Track 4: Investment Forum & Live Demos
– Preliminary Programme, ICS Conference Room C6 –
Day 1
Opening Ceremony of the QBN Quantum Industry Summit
Oct 10, 10:00 - 10:40 CET, Room C1.1.2
Keynote: The changing impact of deep tech on humanity
Vice Chairman of the Board of Directors and Chief Product Officer
Quantinuum
Accelerating Quantum in Europe - We Are Too Slow, How to Keep Europe’s Technology Edge?
Oct 10, 10:40 - 11:30 CET, Room C1.1.2 - Panel Discussion
Beginning of Track 4
Exclusive Investment Forum - Investors only!
Oct 10, 12:00, Room C6.2
Call for Early-Stage Quantum Ventures
@ EXCLUSIVE Investment Forum
Has your team the potential to drive the commercialization of quantum technologies?
Day 2
Live Hardware & Software
Oct 11, 10:00 - 14:30, Room C6.2 - Live Demos
Quantum chip testing with Orange QS tools
Testing is a key step in a quantum chip development cycle. In contrast to conventional CMOS metrology and testing, quantum chip testing is complex and has specific environmental requirements. Orange QS products make chips based on solid-state qubits easy, affordable and fast.
Q-Alchemy: Bringing your data into the quantum realm
Q-Alchemy solves the bottleneck of bringing classical data into the quantum processor. In technical terms, this is called Quantum State Preparation. Our algorithm tries to remove the quantum complexity to “copy” the state into the quantum computer by exploiting its entanglement structure.
Entanglement-based Multi-Party Quantum Key Distribution
Quantum Optics Jena GmbH is a startup from the field of quantum technologies and was founded in 2020. Our vision is to put the security of communication networks on the foundation of quantum physical laws and to provide solutions with quantum added value. In recent years, the company has established itself as a global provider of entanglement-based quantum key distribution (QKD) systems, offering unique solutions. The demonstration will show a multi-party QKD system as well as their individual components, from entangled photon-pair sources to quantum state analyzers and services for integration into IT networks.
Solving open quantum systems using noisy quantum computers
We will show a live demo of the HQSNoise App, demonstrating how to solve open quantum systems with NISQ devices.
The Qruise ML toolset for accelerating the development of Quantum technology
Join us for an in-depth exploration of the Qruise ML toolset. We'll be presenting advanced features such as Digital Twin integration, optimal control methodologies, comprehensive bring-up and calibration processes, detailed characterization automation, and sophisticated model learning techniques, among others.
Quantum computers on cloud for Industrial use cases
Quandela Cloud offers a wide range of functionalities. First, an intensive documentation is available to walk you through Perceval, our photonic quantum computing framework. Perceval programming language is Python, thus coding on Quandela’s QPUs is seamless. Moreover, you can leverage a wide range of unique algorithms already implemented (resolving PDEs, clustering data, generating certified random numbers, solving logistical problems, computing properties of molecules, and much more). Then, the status and specifications of Quandela’s QPUs are displayed. You can choose the appropriate one, run your job and check its evolution on the job monitoring interface. Last, Usage Explorer enables you to check your usage of compute time.
Imaging Magnetic Fields and Tracking Currents in a Semiconductor Use-Case
Scanning NV microscopy is a powerful tool to visualize magnetic fields and track currents. A deeper understanding the magnetic response of materials in nanoscale magnetic random-access memories will boost the optimization of magnetic random access memory, reducing power consumption for many applications. Tracing signals through a running chip at a spatial resolution compatible with todays semiconductor nodes is a new application made possible by quantum sensing. Key applications are failure analysis and circuit validation in security sensitive ICs. We will show how quickly our scanning NV microscope, the QSM, can be set up and will perform magnetic field and current imaging measurements on a proof-of-concept device highlighting the high sensitivity and fast data acquisition of our system.
