Dear Alsa Devel List,
I would like to send some feedback on the TWL4030 driver when used on the Beagle Board. We have tested it under Ubuntu and Angstrom, and we find it does not work well at low latencies (e.g. input-to-output in 5ms, 10ms, or 20ms). Perhaps it was never tested extensively at these latencies. I thought I would send you this information in case you would look into it, or at least pass it on to the relevant contact. I can also run further tests if someone informs me what I should try.
1) To get the drivers to run at particularly low latencies (e.g. 20ms), it is necessary to operate the drivers in NON-realtime mode. It would interest me to know whether this means that the realtime functionality of the Beagle Board xM hardware or OS is hampered, or whether the TWL4030 driver is not operating up to specification. (If instead the TWL4030 driver is operating in realtime mode, then Jack stops running when an unrelated low-latency USB-serial device is opened.)
2) Some audio software (e.g. Pure Data, ChucK, etc.) will not connect to the TWL4030 ALSA drivers directly, instead they will only start when jack intermediates between the audio software and the TWL4030 ALSA drivers.
3) In some situations, the TWL4030 drivers appear not to start using the requested settings. For example, when we start jack requesting two periods per buffer, it is apparently getting initialized at eight periods per buffer, see the final lines below: Calling $ jackd -r -dalsa -dhw:0 -p128 -n2 -i2 -o2 -s -S -r on the Beagle under Ubuntu 10.10 and Angstrom demo image results in the following
jackd 0.118.0 Copyright 2001-2009 Paul Davis, Stephane Letz, Jack O'Quinn, Torben Hohn and ot. jackd comes with ABSOLUTELY NO WARRANTY This is free software, and you are welcome to redistribute it under certain conditions; see the file COPYING for details
JACK compiled with System V SHM support. loading driver .. apparent rate = 44100 creating alsa driver ... hw:0|hw:0|128|2|44100|2|2|nomon|swmeter|soft-mode|16bit control device hw:0 configuring for 44100Hz, period = 128 frames (2.9 ms), buffer = 2 periods ALSA: final selected sample format for capture: 16bit little-endian ALSA: use **8** periods for capture ALSA: final selected sample format for playback: 16bit little-endian ALSA: use **8** periods for playback
Thanks very much for listening!
Best, Edgar Berdahl
Lecturer Center for Computer Research in Music and Acoustics (CCRMA) Stanford University http://ccrma.stanford.edu/courses/250a