Forschungszentrum Jülich

ERC Synergy Grant to Team from Jülich and Groningen

Why do crowds wait patiently – and when does the mood change? How is it that queues can suddenly break down and turn into a crush? Researchers from Forschungszentrum Jülich and the University of Groningen seek to find the answers to these and similar questions in the CrowdING project, which has now been awarded one of the prestigious Synergy Grants by the European Research Council (ERC).

Agriculture of the future

Potential and Challenges of Agrivoltaics

What are the benefits of placing solar panels over agricultural land and where do they make sense? An international team, including researchers from Forschungszentrum Jülich, has investigated these questions. We asked Dr. Onno Muller and Dr. Matthias Meier-Grüll from Jülich’s Institute of Bio- and Geosciences – Plant Sciences about the technology’s global potential and the hurdles that still need to be overcome.

Exascale class

Europe’s First Supercomputer Reaches 1 ExaFLOP/s

JUPITER at Forschungszentrum Jülich has become the first supercomputer in Europe to reach the milestone of 1 ExaFLOP/s – equivalent to one quintillion, or 1,000,000,000,000,000,000 computing operations per second. At the same time, JUPITER ranks as the fourth-fastest supercomputer in the world and the most energy-efficient system in the Exascale class.

Hybrid high-performance computing and quantum simulator

Inauguration of Jade and Ruby Quantum Processors

The High-Performance Computing and Quantum Simulator hybrid (HPCQS) project has reached a major milestone with the inauguration of two Pasqal quantum processors —Jade and Ruby— respectively situated at Forschungszentrum Jülich (FZJ) and Commissariat à l’énergie atomique et aux énergies alternatives (CEA).

Understanding Crowds

ERC Synergy Grant to Team from Jülich and Groningen

Knowledge. Creation.

Grasping the present. Shaping the future. We research to revolutionize information processing, to transform the energy sector, and to develop a biobased circular economy. Across disciplines, creatively, and successfully.

7,571

employees

26

ERC Grants

2,390

publications

NEWS

New Insights into Cellular Quality Control

Jülich Researchers Uncover Mechanism at Calcium Channels

Prof. Patricia Hidalgo, Dr Beatrix Santiago-Schübel, and Dr Mercedes Alfonso-Prieto from different Divisions at Forschungszentrum Jülich investigated in an interdisciplinary project, how cells recognise and remove defective calcium channels – work that could prove significant not only for basic science, but also for future therapies for neurodegenerative diseases.

Quantum optimization

Symmetries in Quantum Algorithms: Researchers Analyze the Structure of QAOA

How can quantum algorithms be better understood and more effectively improved? Researchers from Forschungszentrum Jülich (Germany) and Los Alamos National Laboratory (USA) have taken a closer mathematical look at the well-known Quantum Approximate Optimization Algorithm (QAOA).

Materials Science

Seeing Beyond – Watching Nanoparticles Evolve to Design More Stable Catalyst Materials

How do catalysts form, and why do they lose activity over time? An international team of researchers from Forschungszentrum Jülich, the University of Stuttgart, the Karlsruhe Institute of Technology and other institutions addressed these questions by examining the process at an atomic level using advanced in situ electron microscopy.

Our 3 strategic research priorities

Information

The priority of information combines Jülich research in three areas: simulation and data science in high-performance-computing (HPC), brain research, and research on bio- and nanoelectronic information technologies of the future. Quantum technologies are another priority at Jülich.

Energy

Jülich energy research concentrates on an energy system based on renewable energy. Scientists research technologies on all scales – from the atomic level right up to industrial innovations – covering the entire value chain from basic to applied research.

Bioeconomy

The sustainable bioeconomy is a biobased circular economy that does away with fossil resources and utilizes renewable resources instead. Scientists from Forschungszentrum Jülich are developing new value creation processes.

Helmholtz Research Fields

As a founding member of the Helmholtz Association, we are part of the largest German research organization and contribute our top-class expertise to four of the six Helmholtz Research Fields: Energy, Matter, Information, and Earth & Environment.

At Jülich, we conduct research in the fields of digital transformation, climate protection, the energy transition, and the sustainable circular economy. Our research strengthens the technological and digital sovereignty of our country. It is important to me to use the potential that arises from scientific findings and innovations for practical application.
Prof. Dr. Astrid Lambrecht, Chair of the Board of Directors of Forschungszentrum Jülich

Topics

JUPITER

JUPITER, the first European exascale supercomputer, is set to be launched at Forschungszentrum Jülich. JUPITER is the first system in Europe with a computing power of more than one quintillion floating-point operations per second

AI

AI is already revolutionizing many areas of life. With our infrastructure and expertise, we are working towards fully and safely exploiting the potential of this technology in the future.

Quantum technologies

Quantum computers are changing computing in a fascinating way. At Jülich, we are testing systems and prototypes that users from all over Europe can utilize for their development work.

JUNIQ

The ‘Jülich UNified Infrastructure for Quantum computing’, or JUNIQ for short, is the world's first quantum computing infrastructure to offer users from science and industry access to a variety of quantum systems at different stages of development.

Sustainability

Our findings make an important contribution to achieving global sustainability goals. Our research is also sustainable and we use resources responsibly.

Hydrogen

Hydrogen is set to become a mainstay of the energy transition. But sustainable and marketable technologies are needed first. We are testing possible solutions.

Neuromorphic Computing

Computers modeled on the human brain, so-called neuromorphic systems, are much more economical than conventional computers.

Atmosphere and Climate

Often invisible to the human eye, they influence the global climate: chemical and physical processes in the atmosphere. We are tracking down these processes.

effzett - Forschungszentrum Jülich's magazine

Jülich researchers are combining quantum computers with supercomputers. Such hybrid systems are intended to unite the advantages of both worlds and crack previously unsolvable scientific puzzles.