In collaboration with our alliance partners, our collective aim is to create a cutting-edge high-performance development platform – called the EdgeVision Platform – that meets diverse industry needs. The shared vision is to establish a versatile and adaptable technology solution that empowers innovation across multiple sectors.
This platform will stand out from global competitors due to the innovative integration of energy-efficient microchips, including
01.06.2023 – 31.05.2026
Twenty-five German research institutions and companies are working on a quantum computer with improved error rates in the collaborative project QSolid – the largest of its kind in Germany.
In the medium term, the quantum computer shall be able to control 10 qubits, and in the long term even 30 at the highest possible fidelity. The project aims to develop a comprehensive ecosystem that will be integrated into Forschungszentrum Jülich’s supercomputing environment JUNIQ and made accessible to external users.
01.01.2022 – 31.12.2026
Within the European Penta project, XSR-FMC, a new flash memory controller platform will be developed that will improve flash memory storage systems’ security, safety and reliability. Furthermore, these controllers will significantly reduce energy consumption, contributing to greater sustainability. The XSR-FMC consortium includes design and manufacturing specialists in flash controllers, semiconductor design and security to address these complex requirements.
The initial design will offer high reliability for an extended temperature range, long life–time, ultra-low power consumption, certifiable security (EAL3+), error correction and robustness to sudden power failures.
This European collaboration will expand Europe’s commercial position in technology required for new generation of flash memories and strengthen its capabilities in secure data infrastructure and storage.
14.10.2019 – 31.05.2024
Low-voltage circuit techniques for ultra-low power mixed-signal systems: Adaptive methods for mixed-signal circuits.
The goal of the project is to explore circuit techniques to operate mixed-signal circuits at low supply voltages and thus low power dissipation. The main aspect is to optimize these circuit techniques also with respect to robustness and feasibility with high yield in manufacturing, in order to obtain solutions that are economically feasible.
01.08.2019 – 31.07.2021
Development of a new GlobalFoundries® 22FDX® semiconductor technology node to become the new industry benchmark: Optimized Adaptive Body Biasing IP and implementation flow to improve power dissipation and performance.
The overall goal of the project is to develop a new 22FDX® technology variant “22FDX+” that is significantly superior to competitive offerings for the combination of performance, power and area (PPA) metrics.
01.10.2018 – 30.09.2021
IPCEI – Universal 22FDX-Platform for IoT-Products and Industry 4.0
Within this project, Racyics will develop a universal product development platform as a system-on-chip, implemented in the 22FDX technology. The platform will allow its users to develop, implement and prototype products and services covering a very broad range of tasks in the fields of IoT and industry 4.0. At the same time, the platform SoC enables immediate market entry by accommodating low to mid-volume production. Any SoC configuration can be transferred into an application specific integrated circuit (ASIC) with very low effort, enabling very fast ramp-up of volume production in the 22FDX technology. Racyics will offer the platform SoC to ASIC transformation as a service. Accompanying the project, the emergence of an ecosystem will be stipulated to bolster software development and services around the universal IoT products platform.