Ports of some of Mutable Instruments (tm) oscillators to the Korg "logue" multi-engine.
Based on the original work by Peter Allwin at GitHub.
See releases for latest binaries.
Name | Oscillator | Shape operation |
Shift-shape operation |
---|---|---|---|
mo2_va |
Pair of classic waveforms | Shape | Pulse width |
mo2_wsh |
Waveshaping oscillator | Amount | Waveform |
mo2_fm |
Two operator FM | Modulation index | Frequency ratio |
mo2_grn |
Granular formant oscillator | Frequency ratio | Formant frequency |
mo2_add |
Harmonic oscillator | Index of prominent harmonic | Bump shape |
mo2_wta * |
Wavetable: Additive (2x sine, quadratic, comb) | Row index | Column index |
mo2_wtb * |
Wavetable: Additive (pair, triangle stack, 2x drawbar) | Row index | Column index |
mo2_wtc * |
Wavetable: Formantish (trisaw, sawtri, burst, bandpass formant) | Row index | Column index |
mo2_wtd * |
Wavetable: Formantish (formant, digi_formant, pulse, sine power) | Row index | Column index |
mo2_wte * |
Wavetable: Braids (male, choir, digi, drone) | Row index | Column index |
mo2_wtf * |
Wavetable: Braids (metal, fant, 2x unknown) | Row index | Column index |
mo2_string |
Inharmonic string model | Decay | Brightness |
mo2_nse |
Filtered noise | Filter type | Clock Frequency |
mo2_cld |
Granular cloud | Duration | Density |
mo2_dst |
Particle noise | Filter type | Density |
* Due to the 32k size constraint in the multi-engine the Wavetable oscillator is split into 6 oscillators of 8 rows (scannable by Shape) by 4 columns (scannable by Shift-shape)
In the Multi-engine menu you can find additional parameters for the oscillators.
Parameter 1
is oscillator specific and controls whichever parameter is not mapped to Shape
or Shift-shape
.
Parameter 2
sets the mix between the oscillator out
and aux
.
LFO Target
sets the Shape LFO target, see list below.
LFO2 Rate
is rate of LFO2.
LFO2 Int
is intensity (depth) of LFO2.
LFO2 Target
sets the target for LFO2 according to the list below.
The oscillator has a built-in additional cosine key-synced LFO which can module an internal parameter (set with the LFO2 Target
parameter in the oscillator menu):
LFO Target | Parameter | Notes |
---|---|---|
0 | Shape |
|
1 | Shift-shape |
|
2 | Parameter 1 |
Not implemented for Wavetable oscillator |
3 | Parameter 2 |
|
4 | Pitch |
|
5 | reserved (Amplitude?) | |
6 | LFO2 Rate |
|
7 | LFO2 Int |
For more information please read the excellent Mutable Instruments Plaits documentation.
Many parameters 'neutral' settings are in center position, such as va
Detune or fm
Feedback, however the prologue defaults all parameters to the lowest value, hence get used to going into the menus and set the first parameter to 50% when instantiating the oscillator.
Vowel and speech synthesis
Name | Oscillator |
---|---|
speech |
Phoneme (naive) and vowel (SAM) synthesis |
Parameter | Parameter | LFO Target | Notes |
---|---|---|---|
Shape knob |
Phoneme | 0 | Phoneme selection for naive synthesis. |
Shift + Shape knob |
Vowel | 1 | Vowel selection for SAM synthesis. |
Register menu |
Vocal register | 2 | Vocal register for naive synthesis. |
Formant menu |
Formant shift | 3 | Formant shift for SAM synthesis. |
Mix menu |
Output mix | 4 | Mix between naive and SAM synthesis output. |
For more information please read the excellent Mutable Instruments Plaits documentation.
Due to compute and memory (32K!) limitations in the prologue multi-engine quite a few short-cuts had to be taken:
- The LPC speech synthesis module is not available.
*...
Waveform generator
Name | Oscillator |
---|---|
tidal |
Looping waveform generator |
Parameter | Parameter | LFO Target | Notes |
---|---|---|---|
Shape knob |
Shape | 0 | Waveform shape. |
Shift + Shape knob |
Slope | 1 | Waveform slope. |
Smoothness menu |
Smoothness | 2 | Waveform smoothness. |
unused | 3 | ||
Pitch | 4 |
For more information please read the excellent Mutable Instruments Tides documentation.
Due to compute and memory (32K!) limitations in the prologue multi-engine quite a few short-cuts had to be taken:
- The waveforms are stored with reduced resolution (see
tides_data
directory)
*...
Physical modeling synthesis
Name | Oscillator |
---|---|
mod s |
Strike exciter with modal resonator |
Parameter | Parameter | LFO Target | Notes |
---|---|---|---|
Shape knob |
Resonator position | 1 | Position where the mallet strikes, has a comb-filtering effect. |
Shift + Shape knob |
Resonator geometry | 2 | Geometry and stiffness of resonator. Set to 25-30% for a nice tuned sound. |
Strength menu |
Strike strength | 3 | Mallet strength, high values causes the strike to bleed into the resonator output. |
Mallet menu |
Strike mallet | 4 | Type of mallet, over 70% is bouncing particles. |
Timbre menu |
Strike timbre | 5 | Brightness/speed of the excitation. |
Damping menu |
Resonator damping | 6 | The rate of energy dissipation in the resonator. High values cause long release effect. |
Brightness menu |
Resonator brightness | 7 | Muting of high frequencies |
LFO Target menu |
multi-engine Shape LFO target |
Sets which parameter is modulated by the Shape LFO (see LFO Target column) |
For more information please read the excellent Mutable Instruments Elements documentation.
Due to compute and memory (32K!) limitations in the prologue multi-engine quite a few short-cuts had to be taken:
- Only the Strike exciter is used
- Sample-player and Granular sample-player mallet-modes did not fit in memory
- Resonator filter bank is reduced to 24+2 filters from 52+8
- Resonator filters are recomputed one per block instead all-ish every block
- Samplerate is 24KHz vs 32KHz in Elements
Sounds pretty great IMO but go buy Elements for the real experience!
When you first select the oscillator it will make no sound, all parameters are at 0%! Increase the Strength
and Damping
parameters until you start hearing something.
Try a nice pluck:
Parameter | Value |
---|---|
Shape |
50% |
Shift + Shape |
30% |
Strength |
90% |
Mallet |
45% |
Timbre |
45% |
Damping |
70% |
Brightness |
45% |
-
The prologue Sound Librarian tends to timeout when transferring the user oscillator, however the transfer is still complete. Try adding the user oscillator one at a time and Send All / Receive All for each oscillator.
-
There's been many reports that the Modal Resonator oscillator doesn't produce any sound. I've included a few versions which lower CPU usage which may yield better results. On my prologue there's been cases where I've had issues after a factory-reset where the oscillator wouldn't produce sound. Installing sequentially in the same oscillator slot the lightest CPU version
osc_modal_strike_16_nolimit
(16 filters and removed limiter), followed byosc_modal_strike_24_nolimit
followed byosc_modal_strike
resolved the issue for me. Your milage may vary. -
When first selecting the oscillator in the multi-engine, all values default to their minimum values, however the display seems to default to 0. For bipolar values it means the display might still show 0% while internally in the oscillator the value is -100%.
For Linux-specific instructions, see (README_linux.md)[README_linux.md]
- Checkout the repo (including subrepos)
- Follow the toolchain installation instructions in the
logue-sdk
- Make sure you have the
jq
tool installed (brew install jq
) - Build with
make
(tested on MacOSX and Linux)
All credit to Emilie Gillet for her amazing modules!