Difference between revisions of "GPU/External Registers"

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These registers are used by [[GSP_Shared_Memory|GX command]] 2, 3 and 4. For cmd4, *0x1EF00C18 |= 1 is used instead of just writing value 1. The dimensions fields seem to use the same format as [[LCD]] register 0x1EF00X5C. The input framebuffer width for the main screen is normally 480.
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These registers are used by [[GSP_Shared_Memory|GX command]] 3 and 4. For cmd4, *0x1EF00C18 |= 1 is used instead of just writing value 1. The dimensions fields seem to use the same format as [[LCD]] register 0x1EF00X5C. The input framebuffer width for the main screen is normally 480.
  
 
=== 0x1EF00C10 ===
 
=== 0x1EF00C10 ===

Revision as of 23:37, 7 November 2014

This page describes the address range used to configure the basic GPU functionality. Note that 3D rendering setup is not done via MMIO but instead by loading GPU command lists by writing to 0x1EF018F0.

Map

User VA PA Length Name Comments
0x1EF00004 0x10400004 4 ?
0x1EF00010 0x10400010 16 MemoryFill1 (GX command 2)
0x1EF00020 0x10400020 16 MemoryFill2 (GX command 2)
0x1EF00030 0x10400030 4
0x1EF00400 0x10400400 0x100 Top Screen Framebuffers
0x1EF00500 0x10400500 0x100 Bottom Screen Framebuffers

MemoryFill 0x1EF00010/0x1EF00020

User VA Description
0x1EF000X0 Buffer start physaddr >> 3
0x1EF000X4 Buffer end physaddr >> 3
0x1EF000X8 Fill value
0x1EF000XC The low u16 for this register is overwritten by the GX command u16 parameter

These registers are used by GX command 2. 0x1EF00010 is used for the GX command buf0 parameters, while 0x1EF00020 is used for the GX command buf1 parameters.

Screen 0x1EF00400/0x1EF00500

Offset Length Name Comments
0x5C 4 Framebuffer width & height Lower 16 bits: width, upper 16 bits: height
0x68 4 Framebuffer A first address For top screen, this is the left eye 3D framebuffer.
0x6C 4 Framebuffer A second address For top screen, this is the left eye 3D framebuffer.
0x70 4 Framebuffer format Bit0-15: framebuffer format, bit16-31: unknown
0x78 4 Framebuffer select Bit0: which framebuffer to display, bit1-7: unknown
0x90 4 Framebuffer size Framebuffer width * pixel byte-size.
0x94 4 Framebuffer B first address For top screen, this is the right eye 3D framebuffer. Unused for bottom screen.
0x98 4 Framebuffer B second address For top screen, this is the right eye 3D framebuffer. Unused for bottom screen.

Framebuffer format

Bit Description
2-0 Color format
3 ?
4 Unused?
5 Set when the main screen 3D right framebuffer address is set.
6 1 = main screen, 0 = sub screen. However if bit5 is set, this bit is cleared.
7 ?
9-8 Value 1 = unknown: get rid of rainbow strip on top of screen, 3 = unknown: black screen.
15-10 Unused?

GSP module only allows the LCD stereoscopy to be enabled when bit5=1 and bit6=0 here. When GSP module updates this register, GSP module will automatically disable the stereoscopy if those bits are not set for enabling stereoscopy.

Framebuffer color formats

Value Description Actual color components ordering
0 GL_RGBA8_OES
1 GL_RGB8_OES BGR
2 GL_RGB565_OES RGB
3 GL_RGB5_A1_OES
4 GL_RGBA4_OES

Framebuffers

The above framebuffer registers contains the physical address for each framebuffer, normally located in FCRAM in the application's GSP heap. When other processes use GSP as well, the framebuffers for the process is stored in VRAM instead.

These LCD framebuffers normally contain the last rendered frames from the GPU. The framebuffers are drawn from left-to-right, instead of top-to-bottom.(Thus the beginning of the framebuffer is drawn starting at the left side of the screen)

Both of the 3D screen left/right framebuffers are displayed regardless of the 3D slider's state, however when the 3D slider is set to "off" the 3D effect is disabled. Normally when the 3D slider's state is set to "off" the left/right framebuffer addresses are set to the same physical address. When the 3D effect is disabled and the left/right framebuffers are set to separate addresses, the LCD seems to alternate between displaying the left/right framebuffer each frame.

0x1EF00C00

Register address Description
0x1EF00C00 Input GPU framebuffer physical address>>3
0x1EF00C04 Output LCD framebuffer physical address>>3
0x1EF00C08 Output framebuffer dimensions, used with cmd3
0x1EF00C0C Input framebuffer dimensions, used with cmd3
0x1EF00C10 Flags, used with cmd3 and cmd4.
0x1EF00C14 GSP module writes value 0 here prior to writing to 0x1EF00C18, for cmd3.
0x1EF00C18 Writing value 1 here triggers GPU processing for the specified buffers.
0x1EF00C20 Unknown, used with cmd4
0x1EF00C24 Unknown, used with cmd4
0x1EF00C28 Unknown, used with cmd4

These registers are used by GX command 3 and 4. For cmd4, *0x1EF00C18 |= 1 is used instead of just writing value 1. The dimensions fields seem to use the same format as LCD register 0x1EF00X5C. The input framebuffer width for the main screen is normally 480.

0x1EF00C10

Bit Description
0 When set, the framebuffer data is flipped vertically.(Normally zero)
1 When set, the framebuffer data is converted to tiles. (Normally zero)
2 This bit is set when the out-framebuf width/height is less than the input framebuf width/height, clear otherwise. Bit24 is normally clear when this bit is set.
3 When set, the framebuffer data is copied linearly, without doing any conversion (by default it is converted from tiles to linear). This has priority over bit1.
4 Unused
5 Unknown, normally zero.
7-6 Unused
10-8 Input framebuffer color format, value0 and value1 are the same as the LCD framebuffer formats.(Usually zero)
11 Unused
14-12 Output framebuffer color format
15 Unused
16 When this is set, the framebuffer data is converted to tiles.(Normally zero)
19-17 Unused
21-20 Unknown, output framebuffer data doesn't seem to change when this value is changed.(Normally zero)
23-22 Unused
24 This is set when the input_framebufwidth = output_framebufwidth<<1.
31-25 Unused

0x1EF018E0

Register address Description
0x1EF018E0 Buffer Size>>3
0x1EF018E8 Buffer physical address>>3
0x1EF018F0 Writing value 1 here triggers GPU processing for the specified buffer

These 3 registers are used by GX command 1. This is used for GPU commands.

Init Values from nngxInitialize for Top Screen

  • 0x1EF00400 = 0x1C2
  • 0x1EF00404 = 0xD1
  • 0x1EF00408 = 0x1C1
  • 0x1EF0040C = 0x1C1
  • 0x1EF00410 = 0
  • 0x1EF00414 = 0xCF
  • 0x1EF00418 = 0xD1
  • 0x1EF0041C = 0x1C501C1
  • 0x1EF00420 = 0x10000
  • 0x1EF00424 = 0x19D
  • 0x1EF00428 = 2
  • 0x1EF0042C = 0x1C2
  • 0x1EF00430 = 0x1C2
  • 0x1EF00434 = 0x1C2
  • 0x1EF00438 = 1
  • 0x1EF0043C = 2
  • 0x1EF00440 = 0x1960192
  • 0x1EF00444 = 0
  • 0x1EF00448 = 0
  • 0x1EF0045C = 0x19000F0
  • 0x1EF00460 = 0x1c100d1
  • 0x1EF00464 = 0x1920002
  • 0x1EF00470 = 0x80340
  • 0x1EF0049C = 0

More Init Values from nngxInitialize for Top Screen

  • 0x1EF00468 = 0x18300000, later changed by GSP module when updating state, framebuffer
  • 0x1EF0046C = 0x18300000, later changed by GSP module when updating state, framebuffer
  • 0x1EF00494 = 0x18300000
  • 0x1EF00498 = 0x18300000
  • 0x1EF00478 = 1, doesn't stay 1, read as 0
  • 0x1EF00474 = 0x10501