| apt |
2.6.1 |
Advanced front-end for dpkg |
openembedded-core |
| adapterbase |
0.2 |
A base class library for browser plugins loaded by Open webOS |
meta-webos |
| adaptive-component |
0.2.1-4 |
A composable container for Adaptive ROS 2 Node computations. Allows building Nodes that can select between FPGA, CPU or GPU, at run-time. Stateless by default, can be made stateful to meet use-case specific needs. Refer to examples in README. Technically, provides A ROS 2 Node subclass programmed as a "Component" and including its own single threaded executor to build adaptive computations. Adaptive ROS 2 Nodes are able to perform computations in the CPU, the FPGA or the GPU, adaptively. Adaptive behavior is controlled through the "adaptive" ROS 2 parameter. |
meta-ros2-rolling |
| adaptive-component |
0.2.1-2 |
A composable container for Adaptive ROS 2 Node computations. Allows building Nodes that can select between FPGA, CPU or GPU, at run-time. Stateless by default, can be made stateful to meet use-case specific needs. Refer to examples in README. Technically, provides A ROS 2 Node subclass programmed as a "Component" and including its own single threaded executor to build adaptive computations. Adaptive ROS 2 Nodes are able to perform computations in the CPU, the FPGA or the GPU, adaptively. Adaptive behavior is controlled through the "adaptive" ROS 2 parameter. |
meta-ros2-humble |
| adaptive-component |
0.2.1-4 |
A composable container for Adaptive ROS 2 Node computations. Allows building Nodes that can select between FPGA, CPU or GPU, at run-time. Stateless by default, can be made stateful to meet use-case specific needs. Refer to examples in README. Technically, provides A ROS 2 Node subclass programmed as a "Component" and including its own single threaded executor to build adaptive computations. Adaptive ROS 2 Nodes are able to perform computations in the CPU, the FPGA or the GPU, adaptively. Adaptive behavior is controlled through the "adaptive" ROS 2 parameter. |
meta-ros2-iron |
| adaptive-component |
0.2.1-5 |
A composable container for Adaptive ROS 2 Node computations. Allows building Nodes that can select between FPGA, CPU or GPU, at run-time. Stateless by default, can be made stateful to meet use-case specific needs. Refer to examples in README. Technically, provides A ROS 2 Node subclass programmed as a "Component" and including its own single threaded executor to build adaptive computations. Adaptive ROS 2 Nodes are able to perform computations in the CPU, the FPGA or the GPU, adaptively. Adaptive behavior is controlled through the "adaptive" ROS 2 parameter. |
meta-ros2-jazzy |
| apt-repo |
0.1 |
Adds the apt repo to the board. You need to setup an apt server to host the deb packages |
meta-nanopi-neo4 |
| audio-capture |
0.3.12-1 |
Transports audio from a source to a destination. Audio sources can come from a microphone or file. The destination can play the audio or save it to an mp3 file. |
meta-ros1-melodic |
| audio-capture |
0.3.18-1 |
Transports audio from a source to a destination. Audio sources can come from a microphone or file. The destination can play the audio or save it to an mp3 file. |
meta-ros1-noetic |
| avoutput-adaptation-layer-api |
1.0.0-2 |
AVOutputd adaptation layer (AVAL) API definition and test harness |
meta-webosose |
| avoutput-adaptation-layer-mock |
1.0.0-2 |
AV API implementation library mock |
meta-webosose |
| bmaptool |
3.8.0+git |
Tools to generate block map (AKA bmap) and flash images using bmap |
openembedded-core |
| browser-adapter |
0.4 |
NPAPI browser plugin to isis-browser |
meta-webos |
| capture-tiny-perl |
0.48 |
Capture::Tiny provides a simple, portable way to capture almost anything sent to STDOUT or STDERR, regardless of whether it comes from Perl, from XS code or from an external program. Optionally, output can be teed so that it is captured while being passed through to the original filehandles. Yes, it even works on Windows (usually). Stop guessing which of a dozen capturing modules to use in any particular situation and just use this one. |
meta-cpan |
| cob-control-mode-adapter |
0.8.12-1 |
The cob_control_mode_adapter package provides a node that automatically loads respective ros_controllers depending on required control mode. |
meta-ros1-melodic |
| cob-control-mode-adapter |
0.8.24-2 |
The cob_control_mode_adapter package provides a node that automatically loads respective ros_controllers depending on required control mode. |
meta-ros1-noetic |
| controlsystemadapter |
02.10.00 |
|
meta-chimeratk |
| controlsystemadapter-opc-ua-adapter |
03.02.02 |
|
meta-chimeratk |
| controlsystemadapter-tango-adapter |
01.00.00 |
|
meta-chimeratk |
| fmi-adapter |
1.0.4-1 |
Wraps FMUs for co-simulation |
meta-ros1-melodic |
| fmi-adapter |
2.0.0-1 |
Wraps FMUs for co-simulation |
meta-ros2-dashing |
| fmi-adapter |
0.1.7-2 |
Wraps FMUs for co-simulation |
meta-ros2-eloquent |
| fmi-adapter |
2.1.1-1 |
Wraps FMUs for co-simulation |
meta-ros2-foxy |
| fmi-adapter |
2.1.2-2 |
Wraps FMUs for co-simulation |
meta-ros2-rolling |
| fmi-adapter |
1.0.4-1 |
Wraps FMUs for co-simulation |
meta-ros1-noetic |
| fmi-adapter |
2.1.1-1 |
Wraps FMUs for co-simulation |
meta-ros2-galactic |
| fmi-adapter |
2.1.1-1 |
Wraps FMUs for co-simulation |
meta-ros2-humble |
| fmi-adapter |
2.1.2-2 |
Wraps FMUs for co-simulation |
meta-ros2-iron |
| fmi-adapter |
2.1.2-1 |
Wraps FMUs for co-simulation |
meta-ros2-jazzy |
| fmi-adapter-examples |
1.0.4-1 |
Provides small examples for use of the fmi_adapter package |
meta-ros1-melodic |
| fmi-adapter-examples |
2.0.0-1 |
Provides small examples for use of the fmi_adapter package |
meta-ros2-dashing |
| fmi-adapter-examples |
0.1.7-2 |
Provides small examples for use of the fmi_adapter package |
meta-ros2-eloquent |
| fmi-adapter-examples |
2.1.1-1 |
Provides small examples for use of the fmi_adapter package |
meta-ros2-foxy |
| fmi-adapter-examples |
2.1.2-2 |
Provides small examples for use of the fmi_adapter package |
meta-ros2-rolling |
| fmi-adapter-examples |
1.0.4-1 |
Provides small examples for use of the fmi_adapter package |
meta-ros1-noetic |
| fmi-adapter-examples |
2.1.1-1 |
Provides small examples for use of the fmi_adapter package |
meta-ros2-galactic |
| fmi-adapter-examples |
2.1.1-1 |
Provides small examples for use of the fmi_adapter package |
meta-ros2-humble |
| fmi-adapter-examples |
2.1.2-2 |
Provides small examples for use of the fmi_adapter package |
meta-ros2-iron |
| fmi-adapter-examples |
2.1.2-1 |
Provides small examples for use of the fmi_adapter package |
meta-ros2-jazzy |
| heaptrack |
1.2.0 |
Heap memory profiler for Linux |
meta-oe |
| heaptrack |
1.5.0 |
Heaptrack |
meta-kde |
| kodi-addon-inputstream-adaptive |
20.3.4 |
Kodi inputstream addon for several manifest types |
meta-kodi |
| laptop-battery-monitor |
0.2.1-1 |
Simple script to check battery status |
meta-ros1-melodic |
| laptop-battery-monitor |
0.2.2-1 |
Simple script to check battery status |
meta-ros1-noetic |
| libcapture-tiny-perl |
0.50 |
Capture::Tiny - Capture STDOUT and STDERR from Perl, XS or external programs. |
meta-perl |
| log-any-adapter-daemontools-perl |
0.102 |
In the daemontools way of thinking, a daemon writes all its logging output to STDOUT (or STDERR), which is a pipe to a logger process. Doing this instead of other logging alternatives keeps your program simple and allows you to capture errors generated by deeper libraries (like libc) which aren't aware of your logging API. If you want complicated logging you can keep those details in the logging process and not bloat each daemon you write. This module aims to be the easiest, simplest, most efficent way to get Log::Any messages to a file handle while still being flexible enough for the needs of the typical unix daemon or utility script. |
meta-cpan |
| log-any-adapter-dispatch-perl |
0.08 |
This Log::Any adapter uses Log::Dispatch for logging. |
meta-cpan |
| log-any-adapter-log4cplus-perl |
0.001 |
This Log::Any adapter uses Lib::Log4cplus for logging. |
meta-cpan |
| motion-capture-tracking |
1.0.3-2 |
ROS Package for different motion capture systems, including custom rigid body tracking support |
meta-ros2-rolling |
| motion-capture-tracking |
1.0.5-1 |
ROS Package for different motion capture systems, including custom rigid body tracking support |
meta-ros2-humble |