USING ALSA DIRECTLY Switch to root account. Install the required packages: yum install alsa-plugins-jack Add yourself to the jackuser group. usermod -a -G audio,jackuser "" Now you will need to log out and log back in, or simply restart the system. Start the jack daemon (the best parameters for your sound card may be different): jackd -R -d alsa -d hw:0 This will start jack on the first sound card, at 48KHz sampling rate (can be changed with the "-r" command line parameter), with a period of 1024 frames (change with "-p", determines the latency) and with 2 interrupts per period (change with -n). USB sound cards can benefit from running with "-n 3" or "-n 4". All of these optional parameters should be specified after "-d alsa". It is best to replace the card number with the card name as the numbering can change from boot to boot if there is more than one sound card. The name of a particular card can be found in the output of "cat /proc/asound/cards", for each card it is the string between square brackets without the trailing blanks. Note: Jack is a sound server and not a daemon - while it does work "in the background" it is not something similar to unix daemons which are started at boot time. QJACKCTL This application can be used to control the jack sound server with a graphical interface. It can be started via qjackctl -s "-s" parameter makes the jack sound server start immediately. When starting jack through qjackctl it is important to note that you should (at least) change the "Interface" field in the "Setup" dialog to _not_ be "(default)" which would point Jack to use Pulse Audio. The proper "Interface" is the direct hw ALSA device (hw:0 for the first card, etc). Even best to use the name of the card as stated above. USING THE JACK DBUS INTERFACE Control applications such as qjackctl can be configured to interact with the jack sound server using D-Bus. This has the advantage of allowing jack to request the release of the sound device from Pulseaudio (see below). jackdbus is shipped in a separate package. To install this (as root) do: yum install jack-audio-connection-kit-dus and check "Enable D-Bus interface" in Setup -> Misc within Qjackctl INTEGRATE JACK WITH PULSEAUDIO Jack will ask Pulse Audio through D-Bus for ownership of the sound card. Pulse Audio will grant it and Jack will have complete control of it. No conflicts and no configuration necessary. In this case Pulse Audio will stop using the card and if it is the only one, you will not have sound for system sounds, browser media playback, etc (which is usually what you want). Otherwise it is possible to load a Pulse Audio module that redirects PA to use Jack. RUNNING JACK SERVER IN REALTIME MODE NOTE: This chapter explains why you have done the above changes in more detail. It is kept for informational purposes. The changes suggested below is done automatically by your Jack installation and no manual modification of the pam configuration should be necessary. The JACK server jackd has the capability to run in a real-time mode which greatly decreases the chance of audio glitches. The real-time mode is enabled by passing the -R or --realtime option to jackd when starting the server. It is only possible to run jackd in real-time mode as a non-root user by modifying your PAM configuration, PAM stands for Pluggable Authentication Modules and is the primary authentification mechanism used on Fedora. The primary source of PAM documentation can be found at the following at http://www.kernel.org/pub/linux/libs/pam/ The specific PAM configuration file that needs to be modified is /etc/security/limits.conf and it controls the system resource limits. It is important to understand that modifying the resource limits configuration files can decrease the security of your system. Documentation specific to the resource limits PAM module can be found at http://www.kernel.org/pub/linux/libs/pam/Linux-PAM-html/pam-6.html#ss6.12 Alternatively, one can create a new file /etc/security/limits.d/-.conf that contains the resource limits for individual users and/or groups. The jack-audio-connection-kit package that comes with Fedora contains the file /etc/security/limits.d/99-jack.conf that does this job for you. The resource limits that need to be changed to allow jackd to run in realtime mode are named rtprio and memlock. To increase the limits for a specific user named fred you would add the following to /etc/security/limits.conf fred - rtprio 20 fred - memlock 50000 The value of rtprio can be set in the range 0 - 99 where any value greater that 0 will allow the user to change the scheduling policy to "real-time". By default the JACK server requires a minimum rtprio setting of 20 but jackd will accept a command line parameter -P or --realtime-priority which will change the minimum required value of rtprio that is needed, but the default of 20 is nearly always sufficient. The appropriate value for memlock is dependent on the amount of memory present in the system but a minimum value of 50000(50MB) and a maximum value of half the available memory can be used as a rough guideline. To verify that the resource limits have been modified you can use the bash built-in ulimit command, for example: $ulimit -a core file size (blocks, -c) 0 data seg size (kbytes, -d) unlimited max nice (-e) 0 file size (blocks, -f) unlimited pending signals (-i) 8191 max locked memory (kbytes, -l) 50000 max memory size (kbytes, -m) unlimited open files (-n) 1024 pipe size (512 bytes, -p) 8 POSIX message queues (bytes, -q) 819200 max rt priority (-r) 20 stack size (kbytes, -s) 10240 cpu time (seconds, -t) unlimited max user processes (-u) 8191 virtual memory (kbytes, -v) unlimited file locks (-x) unlimited file locks (-x) unlimited Keep in mind that you may have to re-login before changes to limits.conf, or additions to the limits.d/ directory to take effect.