* LFO: random (noise) waveform has been added * Vibrato: new controller "Exponential amplitude" * MultiSynth: new button "Set" (set exact values of the curve) * Analog Generator: new waveform "Drawn with spline interpolation" * Analog Generator: new options "Filter frequency = note frequency" and "Velocity-dependent filter resonance" see the analog_gen4 and analog_gen5 examples * Analog Generator: new options "Retain phase" (don't reset the phase) and "Random phase" * Timeline: now the file is used for the pattern copy-buffer so you can paste even after the SunVox restart * Timeline: target pointer (like in the Module View) has been added use it to choose where to place the new pattern(s) * Main SunVox Menu: new function "Merge project" (load project over the current) * new project parameter - "Time grid" (number of lines per grid cell) * new module Velocity2Ctl: converts the velocity parameter of the incoming notes to the controller values (in some another connected module) * new module Pitch2Ctl: converts the incoming notes to the controller values (in some another connected module) Development status of the new version: goo.gl/ByfKb. Official SunVox homepage + video tutorials: User manual: goo.gl/ZYptT. Found a bug? Have some questions? Just write me directly: The answer comes immediately. Vocal Filter (for human voice simulation). Filter (Low-pass, High-pass, Band-pass, Notch). SpectraVoice (FFT-based synthesizer for warm atmospheric sounds). Sampler (supported formats: WAV, XI, AIFF). MetaModule (use it to build your own synths/effects). DrumSynth with 120 unique synthetic drum sounds. If you want to record sound - use the Sampler module. REC button is only for notes and controller recording.
How to connect one module to another: first touch on source, second touch on destination. Use multitouch to scale/move content of timeline and pattern editor. The main menu - button with the SunVox icon in the upper left corner of the screen. It is also available for other systems (see the site).
XM (FastTracker) and MOD (ProTracker, OctaMED) import. Support of 16/24/32bit WAV, AIFF and XI samples.
Powerful microtonal (ultra-chromatic) sequencer. If you are a musician and own an iphone, you owe it to yourself to try this amazing application. In the overcrowded world of music apps, Sunvox stands out as both unique and powerful. It is a small and fast cross-platform modular synthesizer with pattern based sequencer (tracker).
This is a great platform for musical experimentation and it can easily be used with Minecraft and other projects.SunVox is the most powerful music creation tool for iOS. Such a simple board, but with limitless applications thanks to Python and MIDI. The Piano HAT looks like a rather simple board, but thanks to a clear Python library, well-built hardware, and a powerful MIDI control option, we have a board for musical adventures.
This then turns the Piano HAT into a powerful synthesiser input for software such as Yoshimi and SunVox, although a Raspberry Pi 2 is required for these applications. In fact, Phil has supplied a number of methods to connect the Piano HAT library to a MIDI service running on your Pi. Software is not just limited to simple samples.
So, using this library, we can code our own tutorial for others to learn with. Piano HAT also comes with a tutorial which demonstrates using the built-in LEDs to teach playing a simple tune, in this case ‘Twinkle, twinkle, little star’.
Phil Howard has written a series of examples which use the Pygame library to demonstrate how to use Piano HAT as a typical piano via a series of audio samples, which can be swapped for any types of sounds should you wish to build your own input. Hardware is just one part of this project, and the software which supports Piano HAT is all based on Python, which enables existing projects created in this language to easily integrate Piano HAT. As well as the keyboard, we have the ability to raise and lower the octaves and change instruments via three extra inputs on the board. Being a HAT board, it also attaches to all 40 of the GPIO pins. The board measures 64mm by 56mm and fits neatly on top of the models A+, B+, and Pi 2. The latest incarnation is now known as Piano HAT and uses a capacitive touch-based interface to simulate a portion of a traditional piano keyboard. One of Zachary’s advisors was Phil Howard from Pimoroni, who worked with Zachary to create this new and improved version.
Originally created using a MCP23017 GPIO expander and a series of momentary switches, the Pi Piano used a piezo buzzer to simulate the tone of a note. In 2014, a 14-year‑old called Zachary Igielman launched a successful crowdfunding campaign for his Pi Piano.