Scalable, GDPR-Compliant Cloud Environments +//+ Classical VS Quantum Computing

At our on-site meetup in Vienna, we'll take care of food, drinks and 2 awesome talks. You just need to bring you ;-)

Chaima Tai will kick off, how developers can leverage Exoscale's cloud infrastructure to create and manage scalable environments that boost development speed. Next, Ardit Ymeri will describe some fundamental notions on Computability and Complexity Theory including some code examples.

Both talks will be presented in English. RSVP now for an evening of learning and fun!
The meetup will be at the innovation hub "weXelerate" - Praterstraße 1, 1020 Vienna - with pizza/buffet, drinks, snacks & more.

Agenda

• 17:30 Walk in
• 18:00 Food
• 18:30 Talk 1 (see below)
• 19:30 Break
• 19:45 Talk 2 (see below)
• 20:45 Drinks & Fun

First talk: "Empowering Developers: Scalable, GDPR-Compliant Cloud Environments" by Chaima Tai (Exoscale)
This talk aims to help developers and tech enthusiasts grasp how they can leverage Exoscale's cloud infrastructure to create and manage scalable environments that boost development speed.

Exoscale is a cloud provider that adheres to GDPR regulations and remains unaffected by the Cloud Act's jurisdiction.
We focus on the user-friendly experience and efficiency that Exoscale provides, with a special emphasis on features like security, monitoring, containerisation, and infrastructure as code.
Key takeaway: Crafting cloud solutions meeting modern scalability and regulatory needs.

About Chaima Tai
Shayma, Cloud Solution Architect, specialised in DevOps and Cloud based applications. Her goal is to use her knowledge to assist customers in designing the finest architecture and technologies choices that meets their requirements, on an infrastructure provided by Exoscale.

Second talk: "Complexity Theory in Classical vs Quantum Computing" by Ardit Ymeri (OpenValue)
The recent development on Quantum Computing are bringing important implications in Computer Science. For example, the Extended Church-Turing thesis states that any ‘physically realizable’ model of computation can be simulated by a Turing Machine with at most polynomial overhead. The development of a reliable large scale Quantum Computer would raise essential questions on the validity of this thesis.

In the first part of this talk Ardit will describe some fundamental notions on Computability and Complexity Theory. The focus is on pointing out the classes of problems where Quantum Computers present a key advantage compared to their classical counterparts.
Ardit will proceed in the second part by showing some code examples and illustrating how to write programs for Quantum Computers.

About Ardit Ymeri
Ardit Ymeri is a Senior Software Engineer at OpenValue Vienna. He is enthusiastic about studying Theoretical Computer Science and AI. Ardit has collected 8+ years of experience in software engineering that includes development of static analyzers, Java refactoring tools, code code transformers with applications on large scale financial institution systems, and more. He likes analyzing complex problems.

OpenValue GmbH in Vienna is part of OpenValue Group - premium consulting companies specialized in providing flexible and high-quality ICT services in the fields of Java software development and Software architecture.

Exoscale is a member of A1 Digital International GmbH, which was launched in 2017 and focuses on end-to-end IoT solutions, cloud-based solutions, cybersecurity, and network as a service.

OpenValue and Exoscale love to share knowledge <3

Question? Do not hesitate to contact me here or via [thomas.uecel@openvalue.at](mailto:thomas.uecel@openvalue.at), if you have any kind of questions!