Table of Contents
Advertisement
X-Ref Target - Figure 3-4
R3 /
B3 /
RGB / YUV444
V3
U3
8-bits
8-bits
8-bits
RGB / YUV444
R3 / V3
B3 / U3
10-bits
10-bits
10-bits
RGB / YUV444
R3 / V3
B3 / U3
12-bits
12-bits
12-bits
YUV422
12-bits
144
132
Figure 3‐4: Quad Pixels Data Format (Max Bits Per Component = 12)
X-Ref Target - Figure 3-5
RGB / YUV444
8-bits
RGB / YUV444
10-bits
RGB / YUV444
12-bits
YUV422
12-bits
72
Figure 3‐5: Dual Pixels Data Format (Max Bits Per Component = 12)
The video interface can also transport quad and dual pixels in the YUV420 color space.
However the current data format is not complaint with the AXI4-Stream video protocol.
Figure 3-6
and
X-Ref Target - Figure 3-6
Figure 3‐6: YUV420 Color Space Quad Pixels Data Format
HDMI 1.4/2.0 TX Subsystem
PG235 October 4, 2017
G3 /
R2 /
B2 /
Y3
V2
U2
8-bits
8-bits
8-bits
G3 / Y3
R2 / V2
B2 / U2
10-bits
10-bits
10-bits
G3 / Y3
R2 / V2
B2 / U2
12-bits
12-bits
12-bits
V2
12-bits
120
108
96
R1 / V1
B1 / U1
8-bits
8-bits
R1 / V1
B1 / U1
10-bits
10-bits
R1 / V1
B1 / U1
12-bits
12-bits
60
Figure 3-7
show the data format for quad and dual pixels formats.
www.xilinx.com
Chapter 3:
G2 /
R1 /
B1 /
Y2
V1
U1
8-bits
8-bits
8-bits
G2 / Y2
R1 / V1
B1 / U1
10-bits
10-bits
10-bits
G2 / Y2
R1 / V1
B1 / U1
12-bits
12-bits
12-bits
Y3
U2
Y2
12-bits
12-bits
12-bits
84
72
60
48
G1 / Y1
R0 / V0
8-bits
8-bits
G1 / Y1
R0 / V0
10-bits
10-bits
G1 / Y1
R0 / V0
12-bits
12-bits
V0
Y1
12-bits
12-bits
48
36
Designing with the Subsystem
G1 /
R0 /
B0 /
G0 /
Y1
V0
U0
Y0
8-bits
8-bits
8-bits
8-bits
G1 / Y1
R0 / V0
B0 / U0
G0 / Y0
10-bits
10-bits
10-bits
10-bits
G1 / Y1
R0 / V0
B0 / U0
G0 / Y0
12-bits
12-bits
12-bits
12-bits
V0
Y1
U0
12-bits
12-bits
12-bits
12-bits
36
24
12
B0 / U0
G0 / Y0
8-bits
8-bits
B0 / U0
G0 / Y0
10-bits
10-bits
B0 / U0
G0 / Y0
12-bits
12-bits
U0
Y0
12-bits
12-bits
24
12
Send Feedback
Y0
0
0
40
Advertisement
Table of Contents
Need help?
Do you have a question about the HDMI 1.4 and is the answer not in the manual?