Breakthrough in the EuroHPC Initiative: First Successful Integration of a Supercomputer with a Quantum Platform
The EuroHPC consortium has announced a historic success: the computing power of a classical supercomputer has been successfully combined with a quantum system to execute a complex hybrid algorithm. This is a giant leap for European science. For the QLAB Center, it validates our direction. The energy-efficient artificial intelligence algorithms we are developing fit perfectly into this global trend.
QLAB Enters the Hardware Phase: Laboratory Expansion and a New Chapter in Photonics Research
The QLAB project is gaining momentum! Following Prof. Magdalena Stobińska-Moretto officially joining the faculty at the University of Warsaw’s Faculty of Physics, the Center is beginning a crucial stage of infrastructure expansion. Modern equipment, purchased with FENG funds, will strengthen the potential of the Quantum Imaging Laboratory and the Quantum Photonics Laboratory, enabling a faster transition from theory to prototyping technology demonstrators.
Photonics Breakthrough: Room-Temperature Entanglement Accelerates the Development of Hybrid Quantum Networks
The latest discovery by Stanford University researchers proves that advanced quantum communication no longer requires extreme cooling. By utilizing “twisted light,” scientists successfully entangled photons and electrons at room temperature. This is a fundamental step toward developing scalable photonic circuits, which we directly integrate with classical infrastructure at the QLAB Center.