How to Install and Uninstall speech-dispatcher.x86_64 Package on AlmaLinux 8
Last updated: November 01,2024
1. Install "speech-dispatcher.x86_64" package
Please follow the step by step instructions below to install speech-dispatcher.x86_64 on AlmaLinux 8
$
sudo dnf update
Copied
$
sudo dnf install
speech-dispatcher.x86_64
Copied
2. Uninstall "speech-dispatcher.x86_64" package
Learn how to uninstall speech-dispatcher.x86_64 on AlmaLinux 8:
$
sudo dnf remove
speech-dispatcher.x86_64
Copied
$
sudo dnf autoremove
Copied
3. Information about the speech-dispatcher.x86_64 package on AlmaLinux 8
Last metadata expiration check: 0:57:25 ago on Mon Sep 5 03:22:42 2022.
Available Packages
Name : speech-dispatcher
Version : 0.8.8
Release : 6.el8
Architecture : x86_64
Size : 760 k
Source : speech-dispatcher-0.8.8-6.el8.src.rpm
Repository : appstream
Summary : To provide a high-level device independent layer for speech synthesis
URL : http://devel.freebsoft.org/speechd
License : GPLv2+ and GPLv2
Description : * Common interface to different TTS engines
: * Handling concurrent synthesis requests – requests may come
: asynchronously from multiple sources within an application
: and/or from more different applications.
: * Subsequent serialization, resolution of conflicts and
: priorities of incoming requests
: * Context switching – state is maintained for each client
: connection independently, event for connections from
: within one application.
: * High-level client interfaces for popular programming languages
: * Common sound output handling – audio playback is handled by
: Speech Dispatcher rather than the TTS engine, since most engines
: have limited sound output capabilities.
Available Packages
Name : speech-dispatcher
Version : 0.8.8
Release : 6.el8
Architecture : x86_64
Size : 760 k
Source : speech-dispatcher-0.8.8-6.el8.src.rpm
Repository : appstream
Summary : To provide a high-level device independent layer for speech synthesis
URL : http://devel.freebsoft.org/speechd
License : GPLv2+ and GPLv2
Description : * Common interface to different TTS engines
: * Handling concurrent synthesis requests – requests may come
: asynchronously from multiple sources within an application
: and/or from more different applications.
: * Subsequent serialization, resolution of conflicts and
: priorities of incoming requests
: * Context switching – state is maintained for each client
: connection independently, event for connections from
: within one application.
: * High-level client interfaces for popular programming languages
: * Common sound output handling – audio playback is handled by
: Speech Dispatcher rather than the TTS engine, since most engines
: have limited sound output capabilities.