Constrained random test – Altera Video and Image Processing Suite User Manual

Stage

Description

Stage 3

• The video source BFM retrieves the data from its mailbox, recasts the data

back into a

c_av_st_video_data

video object, and begins translating it into

transactions for the Avalon-ST source BFM.

• To indicate that a video packet is being sent, there is one transaction per

pixel and an initial transaction with LSBs of 0×0 when using RGB24 data,

24-bit data buses, and parallel transmission.

Stage 4

The Avalon-ST source BFM turns each transaction into beats of data on the

Avalon-ST bus, which are received by the DUT.

Stage 5

• The DUT processes the data and presents the output data on the Avalon-ST

bus.

• The Avalon-ST Sink BFM receives these and triggers a signal_transaction_

received event for each beat.

Stage 6

• After the video sink BFM detects the

signal_transaction_received

event, the video sink BFM starts collecting transaction data from the BFM.

• When a start of packet (SOP) beat is detected, the type of the packet is

verified, and transaction data is pushed into a pixel object, which is in turn

pushed into a

video_data

object.

Stage 7

• An end of packet (EOP) is seen in the incoming transactions, the video sink

BFM casts the video data into a c_av_st_video_item object, and transfers the

data into its mailbox.

• The file writer then receives the video item.

Stage 8

The file writer recasts the video item to a video data packet, pops off the pixel,

and writes the data to the output file as binary data.

Constrained Random Test

The constrained random test is easily assembled using the class library.

UG-VIPSUITE

2015.05.04

Constrained Random Test

A-15

Avalon-ST Video Verification IP Suite

Altera Corporation

Send Feedback