The Eclipse Passage project aims to provide rich and easily adoptable capabilities to define and control licensing constraints.
The usage story starts in Licensing Operator client:
IoT is a multi-faceted topic, seen by many as a much-needed redefinition of embedded computing. The efficiency and performance of current CPUs, along with a decreasing footprint, enable broader products and solutions across multiple domains, such as home, industrial automation, environment, agriculture, transportation, safety, security, control systems, robotics, wireless sensor networks, and wearables. Sensing devices manifest in various categories and applications.
Conceived in 2014, the Eclipse MRAA project aimed to deliver a high-level, easy-to-use set of APIs for I/O access on Linux* boards and systems, similar to Arduino* offerings for MCU boards. At the time, the project targeted support for platforms such as Intel® Galileo, Intel® Edison and Raspberry Pi* boards, highly popular among IoT enthusiasts and makers.
Eclipse Trinity is a cross-platform toolkit built with React / React Native, and with additional native components where necessary.
Core modules support basic functions such as seed storage, address generation and signing.
Eclipse Jemo aims to take the ease of use of the Jakarta EE platform into the public cloud. In building Jemo we choose to focus on embracing the technology and pace of change provided by CSP's such as Amazon (AWS), Microsoft (Azure), and Google (GCP). The major CSP's provide many of the core application software technologies that are used to build modern applications (examples are things like Pub/Sub queue systems, Streaming, BigData, HTTP/S, Batch processing, etc). Jemo aims to harness PaaS services as they become available on underlying CSP's and allow these services to be used transparently by developers to build applications while avoiding all lock-in to the underlying provider.
Create the specification in Jakarta EE to help Jakarta EE developers create enterprise-grade applications using Java® and NoSQL technologies. It helps them create scalable applications while maintaining low coupling with the underlying NoSQL technology.
The development of the new API will use Eclipse JNoSQL as a starting point (first compatible implementation and inspiration for the APIs and TCKs):
Eclipse Oscano project aims to develop and distribute a complete software composition analysis solution installable on cloud, local server or workstation environment.
Main use cases of Oscano include Open Source license compliance management, open source inventory management, vulnerability remediation automation and software analysis reporting.
The toolset supports the visual and textual editing of specifications using UML 2.4 class diagrams, OCL 2.4 and a textual activity language. These specifications can be analysed for technical debt and other flaws, and code in ANSI C, Java, C# and C++ can be generated. A Python generator is also provided in a pre-release version. The tools have been used for educational purposes on large software engineering undergraduate courses, and to develop industrial-scale applications in finance and model transformation engineering.
The main purpose of this project is the ongoing development and maintainance of the Eclipse Signalling Engineering Toolbox (in the following simly called toolbox).
The project offers a set of core functionality to work with RPM and Debian package files in plain Java. This functionality is offered in simple JAR variant to create your own solutions, or in ready-to-run tools like an Apache Maven plugin.