QWORDs. The watermark at

which the FIFO begins emptying is programmable. Gener-

ally, a minimum of eight QWORDs are stored in a buffer

before GLIU write. This enables two consecutive burst

write requests to be issued, which should provide the most

efficient cycle times to system memory. Programmable

threshold level flags are available to monitor data levels.

This should be helpful in debugging. Memory BIST is

implemented and can be invoked from the JTAG logic from

a MSRs. The memory can also be read/written using VIP

memory mapped registers.

AMD Geode™ LX Processors Data Book

protocol.

tion necessary to store data in memory.

active status.

Input Formatter

Input Control

VIP Capture RAM

6.9.2.4

The VIP register block contains the Address Generator,

MSR registers and memory mapped registers.

The Address Generator supports up to four data streams

(Y, Cr, Cb, and ancillary). Each data stream has an inde-

pendent logical FIFO. The Capture RAM is partitioned into

four FIFOS for planar storage mode (Y, Cr, Cb, and ancil-

lary) each being 64 QWORDs deep. In linear storage mode

the Capture RAM is partitioned into two FIFOs (Y = 192

QWORDs, ancillary = 64 QWORDs). Four vip_output_addr

blocks provide individual FIFO management and the VIP

Output Control block controls the time-slicing of GLIU

request for each FIFO. A separate buffer (system memory

address) is maintained for each data type as described by

Table 6-74 on page 472. The video base addresses regis-

ters are double buffered so address updates can be made

for the next frame while the current frame is being pro-

cessed.

The memory mapped registers are contained in the VIP

the base registers at frame boundaries is also implemented

in this block.

6.9.2.5

The GLIU provides a standard interface to the Geode LX

processor. The VIP is both a write master and a slave on

this bus.

As a write master, the VIP performs write requests to send

single beat writes, or a burst of four QWORDs to memory.

The VIP is considered a low-bandwidth isochronous mas-

ter to the GLIU. A FIFO watermark threshold is program-

mable, which allows the write transaction priority to be

increased when the data count in the FIFO exceeds the

threshold. Handshaking exists between the GLIU master

and the Output Control/Address Generation blocks so that

address and data is supplied at the correct cycles.

As a slave, the VIP stores register data from the GLIU and

returns register data being read by the GLIU. Bursts are

not supported by the slave interface. Both MSRs and mem-

ory mapped registers are accessible through the slave

interface. The front end control generates the per-byte

write enables to all registers except the base registers.

VIP Register Block

GLIU Interface

33234C

461

ALXD800EEXJ2VD AMD (ADVANCED MICRO DEVICES), ALXD800EEXJ2VD Datasheet - Page 461

ALXD800EEXJ2VD

Specifications of ALXD800EEXJ2VD

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