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[PDF] Real-time audio processing for an embedded Linux ...

    https://www.semanticscholar.org/paper/Real-time-audio-processing-for-an-embedded-Linux-a-Kulkarni/0035038facbafea50cd281479656367509e94ed3
    Real-time audio processing for an embedded Linux system using a dual-kernel approach. Professional audio processing systems such as digital musical instruments, audiomixers, etc. must operate with very tight constraints on overall processing latencyand CPU performance.

Real-time Audio on Embedded Linux

    https://elinux.org/images/8/82/Elc2011_lorriaux.pdf
    Remi Lorriaux - ELC 2011 15 Choosing a board for our project Deciding factors: Pick a board that is supported in the latest mainline kernel with real-time patches (2.6.33) Tested real-time features (Open Source Automation Development Lab) Pick a board that was available at the time Power and features did not matter (except for audio) Other boards could have been chosen (e.g.

Effects Processors [Linux-Sound] - Linux Audio

    https://wiki.linuxaudio.org/apps/categories/effects_processors
    60 rows

Top 10 Linux Distributions for Audio Production

    https://news.softpedia.com/news/Top-10-Linux-Distributions-for-Audio-Production-64552.shtml
    10. m-dist is a quite old and embedded Linux system tuned for MIDI and audio use. There's no software to install because this 144 MB ISO is a Live CD ready to be burned onto a …

Raspberry Pi and realtime, low-latency audio [Linux-Sound]

    https://wiki.linuxaudio.org/wiki/raspberrypi
    “system for handling real-time, low latency audio (and MIDI). It runs on GNU/Linux, Solaris, FreeBSD, OS X and Windows (and can be ported to other POSIX-conformant platforms). It can connect a number of different applications to an audio device, as well as allowing them to share audio between themselves.

Embedded Real-Time Audio Signal Processing With Faust

    https://ccrma.stanford.edu/~rmichon/publications/doc/ifc-20-embedded.pdf
    Linux allowed them to deal with embedded audio process- ing in the same way than on a desktop computer through the use of high-level tools like PureData [3], ChucK [4], SuperCollider [5], etc. Specialized Linux distributions with specific configurations for real-time audio processing such as Satellite CCRMA [6] were also developed in this context.

Real-Time Linux - Toradex

    https://developer.toradex.com/knowledge-base/real-time-linux
    Linux has been built as a general purpose operating system and therefore is, by design, not well optimized for real-time operations. However, since desktop applications such as audio or video playback require a certain real-time capability, the standard kernel today provides rather impressive (soft) real-time capabilities.

Raspberry Pi as realtime audio processor - multiband ...

    https://www.reddit.com/r/linuxaudio/comments/q9nthf/raspberry_pi_as_realtime_audio_processor/
    It uses an RTOS hypervisor for Linux and coprocosessor on BeagleBone's CPU to achieve latency <1ms. You can't achieve something like that on Raspberry Pi easily, but kernel with RT patches can get you fairly close (i.e. see Elk Audio OS). Using generic desktop kernel will leave you with something in 10-20 ms ballpark.

freeDSP | An Open-Source Low-Budget Audio DSP

    https://freedsp.github.io/
    A DIY audio dsp project. The freeDSP is an open-source digital signal processor family for the do-it-yourself community. The applications range from active loudspeaker concepts (digital crossovers, bass enhancement, ...) and room equalization over advanced musical effect processors to car audio signal processing.

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