Pixel Mapping on Native Video Interface - 3.1 English

DisplayPort 1.4 RX Subsystem Product Guide (PG300)

Document ID
PG300
Release Date
2024-05-30
Version
3.1 English

The primary interface for user image data has been modeled on the industry standard for display timing controller signals. The port list consists of video timing information encoded in a vertical and horizontal sync pulse and data valid indicator. These single-bit control lines frame the active data and provide flow control for the AXI4-Stream video.

Vertical timing is framed using the vertical sync pulse that indicates the end of frame N - 1 and the beginning of frame N. The vertical back porch is defined as the number of horizontal sync pulses between the end of the vertical sync pulse and the first line containing active pixel data. The vertical front porch is defined as the number of horizontal sync pulses between the last line of active pixel data and the start of the vertical sync pulse. When combined with the vertical back porch and the vertical sync pulse width, these parameters form what is commonly known as the 'vertical blanking interval.'

At the trailing edge of each vertical sync pulse, the user data interface resets key elements of the image datapath. This provides for a robust user interface that recovers from any kind of interface error in one vertical interval or less.

You have the option to use the resolved M and N values from the stream to generate a clock or to use a sufficiently-fast clock and pipe the data into a line buffer.

The following figure shows the typical signaling of a full frame of data.

Figure 1. User Interface Vertical Timing

Similarly, the horizontal timing information is defined by a front porch, back porch, and pulse width. The porch values are defined as the number of clocks between the horizontal sync pulse and the start or end of active data. Pixel data is only accepted into the image data interface when the data valid flag is active-High. The following figure is an enlarged version of the previous figure, giving more details on a single scan line. Use the horizontal sync pulse as a line advance signal and the rising edge of this signal to increment the line count.

Note: Data Valid might toggle on using a fast clock. Also, Data Valid signal might remain asserted for the duration of a scan line. Dropping the valid signal might result in improper operation.
Figure 2. User Interface Horizontal Timing

In the two-dimensional image plane, these control signals frame a rectangular region of active pixel data within the total frame size. This relationship of the total frame size to the active frame size is shown in the following figure.

Figure 3. Active Image Data

The User Data interface can have one, two, or four pixels per clock cycle.