We've just updated MediaWiki and its underlying software. If anything doesn't look or work quite right, please mention it to us. --RanAS
S-DSP/Sample Generation Loop: Difference between revisions
From SnesLab
(added voice 2) |
(added voice 3) |
||
Line 6: | Line 6: | ||
|+ Sample Generation Loop | |+ Sample Generation Loop | ||
|- | |- | ||
! Cycle Number !! Action !! Voice 0 !! Voice 1 !! Voice 2 | ! Cycle Number !! Action !! Voice 0 !! Voice 1 !! Voice 2 !! Voice 3 | ||
|- | |- | ||
| 0 || Tick the SPC700 Stage 1 timers, always for T2 and every 4 samples for T0 and T1. || V0:S5 || V1:S2 || | | 0 || Tick the SPC700 Stage 1 timers, always for T2 and every 4 samples for T0 and T1. || V0:S5 || V1:S2 || || | ||
|- | |- | ||
| 1 || || V0:S6 || V1:S3 || | | 1 || || V0:S6 || V1:S3 || || | ||
|- | |- | ||
| 2 || || V0:S7 || V1:S4 || | | 2 || || V0:S7 || V1:S4 || || V3:S1 | ||
|- | |- | ||
| 3 || || V0:S8 || V1:S5 || V2:S2 | | 3 || || V0:S8 || V1:S5 || V2:S2 || | ||
|- | |- | ||
| 4 || || V0:S9 || V1:S6 || V2:S3 | | 4 || || V0:S9 || V1:S6 || V2:S3 || | ||
|- | |- | ||
| 5 || || || V1:S7 || V2:S4 | | 5 || || || V1:S7 || V2:S4 || | ||
|- | |- | ||
| 6 || || || V1:S8 || V2:S5 | | 6 || || || V1:S8 || V2:S5 || V3:S2 | ||
|- | |- | ||
| 7 || || || V1:S9 || V2:S6 | | 7 || || || V1:S9 || V2:S6 || V3:S3 | ||
|- | |- | ||
| 8 || || || || V2:S7 | | 8 || || || || V2:S7 || V3:S4 | ||
|- | |- | ||
| 9 || || || || V2:S8 | | 9 || || || || V2:S8 || V3:S5 | ||
|- | |- | ||
| 10 || || || || V2:S9 | | 10 || || || || V2:S9 || V3:S6 | ||
|- | |- | ||
| 11 || || || || | | 11 || || || || || V3:S7 | ||
|- | |- | ||
| 12 || || || || | | 12 || || || || || V3:S8 | ||
|- | |- | ||
| 13 || || || || | | 13 || || || || || V3:S9 | ||
|- | |- | ||
| 14 || || || || | | 14 || || || || || | ||
|- | |- | ||
| 15 || || || || | | 15 || || || || || | ||
|- | |- | ||
| 16 || Tick the SPC700 Stage 1 timer for T2. || || || | | 16 || Tick the SPC700 Stage 1 timer for T2. || || || || | ||
|- | |- | ||
| 17 || || V0:S1 || || | | 17 || || V0:S1 || || || | ||
|- | |- | ||
| 18 || || || || | | 18 || || || || || | ||
|- | |- | ||
| 19 || || || || | | 19 || || || || || | ||
|- | |- | ||
| 20 || || || V1:S1 || | | 20 || || || V1:S1 || || | ||
|- | |- | ||
| 21 || || V0:S2 || || | | 21 || || V0:S2 || || || | ||
|- | |- | ||
| 22 || Apply ESA using the previously loaded value along with the previously calculated echo offset to calculate new echo pointer. Load left channel sample from the echo buffer. Load FFC0. || V0:S3a || || | | 22 || Apply ESA using the previously loaded value along with the previously calculated echo offset to calculate new echo pointer. Load left channel sample from the echo buffer. Load FFC0. || V0:S3a || || || | ||
|- | |- | ||
| 23 || Load right channel sample from the echo buffer. Load FFC1 and FFC2. || || || | | 23 || Load right channel sample from the echo buffer. Load FFC1 and FFC2. || || || || | ||
|- | |- | ||
| 24 || Load FFC3, FFC4, and FFC5. || || || | | 24 || Load FFC3, FFC4, and FFC5. || || || || | ||
|- | |- | ||
| 25 || Load FFC6 and FFC7. || V0:S3b || || | | 25 || Load FFC6 and FFC7. || V0:S3b || || || | ||
|- | |- | ||
| 26 || Load and apply MVOLL. Load and apply EVOLL. Output the left sample to the DAC. Load and apply EFB. || || || | | 26 || Load and apply MVOLL. Load and apply EVOLL. Output the left sample to the DAC. Load and apply EFB. || || || || | ||
|- | |- | ||
| 27 || Load and apply MVOLR. Load and apply EVOLR. Output the right sample to the DAC. Load PMON || || || | | 27 || Load and apply MVOLR. Load and apply EVOLR. Output the right sample to the DAC. Load PMON || || || || | ||
|- | |- | ||
| 28 || Load NON, EON, and DIR. Load FLG bit 5 (ECENx) for application to the left channel. || || || | | 28 || Load NON, EON, and DIR. Load FLG bit 5 (ECENx) for application to the left channel. || || || || | ||
|- | |- | ||
| 29 || Update global counter. Write left channel sample to the echo buffer, if allowed by ECENx. Load EDL - if the current echo offset is 0, apply EDL. Load ESA for future use. Load FLG bit 5 (ECENx) again for application to the right channel. Clear internal KON bits for any channels keyed on in the previous 2 samples. || || || | | 29 || Update global counter. Write left channel sample to the echo buffer, if allowed by ECENx. Load EDL - if the current echo offset is 0, apply EDL. Load ESA for future use. Load FLG bit 5 (ECENx) again for application to the right channel. Clear internal KON bits for any channels keyed on in the previous 2 samples. || || || || | ||
|- | |- | ||
| 30 || Write right channel sample to the echo buffer, if allowed by ECENx. Increment the echo offset, and set to 0 if it exceeds the buffer length. Load FLG bits 0-4 and update noise sample if necessary. Load KOFF and internal KON. || V0:S3c || || | | 30 || Write right channel sample to the echo buffer, if allowed by ECENx. Increment the echo offset, and set to 0 if it exceeds the buffer length. Load FLG bits 0-4 and update noise sample if necessary. Load KOFF and internal KON. || V0:S3c || || || | ||
|- | |- | ||
| 31 || || V0:S4 || || V2:S1 | | 31 || || V0:S4 || || V2:S1 || | ||
|} | |} | ||
Revision as of 05:18, 15 June 2023
The S-DSP's Sample Generation Loop takes 32 cycles to complete.
Note: most of this information was extracted from anomie's APU DSP doc with jwdonal.
Cycle Number | Action | Voice 0 | Voice 1 | Voice 2 | Voice 3 |
---|---|---|---|---|---|
0 | Tick the SPC700 Stage 1 timers, always for T2 and every 4 samples for T0 and T1. | V0:S5 | V1:S2 | ||
1 | V0:S6 | V1:S3 | |||
2 | V0:S7 | V1:S4 | V3:S1 | ||
3 | V0:S8 | V1:S5 | V2:S2 | ||
4 | V0:S9 | V1:S6 | V2:S3 | ||
5 | V1:S7 | V2:S4 | |||
6 | V1:S8 | V2:S5 | V3:S2 | ||
7 | V1:S9 | V2:S6 | V3:S3 | ||
8 | V2:S7 | V3:S4 | |||
9 | V2:S8 | V3:S5 | |||
10 | V2:S9 | V3:S6 | |||
11 | V3:S7 | ||||
12 | V3:S8 | ||||
13 | V3:S9 | ||||
14 | |||||
15 | |||||
16 | Tick the SPC700 Stage 1 timer for T2. | ||||
17 | V0:S1 | ||||
18 | |||||
19 | |||||
20 | V1:S1 | ||||
21 | V0:S2 | ||||
22 | Apply ESA using the previously loaded value along with the previously calculated echo offset to calculate new echo pointer. Load left channel sample from the echo buffer. Load FFC0. | V0:S3a | |||
23 | Load right channel sample from the echo buffer. Load FFC1 and FFC2. | ||||
24 | Load FFC3, FFC4, and FFC5. | ||||
25 | Load FFC6 and FFC7. | V0:S3b | |||
26 | Load and apply MVOLL. Load and apply EVOLL. Output the left sample to the DAC. Load and apply EFB. | ||||
27 | Load and apply MVOLR. Load and apply EVOLR. Output the right sample to the DAC. Load PMON | ||||
28 | Load NON, EON, and DIR. Load FLG bit 5 (ECENx) for application to the left channel. | ||||
29 | Update global counter. Write left channel sample to the echo buffer, if allowed by ECENx. Load EDL - if the current echo offset is 0, apply EDL. Load ESA for future use. Load FLG bit 5 (ECENx) again for application to the right channel. Clear internal KON bits for any channels keyed on in the previous 2 samples. | ||||
30 | Write right channel sample to the echo buffer, if allowed by ECENx. Increment the echo offset, and set to 0 if it exceeds the buffer length. Load FLG bits 0-4 and update noise sample if necessary. Load KOFF and internal KON. | V0:S3c | |||
31 | V0:S4 | V2:S1 |
References
- anomie's APU DSP doc