OpenSoundControl.org: /page-list /toc
/spec/1.0 /spec/1.1 /implementations /publications /about
(contents of this
file: links to each section)
status: active at different link (as of 12-Mar-21)
Status details: I believe this is active on this link instead:https://www.cnmat.berkeley.edu/publications/composability-musical-gesture-signal-processing-using-new-osc-based-object-and
Project Type: Hardware
Project URL: http://cnmat.berkeley.edu/publication/osc_and_gesture_features_cnmats_connectivity_processor
OSC Documentation URL: http://cnmat.berkeley.edu/publication/osc_and_gesture_features_cnmats_connectivity_processor
Standard laptop computers are now capable of sizeable quantities of sound synthesis and sound processing, but low-latency, high quality, multichannel audio I/O has not been possible without a cumbersome external card cage. CNMAT has developed a solution using the ubiquitous 100BaseT Ethernet that supports up to 10 channels of 24-bit audio, 64 channels of sample-synchronous control-rate gesture data, and 4 precisely time-stamped MIDI I/O streams. Latency measurements show that we can get signals into and back out of Max/MSP in under 7 milliseconds. The central component in the device is a field programmable gate array (FPGA). In addition to providing a variety of computer interface capabilities, the device can function as a cross-coder for a variety of protocols including GMICS. This paper outlines the motivation, design, and implementation of the connectivity processor.
Platform(s): Any / Platform Independent
Features: Bundle Support, High Speed, Stateless Interface
Supported OSC types: i: int32, f: float32
Bundle support: Creates Bundles
Timetag support: Generates “immedate” timestamp
Transport support: UDP
Submitted to opensoundcontrol.org by Legacy at 2/24/21 12:32
This page of OpenSoundControl website updated Tue Aug 16 13:15:15 PDT 2022 by matt (license: CC BY).