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Software audio synthesis environments typically consist of an audio programming language (which may be graphical) and a user environment to design/run the language in. Although many of these environments are comparable in their abilities to produce high-quality audio, their differences and specialties are what draw users to a particular platform. This article compares noteworthy audio synthesis environments, and enumerates basic issues associated with their use.
Audio synthesis environments comprise a wide and varying range of software and hardware configurations. Even different versions of the same environment can differ dramatically. Because of this broad variability, certain aspects of different systems cannot be directly compared. Moreover, some levels of comparison are either very difficult to objectively quantify, or depend purely on personal preference.
Some of the commonly considered subjective attributes for comparison include:
These attributes can vary strongly depending on the tasks used for evaluation.
Some other common comparisons include:
Audio software often has a slightly different "sound" when compared against others. This is because there are different ways to implement the basic building blocks (such as sinewaves, pink noise, or FFT) which result in slightly different aural characteristics. Although people can of course prefer one system's "sound" over another, perhaps the best output can be determined by using sophisticated audio analyzers in combination with the listener's ears. The idea of this would be to arrive at what most would agree is as "pure" a sound as possible.
The interface to an audio system often has a significant influence on the creative flow of the user, not because of what is possible (the stable/mature systems listed here are fully featured enough to be able to achieve an enormous range of sonic/compositional objectives), but because of what is made easy and what is made difficult. This is again very difficult to boil down to a brief comparative statement. One issue may be which interface metaphors are used (e.g. boxes-and-wires, documents, flow graphs, hardware mixing desks).
|Name||Creator||Primary Purpose(s)||First release date||Most recent update||Most recent version||Cost||License||Main user interface type||Development status|
|Bidule||Plogue||Realtime synthesis, live coding, algorithmic composition, acoustic research, all-purpose programming language||2002||2017-06||0.9757||Non-free||Proprietary||Graphical||Mature|
|ChucK||Ge Wang and Perry Cook||Realtime synthesis, live coding, pedagogy, acoustic research, algorithmic composition||2004||2015-10-21||v220.127.116.11||Free||GPL||Document||Immature|
|Csound||Barry Vercoe||Realtime performance, sound synthesis, algorithmic composition, acoustic research||1986||2016-05-19||v6.07||Free||LGPL||Document, graphical||Mature|
|Impromptu||Andrew Sorensen||Live coding, algorithmic composition, hardware control, realtime synthesis, 2d/3d graphics programming||2006||2010-10||v2.5||Free||Proprietary||Document||Stable|
|Kyma||Carla Scaletti||Realtime audio synthesis, hardware control||1986||2016-11-14||v7.10||Non-free||Proprietary||Graphical||Mature|
|Max/MSP||Miller Puckette||Realtime audio + video synthesis, hardware control, GUI design||1980s (mid)||2017-05-30||v7.3.4||Non-free||Proprietary||Graphical||Mature|
|Pure Data||Miller Puckette||Realtime synthesis, hardware control, acoustic research||1990s||2018-01-07||v0.48-1||Free||BSD-like||Graphical||Mature|
|Reaktor||Native Instruments||Realtime synthesis, hardware control, GUI design||1996||2017-08-16||6.2||Non-free||Proprietary||Graphical||Mature|
|SuperCollider||James McCartney||Realtime synthesis, live coding, algorithmic composition, acoustic research, all-purpose programming language||1996-03||2018-01-14||v3.9.0||Free||GPL||Document||Mature|
|Sporth||Paul Batchelor||Sound design, algorithmic composition, live coding, embedded systems||2015||2016-05||-||Free||MIT||Document||Immature|
|Csound||Textual/Graphical (FLTK/Qt/HTML5)||No||In development|
|Impromptu||Mostly textual||-||Dynamic & static|
Interfaces between the language environment and other software or hardware (not user interfaces).
|Name||Shell scripting||MIDI||OSC||HID||VST||Audio Units||Other|
|In||Out||In||Out||In||Out||As host||As unit|
|Impromptu||Yes||Yes||Yes||Yes||Yes||No||Bidirectional Scheme to Objective-C bridge|
|SuperCollider||Yes||Yes||Yes||Yes||Yes||Yes||Yes||No||Yes||LADSPA Host, scsynth can be controlled by OSC messages (Haskell, Scala, Python, Ruby, Scheme etc.)|
|Name||Operating system(s)||Source code language(s)||Programming (plugin) API language(s)||Other technical features|
|Bidule||Mac OS X, Windows||C++||C++||ASIO/ CoreAudio (Mac)/ ReWire support. Possible to write custom modules via API if NDA accepted.|
|ChucK||Mac OS X, Linux, Windows||C++||Unified timing mechanism (no separation between audio-rate and control-rate), command-line access|
|Csound||Mac OS X, Linux, Windows||C, C++||C; also Python, Java, Lisp, Lua, Tcl, C++||IDE (QuteCsound), multitrack interface (blue); several analysis/resynthesis facilities; can compute double-precision audio; Python and LuaJIT algorithmic composition library; multi-threaded processing|
|Impromptu||Mac OS X||Lisp, Objective-C, Scheme||C, C++, Objective-C, Scheme||Native access to most OS X APIs including Core Image, Quartz, QuickTime and OpenGL. Impromptu also includes its own statically typed (inferencing) systems language for heavy numeric processing - OpenGL, RT AudioDSP etc..|
|Kyma||Mac OS X, Windows||Smalltalk, C, Objective-C|
|Pure Data||Mac OS X, Linux, Windows, iPod, Android||C||C, C++, FAUST, Haskell, Java, Lua, Python, Q, Ruby, Scheme, others|
|Reaktor||Mac OS X, Windows|
|SuperCollider||Mac OS X, Linux, Windows, FreeBSD||C, C++, Objective-C||C++||Client-server architecture; client and server can be used independently, command-line access|
|Sporth||Linux, Mac OS X||C||C, Scheme||Many frontends built using the API exist, including Chuck, PD, and LADSPA|