Synthesis

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Revision as of 20:06, 11 March 2020 by Milk (talk | contribs) (→‎Elements)
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General

See also Sampling, Audio#Synthesis (for speech synthesis), Audio (in general), Groovebox, etc.

todo; touch-ups, more links, more text

  • https://en.wikipedia.org/wiki/Synthesizer - often abbreviated as synth, is an electronic musical instrument that generates audio signals that may be converted to sound. Synthesizers may imitate traditional musical instruments such as piano, flute, vocals, or natural sounds such as ocean waves; or generate novel electronic timbres. They are often played with a musical keyboard, but they can be controlled via a variety of other devices, including music sequencers, instrument controllers, fingerboards, guitar synthesizers, wind controllers, and electronic drums. Synthesizers without built-in controllers are often called sound modules, and are controlled via USB, MIDI or CV/gate using a controller device, often a MIDI keyboard or other controller.

Synthesizers use various methods to generate electronic signals (sounds). Among the most popular waveform synthesis techniques are subtractive synthesis, additive synthesis, wavetable synthesis, frequency modulation synthesis, phase distortion synthesis, physical modeling synthesis and sample-based synthesis.


  • https://en.wikipedia.org/wiki/Analog_synthesizer - a synthesizer that uses analog circuits and analog signals to generate sound electronically. The earliest analog synthesizers in the 1920s and 1930s, such as the Trautonium, were built with a variety of vacuum-tube (thermionic valve) and electro-mechanical technologies. After the 1960s, analog synthesizers were built using operational amplifier (op-amp) integrated circuits, and used potentiometers (pots, or variable resistors) to adjust the sound parameters. Analog synthesizers also use low-pass filters and high-pass filters to modify the sound. While 1960s-era analog synthesizers such as the Moog used a number of independent electronic modules connected by patch cables, later analog synthesizers such as the Minimoog integrated them into single units, eliminating patch cords in favour of integrated signal routing systems.


  • https://en.wikipedia.org/wiki/Digital_synthesizer - a synthesizer that uses digital signal processing (DSP) techniques to make musical sounds. This in contrast to older analog synthesizers, which produce music using analog electronics, and samplers, which play back digital recordings of acoustic, electric, or electronic instruments. Some digital synthesizers emulate analog synthesizers others include sampling capability in addition to digital synthesis.




  • Synthtopia - a portal devoted to electronic music.



Elements



  • https://en.wikipedia.org/wiki/Low-frequency_oscillation - LFO - The primary oscillator circuits of a synthesizer are used to create the audio signals. A LFO is a secondary oscillator that operates at a significantly lower frequency (hence its name), typically below 20 Hz. This lower frequency or control signal is used to modulate another component's value, changing the sound without introducing another source.








Learning


  • Synth.tk - Sound Synthesis Education. Various article and video series. [1]
  • Advanced Programming Techniques for Modular Synthesizers - intended to provide the advanced user of the Clavia Nord Modular synthesizer with a toolbox of techniques for creating complex and interesting patches. Although the emphasis is on the Nord Modular, the techniques described in this document can be applied to any modular synthesizer, from a modular Moog to the Native Instruments Reaktor softsynth.
  • The Synthesizer Academy - a site dedicated to help you learn about synthesis and the creation of electronic music. If you’re looking for a synthesizer tutorial, this is the site for you! You can either start at the very beginning and work your way through each lesson one-by-one, or use the red bar at the top to jump in wherever you want. We’ll also be adding links to various synth resources to help you learn more and get your hands on some gear to play with. New lessons will be added frequently, so check back often.






  • Synth Zone - an attempt to ease the search for synth resources on the Internet . If you can't find links to the information or resources here then please check out the full list of synth sites on Synth Zone's Synth Sites Links & Resources page.






  • ModularGrid - a database for modular synthesizers with an integrated planner where people gather information and sketch out their modulars.


  • Synthesizers.com - Fine modular analog synthesizers featuring classic styling and world-class customer service







Control voltage / gate & trigger


  • S-trigger | Electronic Music Wiki | Fandom - type of gate circuit used by many vintage Moog synths. Instead of providing a high and low voltage output to indicate the pressing and releasing of keys, it uses what is known as an "open collector" output, which basically opens and closes a switch. It requires that the entity that is receiving the signal apply a voltage to the cable, in order to detect the switch opening and closing at the sender's end. Most Moog models that use the S-trigger circuit indicate its presence through the use of an unusual connector known as a Cinch-Jones connector, which resembles a smaller version of a U.S. two-prong power plug.S-trigger is not compatible with conventional gate circuits. Trying to send a conventional gate signal to a synth that is expecting an S-trigger may cause circuit damage; however, a simple adapter circuit can be purchased or constructed. S-trigger should not be confused with the inverted gate signals used by some Korg and Yamaha synths.






  • GZD - attempts to find the frequency with the biggest magnitude in an audio-signal. This frequency is then transformed into a control voltage.




DIY





to sort

  • Synthesizer Manuals Collection - Collecting several hundred manuals in one location, this collection of information about Music Synthesizers spans over 40 years of technology and products. Most consist of information about programming, usage and operation of synthesizers, as well as software products that emulate synthesizers. Additional scans are always welcome.




  • Open Theremin V3 - an open source hardware and software project with a great community of musicians and people interested in the world of electronic music instruments . The aim is to build a next generation, digital version of the legendary music instrument. With more than 1000 Open.Theremins in the world the new version 3 was built based on many community ideas and inputs.





  • https://github.com/MrBlueXav/Dekrispator - Experimental Music synthesizer based on an STM32F4 Discovery board (ARM Cortex M4F from STM32 series) with USB MIDI Host function for interaction and automatic mode.
  • https://github.com/MrBlueXav/Dekrispator_v2 - New Experimental Music synthesizer based on an STM32F4 Discovery board (ARM Cortex M4F from STM32 series) with USB MIDI Host function for interaction and automatic mode. Updated with Cube/HAL.



  • https://code.google.com/archive/p/forbinlfo - a project to build a Low Frequency Oscillator module for an Analog Synthesizer using a simple cheap Digital Signal Processor (DSP). The advantages that this gives you are many fold in that it will allow certain operations that are extremely difficult and expensive in the pure Analog domain such as phase differences that are continuously variable and completely arbiatary.


  • Mozzi - sound synthesis library for Arduino. Mozzi brings your Arduino to life by allowing it to produce much more complex and interesting growls, sweeps and chorusing atmospherics. These sounds can be quickly and easily constructed from familiar synthesis units like oscillators, delays, filters and envelopes. You can use Mozzi to generate algorithmic music for an installation or performance, or make interactive sonifications of sensors, on a small, modular and super cheap Arduino, without the need for additional shields, message passing or external synths.


  • x0x Clones - website for learning about vintage Roland machines as well as their hardware clones and software emulations, old and new, including Roland SH-101, TB-303, TR-808 and TR-909 Clones & XOX Emulations. dead.


  • x0xb0x - not just another MIDI-controlled TB-303 clone. x0xb0x is a full reproduction of the original Roland synthesizer, with fully functional sequencer. The sequencer can be programmed just like the original 303 (ok its actually a little easier, we think) and can be used to control other synthesizers via any of its various output formats. 128 banks of track memory and 64 banks of pattern memory are stored in onboard EEPROM, no battery-backup is needed!





  • JDXi Manager - an easy-to-use, intuitive, modern looking software patch editor for the Roland JD-Xi synthesizer. Currently editing of the Analog Synth part, the two Digital Synth parts, the Drums part and the Effects of the JD-Xi is supported. It is designed to run on Microsoft Windows and on Linux. The JDXi Manager is still work in progress and more features and functionality are being added with every new release.


  • Prynth - Our goal is to explore models for self-contained programmable synthesizers, gathering attributes from both hardware synths and computer-based systems.


  • https://github.com/eclab/edisyn - a synthesizer patch editor library written in pure Java. It runs on OS X, Linux, and Windows.Edisyn is particularly good at exploring the space of patches. It has to my knowledge the most sophisticated set of general-purpose patch-exploration tools of any patch editor available.


  • https://github.com/flok99/UTWIN6001 - software for the UTWIN6001 hardware. The UTWIN6001 is a "hat" for the raspberry pi allowing you to interface to a Doepfer A100 compatible system (eurorack modular synthesizer). This software allows you to do all kinds of "conversions": midi to control voltage AND control voltage to midi, audio-frequency to control voltage, and so on!



Subtractive synthesis

  • https://en.wikipedia.org/wiki/Subtractive_synthesis - a method of sound synthesis in which partials of an audio signal (often one rich in harmonics) are attenuated by a filter to alter the timbre of the sound. While subtractive synthesis can be applied to any source audio signal, the sound most commonly associated with the technique is that of analog synthesizers of the 1960s and 1970s, in which the harmonics of simple waveforms such as sawtooth, pulse or square waves are attenuated with a voltage-controlled resonant low-pass filter. Many digital, virtual analog and software synthesizers use subtractive synthesis, sometimes in conjunction with other methods of sound synthesis.


Additive synthesis

  • https://en.wikipedia.org/wiki/Additive_synthesis - a sound synthesis technique that creates timbre by adding sine waves together. The timbre of musical instruments can be considered in the light of Fourier theory to consist of multiple harmonic or inharmonic partials or overtones. Each partial is a sine wave of different frequency and amplitude that swells and decays over time. Additive synthesis most directly generates sound by adding the output of multiple sine wave generators. Alternative implementations may use pre-computed wavetables or the inverse Fast Fourier transform.

It’s difficult to go very far with additive synthesis using analog hardware. Each wave needs its own oscillator, and to get sounds that are very complex, it requires quite a few of them. This can get very bulky and expensive rather quickly. Most sounds found in nature would require hundreds or even thousands of sine waves to accurately reproduce them. Digital synthesizers make it easier to do additive synthesis. All the waves are just numbers in a computer, so you can add as many as you want if you have enough processing power.

Despite this potential complexity, simple additive synthesis is possible on quite modest analogue synths. So is 'sinusoids plus noise' synthesis. Indeed, I guarantee that anybody playing an instrument with two or more independently tuneable oscillators (and, maybe, a noise source) has created sounds employing tuned fifths, octaves, or whatever. As soon as you have done this, you've entering the weird and wonderful world of additive synthesis. So go and find a handful of extra oscillators, and get serious. Additives can be good for you, and it's great fun, I promise.

FM/PM synthesis

  • https://en.wikipedia.org/wiki/Frequency_modulation_synthesis - a form of sound synthesis whereby the frequency of a waveform is changed by modulating its frequency with a modulator. The frequency of an oscillator is altered "in accordance with the amplitude of a modulating signal". (Dodge & Jerse 1997, p. 115)

FM synthesis can create both harmonic and inharmonic sounds. To synthesize harmonic sounds, the modulating signal must have a harmonic relationship to the original carrier signal. As the amount of frequency modulation increases, the sound grows progressively complex. Through the use of modulators with frequencies that are non-integer multiples of the carrier signal (i.e. inharmonic), inharmonic bell-like and percussive spectra can be created.

FM synthesis using analog oscillators may result in pitch instability. However, FM synthesis can also be implemented digitally, which is more stable and became standard practice. Digital FM synthesis (implemented as phase modulation) was the basis of several musical instruments beginning as early as 1974. Yamaha built the first prototype digital synthesizer in 1974, based on FM synthesis, before commercially releasing the Yamaha GS-1 in 1980. The Synclavier I, manufactured by New England Digital Corporation beginning in 1978, included a digital FM synthesizer, using an FM synthesis algorithm licensed from Yamaha. Yamaha's groundbreaking DX7 synthesizer, released in 1983, brought FM to the forefront of synthesis in the mid-1980s.





Wavetable / sample

See also Sampling


  • https://en.wikipedia.org/wiki/Table-lookup_synthesis or wavetable-lookup synthesis is a class of sound synthesis methods using the waveform tables by table-lookup, called "table-lookup oscillator" technique. The length of waveforms or samples may be varied by each sound synthesis method, from a single-cycle up to several minutes.




  • https://github.com/sneakernets/DMXOPL - New and improved DMX GENMIDI for Doom and sourceports, taking full advantage of the OPL3 waveforms. This takes things up a notch in terms of timbre.


Scanned synthesis

  • https://en.wikipedia.org/wiki/Scanned_synthesis - a powerful and efficient technique for animating wave tables and controlling them in real-time[citation needed]. Developed by Bill Verplank, Rob Shaw, and Max Mathews between 1998 and 1999 at Interval Research, Inc., it is based on the psychoacoustics of how we hear and appreciate timbres and on our motor control (haptic) abilities to manipulate timbres during live performance Scanned synthesis involves a slow dynamic system whose frequencies of vibration are below about 15 Hz. The ear cannot hear the low frequencies of the dynamic system. So, to make audible frequencies, the "shape" of the dynamic system, along a closed path, is scanned periodically. The "shape" is converted to a sound wave whose pitch is determined by the speed of the scanning function. Pitch control is completely separate from the dynamic system control. Thus timbre and pitch are independent. This system can be looked upon as a dynamic wave table. The model can be compared to a slowly vibrating string, or a two dimensional surface obeying the wave equation.

Direct digital synthesis

  • https://en.wikipedia.org/wiki/Direct_digital_synthesis - a method employed by frequency synthesizers used for creating arbitrary waveforms from a single, fixed-frequency reference clock. DDS is used in applications such as signal generation, local oscillators in communication systems, function generators, mixers, modulators,[1] sound synthesizers and as part of a digital phase-locked loop.

Physical modelling synthesis


  • https://en.wikipedia.org/wiki/Digital_waveguide_synthesis -the synthesis of audio using a digital waveguide. Digital waveguides are efficient computational models for physical media through which acoustic waves propagate. For this reason, digital waveguides constitute a major part of most modern physical modeling synthesizers.


  • Yamaha VL1: Virtual Acoustic Synthesizer - Is 'physical modelling' set to become the buzz-phrase of '90s synthesis? MARTIN RUSS exclusively tests out Yamaha's innovative new synth and reveals all... Published in SOS July 1994.


  • https://en.wikipedia.org/wiki/Banded_waveguide_synthesis - a physical modelling synthesis method to simulate sounds of dispersive sounding objects, or objects with strongly inharmonic resonant frequencies efficiently. It can be used to model the sound of instruments based on elastic solids such as vibraphone and marimba bars, singing bowls and bells. It can also be used for other instruments with inharmonic partials, such as membranes or plates. For example, simulations of tabla drums and cymbals have been implemented using this method. Because banded waveguides retain the dynamics of the system, complex non-linear excitations can be implemented. The method was originally invented in 1999 by Georg Essl and Perry Cook to synthesize the sound of bowed vibraphone bars (Essl Cook 1999).
  • https://en.wikipedia.org/wiki/Karplus–Strong_string_synthesis - a method of physical modelling synthesis that loops a short waveform through a filtered delay line to simulate the sound of a hammered or plucked string or some types of percussion. At first glance, this technique can be viewed as subtractive synthesis based on a feedback loop similar to that of a comb filter for z-transform analysis. However, it can also be viewed as the simplest class of wavetable-modification algorithms now known as digital waveguide synthesis, because the delay line acts to store one period of the signal.


  • https://en.wikipedia.org/wiki/Distortion_synthesis - a group of sound synthesis techniques which modify existing sounds to produce more complex sounds (or timbres), usually by using non-linear circuits or mathematics. While some synthesis methods achieve sonic complexity by using many oscillators, distortion methods create a frequency spectrum which has many more components than oscillators. Some distortion techniques are: FM synthesis, waveshaping synthesis, and discrete summation formulas.


Hybrid modular


Virtual Analogue

  • https://en.wikipedia.org/wiki/Analog_modeling_synthesizer - a synthesizer that generates the sounds of traditional analog synthesizers using DSP components and software algorithms. Analog modeling synthesizers simulate the behaviour of the original electric and electronic circuitry in order to digitally replicate their tone. This method of synthesis is also referred to as Virtual Analog or VA


Patching / programming

See also Audio#Programming

  • Patchshare - A way to share modular synth patches.



  • https://en.wikipedia.org/wiki/Vector_synthesis - provides movement in a sound by providing dynamic cross-fading between (usually) four sound sources. The four sound sources are conceptually arranged as the extreme points of X and Y axes, and typically labelled A, B, C and D. A given mix of the four sound sources can be represented by a single point in this 'vector plane'. Movement of the point provides sonic interest and is the power of this technique. Mixing is frequently done using a joystick, although the point can be controlled using envelope generators or LFOs.



  • JSynthLib - an Open Source Universal Synthesizer Patch Editor / Librarian written in the Java Language. Beside a bunch of commercial synths, it provides an editor for MIDIbox SID V1 and MIDIbox FM, which gives you access to all sound parameters and the wavetable sequencer. Since the official beta release of JSynthLib as well as the MIDI API of Java v1.5 has some flaws, I created this short guide in order to describe the required steps to setup JSynthLib for a MIDIbox properly.


Bass

"take one square wave, one pulse wave, detune slightly. run to resonant 12db lowpass filter (you want 12db because the more gentle rolloff curve is much more suited for basses). A slight bit of env mod on the filter cutoff is acceptable, but don't go crazy with it, you're not trying to make a 303 here. A really low cutoff with a relatively high resonance will give you alot of crazy harmonics spun off into neverneverland, which once you hit on a nice sweet spot with give the impression of deeper bass." [6]



Drums





Noise

Chiptune

See also Audio, Tracker


  • https://github.com/PaulSlocum/cynthcart - A synthesizer program for the Commodore 64 computer designed with live performance in mind. Includes arpeggiator, portamento, stereo SID and MIDI support, realtime filter control, many other features. The program is written in 6510 assembly language. Over 700 Cynthcart cartridges have been sold making it one of the most popular Commodore 64 homebrews.


Hardware DSP

Zynthian

  • Zynthian - a new class of machine. A kind of swiss army knife of synthesis, equipped with multiple engines, filters and effects. Completely configurable and upgradeable. An Open Platform for Sound Synthesis. Based on Raspberry Pi and Linux, its hardware specification is public and software is Open Source. It is fully hackable! DIY (Do It Yourself!). A community-focused project where you can choose between build everything from scratch or use one of the kits that we offer, adapted to the different skill levels. You can use it for live performing, studio production or as a tool for experimental sound exploration.

PreenFM2

Axoloti Patcher

hardware - $

Kyma

The first version of Kyma, which computed digital audio samples on a Macintosh 512K was written in the Smalltalk programming language in 1986 by Carla Scaletti in Champaign, Illinois. In May 1987, Scaletti had partitioned Kyma into graphics and sound generation engines and ported the sound generation code to a digital signal processor called the Platypus designed by Lippold Haken and Kurt J. Hebel of the CERL Sound Group. When the University of Illinois at Urbana-Champaign eliminated the funding for the PLATO laboratory in 1989, Scaletti and Hebel formed Symbolic Sound Corporation in order to continue developing Kyma and digital audio signal processing hardware.

Patchblocks


Teenage Engineering oplab

  • teenage engineering – oplab - the musical switchboard for all your electronic instruments. it allows you to interconnect virtually any electronic musical instruments and music software. no more hassle with one box for MIDI and another for CV or a third for USB. just connect your cables, set the appropriate scenario and experience a perfect sync.

PC Speaker

  • https://en.wikipedia.org/wiki/PC_speaker - a loudspeaker built into most IBM PC compatible computers. The first IBM Personal Computer, model 5150, employed a standard 2.25 inch magnetic driven (dynamic) speaker. More recent computers use a piezoelectric speaker instead. The speaker allows software and firmware to provide auditory feedback to a user, such as to report a hardware fault. A PC speaker generates waveforms using the programmable interval timer, an Intel 8253 or 8254 chip.


  • https://wiki.gentoo.org/wiki/PC_Speaker - more commonly referred to the speaker located on the motherboard. Nowadays this speaker is usually a simple piezoelectric speaker providing just enough speaker hardware to distinguish simple frequency and tones of beeps. Beeps usually occur on error, but can be customized as this article will document.


echo -e '\a'


beep -f 200 -f 300
  # beep at 300Hz.


  • https://github.com/przemoc/pcspk - PCSpk is a set of command line applications for playing simple sounds and melodies using the PC speaker. It is inspired by simple, but really great Johnathan Nightingale's beep.





  • What’s up with the Beep driver in Windows 7? - Earlier today, someone asked me why 64bit versions of windows don’t support the internal PC speaker beeps. The answer is somewhat complicated and ends up being an interesting intersection between a host of conflicting tensions in the PC ecosystem.


  • https://github.com/dbatbold/beep - Beep sound library and utility for alerting end of a command execution. Beep can also play MIDI or text music score. Written in Go.


Songs

Modular softsynths

See also DAW#Modular synth tracker

I use Carla. Ingen is also good.

AlsaModularSynth

  • AlsaModularSynth is a realtime modular synthesizer and effect processor. It features MIDI controlled modular software synthesis, Realtime effect processing with capture from e.g. "Line In" or "Mic In", Full control of all synthesis and effect parameters via MIDI, Integrated LADSPA Browser with search capability, JACK Support


ams-lv2

  • ams-lv2 - set of LV2 plugins is a port of the internal modules found in Alsa Modular Synth. These plugins are used to create modular synthesizers and contains: VCO, VCF, VCA, LFO, Slew Limiter, Envelop, Sample & Hold, etc.

avw.lv2

  • avw.lv2 - A port of the AMS internal modules to LV2 plugins. It provides VCOs, LFOs, Filters and other modules controlled using Voltage Controls. They are designed especially to be used with Ingen to create Modular Synths. An older version of ams.lv2.

Fomp

  • Fomp is an LV2 port of the MCP, VCO, FIL, and WAH plugins by Fons Adriaensen. There are 13 plugins in total: 1 auto-wah, 1 EQ, 3 chorus, 5 filters, and 3 oscillators.

controlfilter.lv2

BLOP

  • BLOP comprises a set of LADSPA plugins that generate bandlimited sawtooth, square, variable pulse and slope-variable triangle waves, principally for use with one of the many modular software synthesisers available. They are wavetable based, and are designed to produce output with harmonic content as high as possible over a wide pitch range.
  • Bandlimited Sawtooth Oscillator
  • Bandlimited Square Oscillator
  • Bandlimited Variable Width Pulse Oscillator
  • Bandlimited Variable Slope Triangle Oscillator
  • Random Wave Generator
  • Mono Amplifier
  • 4 Pole Low Pass Filter with Resonance
  • ADSR Envelope Generator
  • ADSR Envelope Generator with Gate and Trigger
  • DAHDSR Envelope Generator with Gate and Trigger
  • Sequencer
  • Quantiser
  • Clock Oscillator with Gate
  • Clock Pulse Oscillator with Gate
  • Frequency Modulator
  • Control to Audio Interpolator
  • Signal Tracker
  • Signal Sum
  • Signal Difference
  • Signal Product
  • Signal Ratio
  • Signal Branch
  • BLOP-LV2 - a mostly faithful port of blop-0.2.8, except plugin variants have been eliminated via the use of morphable Control/CV ports. This way, users do not have to choose from several versions of the same plugin, but the host can configure controls to be control-rate or audio-rate as appropriate. This mechanism is backwards compatible, so these ports will simply appear as normal LV2 control ports in hosts that do not support port morphing.

Omnifono

  • Omnifono is a mixture of various simple utilities in one plugin: amplifier, panner, noise generators, etc. LV2.

gAlan

  • gAlan - The Graphical Audio Language. A modular synthesiser - drum-machine - sequencer - effects-unit for Linux and Win32. Like Buzz.

Omins

  • Omins is a collection of LADSPA plugins geared at modular synthesizers. The name comes from Om, but these plugins are not Om specific in any way, and Om does not require them. However most (not all) of them are only really useful in modular systems.

SpiralSynthModular

  • SpiralSynth Modular is an object orientated music studio with an emphasis on live use. You can use it in a fairly straight forward way to make tracks with, or get very experimental. Audio or control data can be freely passed between the plugins. Data can also be fed back on itself for chaotic effects.

vModSynth

Zyne

  • Zyne - a Python modular synthesizer using pyo as its audio engine. Zyne comes with more than 10 builtin modules implementing different kind of synthesis engines and provides a simple API to create your own custom modules.

Synth-A-Modeler

  • Synth-A-Modeler compiler, enables musicians to synthesize binary DSP modules according to mechanical analog model specications. This open-source tool promotes modular design and ease of use. By leveraging the Faust DSP programming environment, an output Pd, Max/MSP, SuperCollider, VST, LADSPA, or other external module is created, allowing the musician to hear the sound of the physical model in real time using an audio host application.

TX Modular

  • TX Modular system is a modular software synth which is written in the SuperCollider language. It can be used to build interactive audio systems such as: digital musical instruments, interactive generative compositions, sound design tools, live audio processing tools, and group improvisation performance tools.

SynthForge

VCV Rack






  • https://github.com/mschack/VCV-Rack-Plugins - 3 Channel 16 Step Programmable Sequencer. Mixer 1x4, 2x4 and 4x4 (with EQ, 4xAUX buses, and 2 x amplification ). Triad Sequencer ( v0.4.10 and above will not load notes properly from pre v0.4.10 builds ). Synth Drums. Ping Pong Delay (with Gnip Gnop mode). 3 Channel Oscillator with Filter and Amp Envelope


Axiom

  • https://github.com/monadgroup/axiom - an extremely flexible node-based realtime audio synthesizer. It was originally designed for size-constrained environments such as PC intros in the demoscene, but is entirely open source and is becoming an excellent free tool for any musician. [9]

XODULAR

  • XODULAR - a new modular synthesizer system in Pure Data. Where the first XODULAR system was a collection of simpler synthesis building blocks, the ecoSYSTEM is a much more personal instrument. The modules are more specific and complex. I wanted to create an instrument with a unique workflow and sound. For this reason, I do suspect that it might not be as easy to dive straight into as the previous XODULAR system, but the sonic possibilities are much, much wider.

Automatonism

  • Automatonism - a modular synthesiser that runs in the open source programming language Pure Data. It features a large library of 81 modules (version 2.1). Modular synthesis is akin to musical gardening: modules can spring to life and their interconnections suggest the formation of a sonic ecosystem. The act of patching is no different to playing any other instrument: it affords the opportunity to express oneself and directly engage with other people. It is towards that goal of performability and communication that Automatonism was created. It mimics the signal flow of a physical modular but features dynamic preset management and advanced parameter mapping tools on an open-source platform.

Twist

  • Twist - a node-based audio synthesizer that lets you create sound effects and soundtracks. Its modular nature makes it possible to produce any kind of sound by just "connecting the dots".

PatchScript / MidiPatch

Flow

  • https://github.com/eclab/flow - a fully-modular multitimbral and polyphonic additive software synthesizer written in pure Java. It runs on OS X, Linux, and Windows. I have used it to play individual patches and to play many simultaneous patches for a full song controlled over MIDI via a DAW.Flow has almost 70 modules of different shapes and sizes, and currently supports up to 32 voices at up to 256 partials and 44.1KHz with a rate of one new partial update every 32 samples. Flow is a very computationally expensive program and will keep your laptop quite warm and your fan busy. You need to have some fairly good hardware to run Flow at full blast successfully (for reference, Flow was developed on a 2.8Ghz i7 2015 Macbook Pro Retina). There are options for reducing Flow's footprint (such as reducing the number of voices or partials).

Moselle

  • Moselle Software Synthesizer - for making music. Connect a MIDI keyboard to your computer, design sounds, and play them. Moselle uses the modular synthesizer paradigm of connecting modules any way you want. Unlike hardware modular synthesizers, Moselle is polyphonic and lets you load and save patches. Program it not with graphics but with a simple programming language. The fully-functional, stand-alone "alpha" version can be downloaded for free.

Windows

XSRDO Patchwork Modular System

  • XSRDO Patchwork Modular System - a true modular synthesizer. You can choose what modules you want, where to put them and how many of them you want. Each module is independant of any other and only becomes active when you start to patch them together in your own creative way. Features... 36 virtual 'racks', 50 virtual 'modules', Insert any module into any rack (except Effects, System and Output [of which only one instance of each type is allowed]), Insert multiple modules, Movable modules. Windows VST.

Kamioooka

  • Kamioooka - a polyphonic Full-Modular synthesizer with patch cable system. You can freely combine modules and make patches. 10 module slots and 7 types of modules (VCO/VCF/VCA/ADSR/LFO/MISC/SEQ) are available. Windows VST.

WREN

  • WREN - an open source modular soft synth for Windows

Cynthia

  • Cynthia - monophonic VSTi, very Old School, but will still be able to keep in tune throughout the song, patches can be stored and it is of course fully MIDI controllable. Cynthia is free to use and will send you 30 years back in time to the dawn of modular synthesis... As the name implies its inspired from the old EMS SynthiA. Windows.

KX77FREE

  • Kx-PolyM-CSE - Vintage modular polyphonic synthesizer with CV/GATE sequencer and CS70M* emulation.
  • Kx-PolyMod - Vintage modular polyphonic synthesizer with stereo SF2 player. To build analog 70's leads!
  • Kx-Modulad - Analog modular synthesizer with stereo SF2 player and an additive synthesis WaveTracer to build high quality waveforms. 128 KX presets (70's and 80's).
  • KX-SYNTH-X16-V5 - Vintage modular polyphonic synthesizer.

u-he Beatzille

  • Beatzille - a compact version of our monster modular synthesizer Bazille. Although its condensed feature set makes it the ‘little brother’, Beatzille is still an engaging and capable synthesizer. Power and style run in the family. Digital oscillators, analogue-style filter and flexible patching will keep you busy for a good while before thinking about tackling Bazille.

4klang

  • https://github.com/hzdgopher/4klang - a modular software synthesizer package intended to easily produce music for 4k intros (small executables with a maximum filesize of 4096 bytes containing realtime audio and visuals). It consists of a VSTi plugin example songs/instruments as well as an example C project showing how to include it in your code. Or if you dare to compile it yourself also the source code for the synth core and VSTi plugin.

64klang

  • https://github.com/hzdgopher/64klang - a modular, nodegraph based software synthesizer package intended to easily produce music for 64k intros (small executables with a maximum filesize of 65536 bytes containing realtime audio and visuals) or 32k executable music. It consists of a VSTi plugin, a few example songs/instruments, as well as an example C project showing how to include it in your code for playback.

Concatenative synthesis

  • https://en.wikipedia.org/wiki/Concatenative_synthesis - a technique for synthesising sounds by concatenating short samples of recorded sound (called units). The duration of the units is not strictly defined and may vary according to the implementation, roughly in the range of 10 milliseconds up to 1 second. It is used in speech synthesis and music sound synthesis to generate user-specified sequences of sound from a database built from recordings of other sequences. In contrast to granular synthesis, concatenative synthesis is driven by an analysis of the source sound, in order to identify the units that best match the specified criterion.

PySoundConcat

rhythmCAT

Algorythmic

See also Dataflow, Pure Data, Creative / live coding, Audio

One-line algorithmic C



  • https://github.com/kragen/ar_bytebeat - a bytebeat synthesizer implemented on the Arduino. It's not the first bytebeat synthesizer on the Arduino, but I think it's the first that does real-time composite video visualizations of the signal, using the TVout library hacked to remove its audio output.




Graphics synthesis

See also Audio#Sonification



Variophone

  • https://en.wikipedia.org/wiki/Variophone - developed by Evgeny Sholpo in 1930 at Lenfilm Studio Productions, in Leningrad, the Soviet Union, during his experiments with graphical sound techniques, also known as ornamental, drawn, paper, artificial or synthetic sound. In his research Sholpo was assisted by the composer Georgy Rimsky‐Korsakov. The Variophone was an optical synthesizer that utilized sound waves cut onto cardboard disks rotating synchronously with a moving 35mm movie film while being photographed onto it to produce a continuous soundtrack. Afterwards this filmstrip is played as a normal movie by means of a film projector. Being read by photocell, amplified and monitored by a loudspeaker, it functions as a musical recording process.

Oramics

  • https://en.wikipedia.org/wiki/Oramics - a drawn sound technique designed in 1957 by musician Daphne Oram. The machine was further developed in 1962 after receiving a grant from the Gulbenkian Foundation. Oram's composition machine consisted of a large rectangular metal frame, providing a table-like surface traversed by ten synchronised strips of clear, sprocketed 35mm film. The musician drew shapes on the film to create a mask, which modulated the light received by photocells. Although the output from the machine was monophonic, the sounds could be added to multitrack tapes to provide more texture.

UPIC

  • https://en.wikipedia.org/wiki/UPIC - (Unité Polyagogique Informatique CEMAMu) is a computerised musical composition tool, devised by the composer Iannis Xenakis. It was developed at the Centre d'Etudes de Mathématique et Automatique Musicales (CEMAMu) in Paris, and was completed in 1977. Xenakis used it on his subsequent piece Mycènes Alpha (1978), and it has been used by composers such as Jean-Claude Risset (on Saxatile (1992)), François-Bernard Mâche (Hypérion (1981), Nocturne (1981), Tithon (1989), Moires (1994), Canopée (2003)), Takehito Shimazu (Illusions in Desolate Fields (1994)), Mari King, and Curtis Roads. Aphex Twin talked about it in an interview

Physically, the UPIC is a digitising tablet linked to a computer, which has a vector display. Its functionality is similar to that of the later Fairlight CMI, in that the user draws waveforms and volume envelopes on the tablet, which are rendered by the computer. Once the waveforms have been stored, the user can compose with them by drawing "compositions" on the tablet, with the X-axis representing time, and the Y-axis representing pitch. The compositions can be stretched in duration from a few seconds to an hour. They can also be transposed, reversed, inverted, and subject to a number of algorithmic transformations. The system allows for real time performance by moving the stylus across the tablet. The UPIC system has subsequently been expanded to allow for digitally sampled waveforms as source material, rather than purely synthesised tones.

Coagula

  • Coagula is an image synth. This means that it is both a simple image editor, and a program for making sound from those images.

HighC

  • HighC - a graphical music creation tool. It is a synthesizer, a sequencer and a mixer. Its goal is to make music composition as simple and direct as sketching.

Graph-O-Spect

  • Graph-O-Spect - This program embeds images into sound files. It creates a .wav file whose spectograph matches the input .ppm file.

SpectroBits

Virtual ANS

  • Virtual ANS is a software simulator of the unique Russian synthesizer ANS - photoelectronic microtonal/spectral musical instrument created by Russian engineer Evgeny Murzin from 1938 to 1958. Murzin named his invention in honour of the composer Alexander Nikolayevich Scriabin. The instrument was used by Stanislav Kreichi, Alfred Schnittke, Edison Denisov, Sofia Gubaidulina, Edward Artemiev and other Soviet composers. You can hear the sound of the ANS in Andrei Tarkovsky's movies Solaris, The Mirror, Stalker. In 2004, the British experimental group Coil released CoilANS, a boxed set of experimental drone music performed on the ANS.

Virtual ANS (2)

AEO-Light

  • AEO-Light - a new generation of optical sound extraction software developed by the University of South Carolina in close cooperation with Tommy Aschenbach. The project is made possible by the generous support of the National Endowment for the Humanities. The official project webpage contains additional information about the project’s history.

SoundGrid


ARSS

  • The Analysis & Resynthesis Sound Spectrograph - analyses a sound file into a spectrogram and is able to synthesise this spectrogram, or any other user-created image, back into a sound.ARSS is now superseded by Photosounder, which makes use of most of the techniques offered by ARSS in a simple to use and powerful graphical user interface and built in editor.

Photosounder

  • Photosounder - the first audio editor/synthesizer to have an entirely image-based approach to sound creation and editing. Thanks to its powerful and omnipotent synthesis algorithms, it is capable of creating any sound possible. Powerful built-in image editing tools, some yet unknown to general image editing programs, are specifically tailored to enable you to create and edit sounds with ease in ways and with results simply impossible with other programs.

steg