23 November 2023 – At Qbee, our mission is to pioneer the frontier of quantum computing, driving innovation through cutting-edge quantum software development. We are dedicated to revolutionizing computational capabilities in chemistry, Earth observation, and genomics, unlocking unprecedented insights and solutions to address some of the most complex challenges facing humanity.

In the realm of chemistry, we aim to reshape molecular understanding by harnessing the power of quantum algorithms. Our quantum software empowers researchers to simulate and analyze molecular structures with unrivaled precision, accelerating the discovery of novel materials, pharmaceuticals, and sustainable solutions.

In Earth observation, we strive to elevate the potential of quantum computing to interpret vast and intricate datasets. By developing quantum algorithms, we enable precise analysis of environmental factors, fostering a deeper understanding of our planet’s dynamics and contributing to informed decision-making for a sustainable future.

In genomics, our quantum software endeavors to decode the complexities of genetic information. We are committed to advancing computational genomics, providing researchers and healthcare professionals with tools to unravel the intricacies of DNA, accelerate personalized medicine, and enhance our understanding of the fundamental building blocks of life.

Our mission is rooted in a commitment to innovation, scientific excellence, and societal impact. By pushing the boundaries of quantum software development, we aim to usher in a new era of computational possibilities, empowering scientists and researchers to explore, discover, and contribute to the betterment of humanity.

A short talk by Professor Bertels on the field:





QBee Mission

A decade ago, one of QBee’s founders initiated quantum computing work in Delft, securing a collaboration with Intel in the U.S. to develop an early quantum chip. This collaboration extended to an intensive partnership with Delft’s superconducting team, resulting in a substantial quantum chip with over 30 qubits. This early venture set the stage for QBee’s evolution.

Now QBee based in Belgium and founded by people from academia, focuses on advancing quantum computing in applications, algorithms, and software. Positioned at the forefront of quantum computing research, QBee is dedicated to expanding the practical applications of quantum technology. Rooted in academic expertise, QBee is poised to contribute significantly to the quantum computing landscape, driving innovation in algorithms and software solutions. Their commitment to research and development establishes them as a key player in advancing quantum computing, contributing to its transformative growth.


Quantum Technology

QBee has defined the full stack for a quantum accelerator. It starts at the application layer and, as a company, focuses on Quantum Genetics and Quantum Chemistry.   Any application is then executed by different, fully integrated layers such as the programming language, the micro-architecture up to the quantum simulator.

Logic and programming

QBee has now moved to the public domain platform, called Qiskit.



The entire micro-architecture controls the execution of any application on the quantum accelerator.



The QBeeSim simulator computes the new amplitudes for the intermediate qubit states.



Quantum Computing and Earth Observation (EO) Earth observation involves gathering and analyzing data about the Earth and its environment through...


Genetics Nucleic acids like DNA and RNA are very long, thread-like polymers, made up of a linear array of monomers...

QBee Main Focus

The research detailed in this context represents a pioneering effort in the early exploration of quantum computing applications. It is situated within a dynamic landscape marked by the emergence of quantum computing technologies. Notably, a significant technological readiness gap persists between the resource demands of practical quantum algorithms and the current capabilities of physical quantum processors. This disparity prompts researchers to operate with a hardware-agnostic mindset, emphasizing the theoretical aspects of quantum computing algorithms. Consequently, the primary focus lies in establishing theoretical proofs that highlight the computational advantages offered by quantum algorithms, irrespective of the ongoing developments in quantum hardware. This approach underscores the fundamental drive to demonstrate the transformative potential of quantum computing, paving the way for advancements that transcend current hardware limitations.
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