NBEL

Software


OpenVX-Based Python Framework for Real-time Cross-Platform Acceleration of embedded Computer Vision Applications

Article Ref: Vision Systems Theory, Tools and Applications, Frontiers in ICT, 2016, 3(28):10.3389/fict.2016.00028

Code repository: GitHub
Identifier: https://github.com/NBEL-lab/PythonOpenVX

License: GNU General Public License V3
Language of repository: Python 2.7x.

Supporting libraries: OpenVX sample OpenVX implementation and the PyVX package – both are freely available. In order to ease framework installation, we have created a virtual machine that contains the operating system, the compiled environment, and examples. It can be deployed on any VM framework, such as Oracle VirtualBox. Download links and detailed instructions for use are given in the README file, located at the repository. 


Rapid development of entity-based data models for bioinformatics with persistence object-oriented design and structured interfaces

Code repository: GitHub
Identifier: https://github.com/NBEL-lab/BioDataMining

License: GNU General Public License V3
Language of repository: Python 2.7x.

Supporting libraries: the framework uses a series of dependable modules, which are freely accessible: commons-csv V1.2 (https://commons.apache.org/proper/commons-csv/), Apache derby (https://db.apache.org/derby/), eclipselink (https://eclipse.org/eclipselink/downloads/), javax persistence V2.1 (http://mvnrepository.com/artifact/org.eclipse.persistence/javax.persistence/2.1.0), jsoup V1.8.3 (http://jsoup.org/download). All necessary libraries are available in projects’ lib directory. A tutorial and installation instructions are located in the framework’s client/Client.java.


Programmable multi-source embedded control of large-scale integrated microfluidic circuits

Code repository: GitHub
Identifier: https://github.com/NBEL-lab/Integrated_microfluidic_control

License: GNU General Public License V3


Code repository: GitHub
Identifier: https://github.com/NBEL-lab/MicrofluidicModeling

License: GNU General Public License V3

Computer-aided design of valves-integrated microfluidic layouts using parameter-guided electrical models