Some of this is known to be incorrect. I'll correct this in a few months after a bit more RE work. Merry (talk) 21:10, 28 January 2016 (CET)


  • Note that everything below will vary depending on the exact DSP firmware used and different variants have slightly different behaviours.*

The DSP communicates with the application through two shared memory areas 0x8000 bytes long each (at 0x1FF50000 and 0x1FF70000 respectively). The DSP alternates between the use of these two areas (much like a double-buffer). Each area has 15 structures within it. The location of these structures can be obtained by reading channel 2 of the DSP pipe. A list of structures in the order the DSP addresses are read from the pipe follows:

1. Frame count

2. Input configurations

3. Input status

4. Input ADPCM coefficients

5. DSP configuration

6. DSP status

7. Output samples

8. Intermediate mix samples

9. Compressor table

10. DSP debug statistics

11. Unknown Coefficients

12. Unknown Coefficients

13. Unknown Coefficients

14. Surround sound biquad filter 1

15. Surround sound biquad filter 2

The DSP has 24 inputs, each of which are individually configurable. These 24 inputs each produce three sets of 4 audio channels (two left, two right).

These four audio channels feed into three intermediate mixers. Two of these intermediate mixers are used for effects and aux.

Frame Count

Input Config

A 192 byte long structure. There are 24 of them.

Offset Type Description
0 u32 Dirty flags
4 f32[3][2][2] Input Gain (Each input has 12 channels)
52 f32 Rate multiplier (1.0x == native DSP rate)
56 u8 Interpolation mode
57 u8 Polyphase filter select
58 u16 bit[0]: Simple Filter enabled, bit[1]: Biquadratic Filter enabled
60 SimpleFilter Simple Filter (One pole normalized recursive linear filter)
64 BiquadFilter Biquadratic Filter (Two poles two zeros normalized recursive linear filter)
74 u16 Bitmap of which buffers in queue are dirty
76 Buffer[4] Buffer queue
156 u32 -
160 u16 Is Active
162 u16 Sync Count
164 u32 Play position
168 4 ?
172 u32 Physical address of embedded buffer
176 u32 Number of samples in embedded buffer
180 u16 bits[0:1]: 1 = mono, 2 = stereo; bits[2:3]: buffer format, bits[5]: fade in
182 AdpcmData ADPCM data associated with embedded buffer
188 u16 bit[0]: ADPCM updated?; bit[1]: Is looping?r
190 u16 Buffer Id of embedded buffer

Buffer

Offset Type Description
0 u32 Physical Address
4 u32 Sample Count
8 AdpcmData ADPCM data
14 u8 ADPCM data dirty?
15 u8 Looping?
16 u16 Buffer Id
18 u16 -

Adpcm Data

0 u8 ADPCM predictor/scale
1 u8 -
2 s16 ADPCM y[n-1]
4 s16 ADPCM y[n-2]


Simple Filter

This is a standard single-pole filter. The fall-off is 6dB per octave as you would expect.

Offset Type Description
0 s1.15 b0
2 s1.15 a1

Input status

Read only. This structure is set by the DSP. This structure is 12 bytes long and there are 24 of them.

Offset Type Description
0 u8 Input Enabled?
1 u8 Dirty flag for previous buffer id.
2 u16 Sync count
4 u32 Position (number of samples) into current buffer playback
8 u16 Buffer id of last buffer that was played
10 u16 -

Input ADPCM coefficients

This is a 32 byte long structure. There are 24 of them.

Offset Type Description
0 s5.11[16] ADPCM coefficents

DSP configuration

Delay Effect

Delay with feedback.

Length of delay is expressed in terms of number of audio frames (there are 160 samples per audio frame).

Feedback arm only has a gain on it. Under the feedback arm is a single-pole filter with the delay.

Reverb Effect

Reverb consists of two comb filters and one all-pass filter in standard configuration.

DSP status

Read only.

Output samples

Read only. This structure is 320 bytes long.

Offset Type Description
0 s16[160] Samples

Intermediate mix samples

Read/Write.

PCM32. Also serves an aux function, allowing the ARM11 to apply custom effects to audio.

This structure is 5120 bytes long.

Offset Type Description
0 s32[2][4][160] Samples

Compressor table

A precomputed response curve lookup table for the compressor.