Mozzi
Sonic Pi
Mozzi | Sonic Pi | |
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8 | 112 | |
1,029 | 10,548 | |
- | 0.7% | |
7.1 | 8.8 | |
7 days ago | 14 days ago | |
HTML | C++ | |
GNU General Public License v3.0 or later | GNU General Public License v3.0 or later |
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Mozzi
- Just noticed that the latest Mozzi Library now supports the Arduino Uno R4!
- Where is a good place to get started with DSP coding?
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Arduino music question
The Arduino has the built in tone() function that can make any frequency of sound incuding note scales. Sophisticated use of things like this have let people make music and all kinds of sounds. The Mozzi Library is also an amazing way to get sound on an output pin.
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Raspberry Pico on Arduino IDE: Using a MCP4921
*: I am trying to make a synth with the awesome Mozzi library. Trying to upgrade from Atmega328 to Pico so maybe I can get more sample rate and more bitrate with the MCP? less aliasing. I already can generate sound using Pico's PWM output, but it's not great, I would say of same quality of Atmega328. That's why want to try a DAC.
- Running Mozzi on esp32 but the sine wave is wrong, please help
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read and play midi commands without computer
Check out the Mozzi library.
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Question about sound
Take a look at the Mozzi library. I think you'll be very impressed. Sonic Pi is very interesting as well. Also there are notes there with Mozzi that explain some of the various components you might or might not have, choices on processor platform and speed and what impact that might have and what choices you have. How some parts of the synthesis sound much better when using true DAC capable platforms etc.
- Sin wave generation in arduino and its sound
Sonic Pi
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Anyone else using ChatGPT to make music?
I have wondered what grooves it could come with using https://sonic-pi.net/
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I Need to Grow Away from These Roots
Something fascinating about seeing a 'score' for generative music written out as a sort of specification like that.
There's enough detail there that you can take those instructions and reimplement your own version of it, and you'll end up with essentially the same 'piece of music', but certainly a different interpretation of it. Because while the score lays out some details precisely, it leaves other choices less clear. What does 'all inversions' really mean when enumerating chords? Does it include open, spread voicings? What durations should we choose from for our random waveforms? How short is 'short' when deciding to repeat? And of course, what wave synths should you use, and how should you modulate them?
All those are similar to the decisions a traditional instrumentalist makes when interpreting a sheet music score for performance - here, a generative music coder can follow this 'score' and produce a program that represents their own interpretation of the piece.
Coding it up in Sonic Pi (https://sonic-pi.net/) was a fun exercise, and I feel like I was able to produce something along the lines of what the composer intended. It carries the same kind of mood that the recording in the video has. But it's my own 'performance' of the work, if that makes sense (even if it's actually Sonic Pi 'performing' it at runtime...)
All of which got me thinking about the relationship more generally between specification, and implementation. Considering different programmers' implementations of algorithms as individual 'performances' of scores from the overall design - and then thinking about developers building elements of a larger system architecture as individual performers working to deliver their part of the performance as part of a band or orchestra. Some groups, maybe they're directed by a conductor-architect; others maybe are improvisers, riffing off one another and occasionally stepping up to deliver a solo. And some are maybe solid session performers, showing up and delivering strong but unflashy performances to a producer's specification.
So overall, a nice meditative coding exercise for a Sunday afternoon, and a shift in perspective. Thanks for sharing it.
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History of the Web - Part 1
On a seriously light-hearted note, Herve Aniglo, talked about teaching children to code with music using Sonic PI, a language agnostic platform that helps you learn recursions, looping, circuit breaking and functional programming by creating simple tunes.
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Genuary 2024: Generative Art / Creative Coding Month
https://www.youtube.com/playlist?list=PLPYzvS8A_rTYEba_4SDvR...
- Sonic Pi is built on-top of SuperCollider, but it's MUCH easier to get started with making bleeps and bloops. Sam Aaron, who originally created Overtone (a Clojure front-end for SuperCollider) created Sonic Pi initially to teach kids computer programming and music, but now it's turning into a pretty nice live-coding setup. The language is basically a DSL extension of Ruby, and although it's very elegant, I feel like it's a little nerfed in terms of a full language when compared to SCLang, so I'm sticking with the latter for now. High recommend checking it out if you're new to making music or code. https://sonic-pi.net/
- This 'Intro To Live Coding' vid from Alex McLean is great. Gives a good overview of a few fun tools out there that I won't mention here for sake of time (check out Gibber and Hydra for web-based coding things. Gibber is really slick). Alex invented Tidal Cycles, which I feel is like god-tier in terms of power and conciseness. Maybe I'll tinker with Tidal someday, but I want to start with SC.
- Web FM synthesizer made with HTML5
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Overtone – programmable, live music in Clojure
Strange dice that it seems to mostly be c++, sponsored by 3 prominent elixir shops, with an original OSC server implementation by Joe Armstrong.
https://github.com/sonic-pi-net/sonic-pi/tree/dev/app/server...
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I really got traumatized
There is a programming language+IDE called SonicPI. It's designed to create music by writing code. You can install the program from the lin, then ask chatGPT to generate some sonic PI code that produces some nice melody. Then just copy the code and paste it into the sonicPI program, and run it by clicking the run button. Here's a conversation for example
- Como encontrar tema de tcc em ciência da computação?
- كورس sound engineer
- Annotated demo of basic capabilities of my rototem audio tool
What are some alternatives?
Arduino-Library - Arduino custom Library i made
supercollider - An audio server, programming language, and IDE for sound synthesis and algorithmic composition.
DAC_MCP49XX - Forked version from exscape in order to make it compile for non-AVR platforms:
FoxDot - Python driven environment for Live Coding
arduino-library - This repository holds the Arduino Library for the EdX TinyML Specialization
soundtouch-android - Android bindings for SoundTouch lib, focused on size optimization and real-time processing.
eurorack - Eurorack modules
overtone - Collaborative Programmable Music
Audio - Teensy Audio Library
Coltrane - 🎹🎸A music theory library with a command-line interface
faust - Functional programming language for signal processing and sound synthesis
Black candy - A self hosted music streaming server