Here begins our new MIRAI.
The “Moonshot R&D Program” aims to create disruptive innovations originating in Japan, promoting ambitious R&D based on daring ideas that are not just extensions of conventional technologies.

Moonshot Goal 6:
Realization of a fault-tolerant universal quantum computer that will revolutionize economy, industry, and security by 2050.

Quantum Machines (QM) accelerates the realization of practical quantum computing that will disrupt all industries. Our comprehensive portfolio includes state-of-the-art control systems and cryogenic electronic solutions that support multiple quantum processing unit technologies. QM's OPX family of quantum controllers leverages unique Pulse Processing Unit (PPU) technology to deliver unprecedented performance, scalability, and productivity. Easily programmable at the pulse level or gate level (OpenQASM3), OPX runs even the most complex quantum algorithms right out of the box – Including quantum error correction, multi-qubit calibration, mid-circuit frequency tracking, and more. With hundreds of deployments, Quantum Machines’ products and solutions have been widely adopted by national and academic research labs, HPC centers, quantum computer manufacturers, and cloud service providers. For more information, please visit quantum-machines.co.

Quantum Motion is a fast-growing quantum computing start-up based in London founded by internationally renowned researchers from UCL and the University of Oxford with over 40 years’ experience in developing qubits and quantum computing architectures. Bringing together state-of-the-art cryogenic facilities and an outstanding interdisciplinary team, we are developing quantum processors based on industrial-grade silicon chips, with the potential to radically transform computing power in areas such as materials modelling, medicine, artificial intelligence and more.

Basel Precision Instruments GmbH (BASPI) provides high-end ultra-stable laboratory electronics for quantum and low-temperature applications. At BASPI, we aim to create better access to the quantum world by reducing noise and increasing resolution. BASPI offers the lowest noise preamplifiers, the most stable voltage sources, and the most efficient cryogenic microwave filtering and thermalization solution available. BASPI's products are enabling researchers to reach new heights in hundreds of university, government and industrial labs worldwide.

We are dedicated to build easy to operate one push button cool-down cryogen-free dilution refrigerator measurement systems. Our dedication and expertise will make sure that each final product is trouble free with a guaranteed long lifetime.

We offer a variety of models of dilution refrigerator measurement systems and these models can be further equipped with a wide range of options, for example, experimental wiring, optical access, and magnet integration. Our systems can be customized to meet the requirements of each intended use by allowing the customer to get in direct contact with the scientists and engineers that design their system.

Diraq aims to redefine scalable quantum computing and bring practical commercial applications to the world via billions of qubits on single chip, compared to the hundreds of qubits that exist today. We will be an end-to-end quantum computing provider – providing quantum hardware and software as a full stack, cloud accessible service.
Our proprietary technology, backed by 20 years of research and over $100m in funding across 9 patent families, allows us to scale using existing silicon CMOS manufacturing and existing foundries, to produce a faster and cheaper road to market.
Our world leading team, existing IP and partnerships with global technical and commercial partners will build the quantum ecosystem of the future and enable the creation of significant economic returns across the value chain. 

Equal1 is a pioneering silicon quantum computing company dedicated to making quantum computing affordable and accessible.

Quantum Computing offers unprecedented potential to unlock societal advancements in areas such as climate modelling, carbon capture, drug discovery, and AI training. Equal1's pioneering Quantum System-on-a-Chip (QSoC) processors integrate entire quantum computing systems onto a single chip, merging millions of qubits, control systems, and real-time error correction capabilities. These QSoCs, built via standard foundry processes, form the core of the world's most powerful, compact quantum computers, designed for deployment into standard HPC environments.

IGNITE (Integrated germanium quantum technology) is an EU-funded project with the ambition to develop semiconductor quantum processors based on germanium qubit systems.

We are a multidisciplinary group of academic and industry leaders, that aim to demonstrate a quantum advantage using semiconductor technology and designing a blueprint for large-scale quantum computers.

Join now our open online course “Development and Applications of Germanium Quantum Technology” at

Nanoacademic has been developing a novel TCAD software package, called QTCAD®, appropriate for simulations of spin qubits in semiconductor quantum dots. QTCAD® is commercially available for both academic and corporate users with regular updates including new features to better describe quantum hardware systems. Through a user-friendly Python API and an exclusive adaptative meshing technique, QTCAD® takes arbitrary 2D or 3D device geometries as inputs to various finite-element solvers relevant to quantum-dot physics, enabling to predict electrostatic and transport properties of quantum-dot devices.
A complete list of currently available QTCAD® features can be found on Nanoacademic’s website (https://www.nanoacademic.com/products) these features are expected to significantly accelerate development cycles for most quantum-dot-based quantum technologies.

With a dedicated team of scientists, engineers and developers, Qblox supports scientists worldwide with our scalable qubit control and readout equipment from ultrastable DC to 18.5 GHz. Our company is based in the Netherlands as a spinout of QuTech, which enables us to implement the latest scientific insights and take a position upfront in the worldwide race towards quantum advantage.

Using the technology developed at QuTech as a springboard, the Qblox team has fundamentally reimagined the architecture of quantum control to create a single fully-integrated control stack that provides all the functionality needed to manipulate and measure quantum computers. The Qblox control stack combines unlevelled noise performance, low-latency arbitrary control flows and can be scaled up to 100s of qubits.

Qblox provides an open-source software stack, called Quantify, to control experiments on Qblox hardware. Quantify is a python-based, high-level data acquisition platform focused on providing all the necessary tools for Quantum Computing experiments. It is built on top of QCoDeS, and is the successor of the extensively tested PyQED measurement environment. The simple software framework enables setting-up typical characterisation experiments and advanced experimental procedures with ease of use.

The Qblox team is interested in meeting experimental quantum physicists to learn about their applications and how Qblox could support their scaling needs.

Zurich Instruments makes cutting-edge instrumentation for scientists and technologists in advanced laboratories who are passionate about phenomena that are notoriously difficult to measure. The company’s hardware offering includes lock-in amplifiers, quantum computing control systems, impedance analyzers, and arbitrary waveform generators.

Zurich Instruments brings innovation to quantum control systems in the form of efficient workflows, tailored specifications and feature sets, and a high degree of reliability. The company's goal is to support quantum researchers and engineers by allowing them to focus on developing and scaling up quantum processors and other elements of the quantum stack while benefiting from the most advanced classical control electronics and software.

Keysight delivers advanced design and validation solutions that help accelerate innovation to connect and secure the world. Keysight’s dedication to speed and precision extends to software-driven insights and analytics that bring tomorrow’s technology products to market faster across the development lifecycle, in design simulation, prototype validation, automated software testing, manufacturing analysis, and network performance optimization and visibility in enterprise, service provider and cloud environments. Our customers span the worldwide communications and industrial ecosystems, aerospace and defense, automotive, energy, semiconductor and general electronics markets. Keysight generated revenues of $4.9B in fiscal year 2021. For more information about Keysight Technologies (NYSE: KEYS), visit us at www.keysight.com

Invitation for sponsors

Purpose of the event
In the continuation of the workshop tradition, the event will focus on silicon-based quantum science and enabling technologies such as quantum dots, dopants and cold electronics. Our goal is to bring academic, governmental, and industrial researchers together to discuss the latest advances in the field, which are at the forefront of quantum science and technologies. All delegates are encouraged to submit abstracts for scientific talks and posters, especially students and postdocs. By sponsoring our event, you will contribute to maximizing graduate trainees’ participation to the event by decreasing their registration fees.

Target Attendees
The event is the most important event for our community, gathering all players of the field across the world once every year. We expect 200+ delegates from industry, academic groups, and government labs, including principal investigators, research professionals, postdocs, and students.

Sponsorship opportunities
Partners gain increased exposure by sponsoring parts of the event, including the banquet, exhibition spaces, online presence, etc.
For further information on sponsoring, please contact the organizing committee at info@siqew2023.jp .