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Difference between revisions of "MulticorePerformanceOptimization"
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− | This wiki page will contain information about Eclipse projects related to the topic, e.g., the [https://www.eclipse.org/app4mc/ Eclipse APP4MC project | + | This wiki page will contain information about Eclipse projects related to the topic, e.g., the [https://www.eclipse.org/app4mc/ Eclipse APP4MC project]. |
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* Integration Papyrus-RT and APP4MC | * Integration Papyrus-RT and APP4MC | ||
* Integration CDT / APP4MC | * Integration CDT / APP4MC | ||
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+ | == Initial Rover Contributions == | ||
+ | |||
+ | Along with an AMALTHEA4public internal Hackathon during January 2017, rover contributions were collected to provide easy demonstrations of APP4MC capabilities. Such contributions include: | ||
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+ | * 3D model (.stl file format) to print an enclose attachable to the rover incorporating the Raspberry Pi, the power bank, 4 side-facing infra-red sensors, front and rear-facing ultrasonic sensors, the PI camera and necessary wiring | ||
+ | * basic implementation of accessing sensor values for temperature, distances (IR & US), and camera images | ||
+ | * AMALTHEA model utilisable by APP4MC representing basic C implementations | ||
+ | * short tutorial on how to perform parallelisation within APP4MC und utilise results with a generated config file | ||
+ | |||
+ | Whereas some of the contributions are ready, others take some more efforts. Results are distributed either on the current rover GitHub, on this wiki page, and / or at the APP4MC webpage. |
Latest revision as of 06:44, 20 January 2017
This wiki page will contain information about Eclipse projects related to the topic, e.g., the Eclipse APP4MC project.
Help needed
To help us, we need collaborators:
- Linux as a target for APP4MC Models
- Extend the Polarsys Rover to multicore with APP4MC
- Integration Papyrus-RT and APP4MC
- Integration CDT / APP4MC
Initial Rover Contributions
Along with an AMALTHEA4public internal Hackathon during January 2017, rover contributions were collected to provide easy demonstrations of APP4MC capabilities. Such contributions include:
- 3D model (.stl file format) to print an enclose attachable to the rover incorporating the Raspberry Pi, the power bank, 4 side-facing infra-red sensors, front and rear-facing ultrasonic sensors, the PI camera and necessary wiring
- basic implementation of accessing sensor values for temperature, distances (IR & US), and camera images
- AMALTHEA model utilisable by APP4MC representing basic C implementations
- short tutorial on how to perform parallelisation within APP4MC und utilise results with a generated config file
Whereas some of the contributions are ready, others take some more efforts. Results are distributed either on the current rover GitHub, on this wiki page, and / or at the APP4MC webpage.