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almostLive
| Patch |
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A pedagogical program to introduce loop-based real-time composition and constrained randomness. Original Max/MSP patches available.
Four players slave to a master tempo, time stretching and transposing their material in real-time. Filtering is only signal processing available, but constrained random variation of filter parameters (cut-off & Q) is possible. |
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B-Keeper
| Patch |
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B-Keeper uses a Java object in Max/MSP to synchronise Ableton Live with a drummer.
B-Keeper takes in microphone input from the drums and sends out MIDI messages that control the tempo of Ableton Live so that Live keeps time with the drums. It's written as a Java object and is designed with a Max patch that has control parameters for the system and outputs graphics. |
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beat~
| External |
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Audio beat and Tempo tracker (G4 and higher) |
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charReplace
| External |
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Change temporarily or permanently any individual character in a string (Symbol). |
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Chop
| Standalone Application |
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a virtual 25 piece tunable scissor orchestra.
Originally this was written as a joke but the work was recently shown at the Institute Of Contemporary Arts in London as part of the Convergence show. |
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clockdiv
| Abstraction |
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Midi clock counter.
Simple object which inputs a midi clock and outputs a count from 0 to n-1. Timing of the count is specified as a division of a bar at the current tempo. |
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DDT Calc
| Standalone Application |
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DDT Calc is a delay time calculator used for figuring out what a delay time should be for a particular note value, tempo and meter. |
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EAMIR - P5 Glove
| Standalone Application |
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The P5 glove controller sends 5 streams of continuous data for each of the five fingers on the glove. Data is also sent with respect to the glove’s X Y and Z orientation.
created by V.J. Manzo
The P5 glove controller sends 5 streams of continuous data for each of the five fingers on the glove. Data is also sent with respect to the glove’s X Y and Z orientation. In this example, the EAMIR software translates the finger bend data to chords from the C Major scale. Buttons on the glove can be programmed to trigger modulation (common-tone, chromatic mediant, etc.). X, Y, and Z data can be programmed to control dynamics, arpeggiation tempo, and other aspects of the performance.
created by V.J. Manzo
www.vjmanzo.com/cv | www.vincemanzo.com |
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EAMIR - Slider
| Standalone Application |
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Slider is a touchscreen musical interface that converts graphical table data into a linear array of musical notes.
created by V.J. Manzo
Slider is a touchscreen musical interface that converts graphical table data into a linear array of musical notes. The slider software is run on a touchscreen computer which allows the table data to be entered by physically touching the graphical interface. Each point in the table is analyzed serially and yields a note. The notes are played back at user variable rhythm which can be changed by touching a rhythmic value icon at the left. The tempo can be changed as well. When a user touches the screen, the points are read and produce notes. The higher the line appears when it is read, the higher the note will sound. A keyboard appears beneath the table to reflect the pitch of the point currently being analyzed. By default, notes are read “up and down” that is, from left to right to left. This option can be changed to have notes read up (from left to right only) and down (from right to left only). Like all EAMIR software, the slider software can be customized to work with the sounds of any type of synthesizer. By default, the slider software will filter all of the notes to the 7 pitch classes of the C Major scale. The tonic and mode can be changed at any time by selecting from one of the 11 pitch classes or one of the 28 diatonic modes at the bottom left of the screen. User made patterns can be stored and recalled with ease by shift+clicking in the preset grid.
created by V.J. Manzo
www.vjmanzo.com/cv | www.vincemanzo.com |
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en_analyzer~
| External |
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interface to The Echo Nests's audio analysis.
en_analyzer~ is a Max external that provides an interface to The Echo Nest's audio analysis API. The Echo Nest provides automatic musical analysis that uses machine listening techniques to extract attributes such as tempo, key, time signature, harmony, timbre, and rhythmic structures. With en_analyzer~, Max users can use The Echo Nest's technology to analyze audio data from a buffer~ object. The resulting analysis data can then be used to manipulate the original audio. Possible applications include building visualization tools, filtering or sorting segments of a song based on their pitch or timbre, and using rhythmic and harmonic events in a song to trigger another musical or visual process. |
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f0.average_tempo
| Abstraction |
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gives an average tempo of the last n bangs |
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GLEETCHLAB 3
| Standalone Application |
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A realtime modular composition and processing software for sound design and experimental music like glitch, IDM, electroacustic, ambient...
Gleetchlab 3 is a modular software designed to process audio files and live sound sources in realtime.
Unlike many music softwares, gleetchlab does not use a "timeline", instead you can process and record sound as it plays and quckly store every parameter into ten
easy-to-recall temporary presets.
You can manipulate samples with random loop points, alterate speed and direction of playing without limits, pencil-edit waveforms and use the internal DSPs such as convolution, feedback generator, granular re-synthesis, waveshaping distortion, spectral filtering, wow simulation, dynamic reverberation and your own VST plugins.
Also you can record and re-record endlessly each processed sound into the 6 stereo loopers or manipulate sources coming from your soundcard and last but not least, use a quadriphonic suround mixer/recorder.
Price 10.69€
Changes in V3
- Complete software redesign
- MIDI Implementation
- New DSPs
- Quadriphonic mixing and recording
- Parameters recall |
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jb.taptempo
| Abstraction |
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basic tap-tempo implementation |
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jit.slide
| External |
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Cellwise temporal envelope follower
The jit.scanslide object performs cellwise temporal envelope following using the formula y(n) = y(n-1) + ((x(n) - y(n-1))/slide). |
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jr.metro~
| Abstraction |
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A signal domain metro with both steady and variable tempo |
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