Our Clients
Program Menu
Our quantum technology support covers everything from consulting and education to joint research and algorithm development — all designed in close alignment with your business goals and technical environment.
Consulting
Through our consultation services, we help determine whether your business can gain advantages like computational speedups by leveraging quantum technologies.
Talent Development
We provide training and education to develop talent who understand and can effectively apply quantum technologies. Based on your specific needs, our programs cover a broad range — from foundational knowledge in quantum principles to advanced training for quantum algorithm developers.
Joint Research
We work with you to identify specific themes where your services or applications could benefit from quantum technologies—such as computational speedups—and conduct proof-of-concept studies using quantum simulators or real quantum hardware.
Software Dev.
We offer development support and contract-based services for integrating quantum technologies into your services and applications — including both system and algorithm design.
Industry Collaboration Case Studies
At Quemix, we collaborate with leading technology companies across diverse industries — including automotive, semiconductors, electronic components, chemical materials, pharmaceuticals, aerospace, transportation and logistics, construction, and finance — to develop use cases and conduct joint research on quantum algorithms using quantum computing.
Our efforts go beyond simulations: we conduct proof-of-concept experiments using real quantum hardware to explore technical feasibility and accelerate real-world adoption.
We also actively promote the outcomes of our collaborations through joint academic publications, shared intellectual property agreements, and presentations at conferences, industry events, and symposiums.
Join us in collaborative research to unlock the potential of quantum technologies.
Honda R&D Co., Ltd.,
May 14, 2025 Announcement
Quemix and Honda Co-Develop a New Technology for Reading Quantum States — Achieving the World’s First Successful Quantum Computation for Material Simulation Using a Real Quantum Computer.
Quemix and Honda R&D Co., Ltd., the research and development division of Honda Motor Co., Ltd., have launched a joint research initiative in the field of quantum chemistry simulations using quantum computing.
As the first major achievement of this collaboration, the teams successfully co-developed a novel quantum state readout technique, which is essential for running accurate simulations on quantum computers. Furthermore, they executed X-ray Absorption Fine Structure (XAFS) calculations on an actual quantum computer.
This marks the world’s first successful computation on logical qubits using a real quantum device for material development applications.
NGK Insulators, Ltd.
May 7, 2025 Announcement
Collaborative Study with NGK Insulators Verifies the Effectiveness of Quantum Computing in Generating Machine Learning Potentials
Quemix has collaborated with NGK Insulators, Ltd. (hereafter “NGK”) to evaluate the effectiveness of quantum computing in the development of machine learning potentials for material simulations.
In this joint effort, NGK examined potential real-world applications from a materials manufacturer's perspective in anticipation of future quantum computing advancements. Meanwhile, Quemix developed an equivariant quantum neural network — a machine learning potential that incorporates the symmetry properties of the target material — and together, the two companies successfully verified its effectiveness through joint evaluation.
Asahi Kasei Corp. The University of Tokyo National Institutes for Quantum Science and Technology
March 11, 2025 Announcement
Predicting Qubits Emerging in Aluminum Nitride Crystals via Hybrid Quantum–Supercomputer Computing
— Material Discovery Using FTQC Algorithms on Real Quantum Hardware —
Quemix, Asahi Kasei Corporation, the University of Tokyo, and the National Institutes for Quantum Science and Technology (QST) have jointly conducted quantum chemistry simulations using a hybrid computing architecture that combines Quantinuum’s quantum computer with the University of Tokyo’s supercomputer at the Institute for Solid State Physics.
Through this collaboration, the team revealed that complex defects in aluminum nitride (AlN) crystals could potentially function as novel qubit candidates. In a world-first achievement (as of the end of February 2025, based on published literature, per Quemix), they successfully executed quantum chemical calculations on logical qubits using an FTQC (Fault-Tolerant Quantum Computing) algorithm on a real quantum computer.
This work demonstrates that hybrid computing — combining quantum and supercomputing resources — is a powerful tool for advancing quantum chemistry and materials informatics.
Quantum Technology Support Program
Our team of quantum computing specialists leverages our proprietary quantum algorithm intellectual property, cutting-edge research expertise, and development know-how to support a wide range of initiatives. These include quantum computing consultations, quantum talent development, use case creation, and joint research on quantum algorithms.
Looking ahead to the coming era of practical quantum computing, we are also here to help adapt and develop your applications for quantum platforms.
Use Case development
&
Joint Research
We provide tailored support for developing quantum use cases and conducting joint research to solve your technical issues.
Human resource development for quantum computers
Supporting quantum human resource development for the era of practical quantum computers
Quantum software development
We support the development of quantum computer-compatible applications for our customers.
