Our Project Coordinator, Dr. Giuliano Casale will be presenting our project and its technical outcomes, during the session ‘RADON: DevOps for Serverless-Computing’.
Our team presented a software defect prediction tool for IaC to help software practitioners in prioritizing their inspection efforts for IaC scripts.
We would like to invite you to the workshop ‘Serverless applications with the RADON framework’ that our project partner Eficode organises on March 3rd at 16.00 CET!
As a part of the RADON framework, CTT will provide the functionality for defining, generating, executing, and refining continuous tests of application functions, data pipelines, and microservices, as well as for reporting test results.
In this Deliverable the RADON team presents the results of the activities performed within task T2.3: Integrated development environment (IDE), regarding the implementation and maintenance of a web-based IDE to support development activities and integration with the RADON tools.
We would like to invite you to the webinar that our project organises with Eficode, on November 19th at 1.00 pm CET.
The RADON team presents the final version of the RADON technical architecture and integration plan.
In the paper “Data Pipeline Architecture for Serverless Platform”, the RADON team proposes a novel data pipeline architecture for a serverless platform for providing an environment to develop applications that can be broken into independently deployable, schedulable, scalable and reusable modules and efficiently manage the flow of data between different environments.
Following the evolution and changes of the initial specifications that were introduced in RADON’s Deliverable D2.1 ‘Initial Requirements and Baselines’, our team released the Public Deliverable 2.2 ‘Final Requirements’.
Last week on July 2nd, André van Hoorn (University of Stuttgart) and his RADON colleagues Alim U. Gias, Lulai Zhu, Giuliano Casale (Imperial College London), and Thomas F. Düllmann and Michael Wurster (University of Stuttgart) ran a half-day tutorial on “Performance Engineering for Microservices and Serverless Applications: The RADON Approach”.
In this Deliverable the RADON team presents the results of the activities performed within task T2.3: Integrated development environment (IDE), regarding the implementation and maintenance of a web-based IDE to support development activities and integration with the RADON tools.
The RADON team presents the final version of the RADON technical architecture and integration plan.
In the paper “Data Pipeline Architecture for Serverless Platform”, the RADON team proposes a novel data pipeline architecture for a serverless platform for providing an environment to develop applications that can be broken into independently deployable, schedulable, scalable and reusable modules and efficiently manage the flow of data between different environments.
Following the evolution and changes of the initial specifications that were introduced in RADON’s Deliverable D2.1 ‘Initial Requirements and Baselines’, our team released the Public Deliverable 2.2 ‘Final Requirements’.
We are very happy to announce that the very first version of our project’s datasets are available on Zenodo and Github Open Access Platforms.
In the deliverable Deliverable 5.1 ‘Runtime Environment 1’, the RADON team provides a technical overview of the tools that comprise the Runtime Environment within this H2020 funded project.
The Deliverable D4.5 ‘Graphical Modelling Tool’ (version I) presents the initial results of the Graphical Modeling Tool (GMT) development and furthermore relates with the previous deliverables, D2.1 ‘Initial requirements and baselines’ and D4.3 ‘RADON Models I’.
Our team presents an initial version of RADON modeling approach consisting of abstract and deployable entity modeling layers that comprise a set of abstract and technology-specific modeling constructs addressing the RADON modeling challenges.
Today, the profitability of industrial processes depends on the well-timed utilization of new technologies.
Today, the profitability of industrial processes depends on the well-timed utilization of new technologies.