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Hardware Functional Specification S1D13505
Issue Date: 01/02/02 X23A-A-001-14
REG[16h] bits 7-0 Memory Address Offset Bits [10:0]
REG[17h] bits 2-0 These bits form the 11-bit address offset from the starting word of line n to the starting word of line
n+1. This value is applied to both Screen 1 and Screen 2.
Note that this value is in words.
A virtual image can be formed by setting this register to a value greater than the width of the dis-
play. The displayed image is a window into the larger virtual image.
See “Section 10 Display Configuration” for details.
This register is used to control the horizontal pixel panning of Screen 1 and Screen 2. Each screen
can be independently panned to the left by programming its respective Pixel Panning Bits to a non-
zero value. The value represents the number of pixels panned. The maximum pan value is dependent
on the display mode.
Smooth horizontal panning can be achieved by a combination of this register and the Display Start
Address registers.
See “Section 10 Display Configuration” for details.
bits 7-4 Screen 2 Pixel Panning Bits [3:0]
Pixel panning bits for screen 2.
bits 3-0 Screen 1 Pixel Panning Bits [3:0]
Pixel panning bits for screen 1.
Memory Address Offset Register 0
REG[16h] RW
Memory
Address
Offset Bit 7
Memory
Address
Offset Bit 6
Memory
Address
Offset Bit 5
Memory
Address
Offset Bit 4
Memory
Address
Offset Bit 3
Memory
Address
Offset Bit 2
Memory
Address
Offset Bit 1
Memory
Address
Offset Bit 0
Memory Address Offset Register 1
REG[17h] RW
n/a n/a n/a n/a n/a Memory
Address
Offset Bit 10
Memory
Address
Offset Bit 9
Memory
Address
Offset Bit 8
Pixel Panning Register
REG[18h] RW
Screen 2
Pixel Panning
Bit 3
Screen 2
Pixel Panning
Bit 2
Screen 2
Pixel Panning
Bit 1
Screen 2
Pixel Panning
Bit 0
Screen 1
Pixel Panning
Bit 3
Screen 1
Pixel Panning
Bit 2
Screen 1
Pixel Panning
Bit 1
Screen 1
Pixel Panning
Bit 0
Table 8-8: Pixel Panning Selection
Display Mode Maximum Pan Value Pixel Panning Bits active
1 bpp 16 Bits [3:0]
2 bpp 8 Bits [2:0]
4 bpp 4 Bits [1:0]
8 bpp 1 Bit 0
15/16 bpp 0 none