Quobly and STMicroelectronics Unite to Advance Quantum Technology

Author: Hannah Lewis Updated: 12-12-2024 01:09 AM

Quobly and STMicroelectronics Join Forces

Quobly has embarked on a significant collaboration with STMicroelectronics, aiming to revolutionize the manufacturing of quantum processors. This partnership is poised to propel large-scale quantum computing solutions to new heights, thanks to the advanced semiconductor technologies that STMicroelectronics offers. Their unique 28nm FD-SOI process is set to pave the way for cost-effective quantum computing, addressing growing demands from various sectors.

Innovative Manufacturing Processes

This collaboration is not just about two companies combining their expertise; it signifies a substantial leap towards creating commercially viable quantum processors. The integration of STMicroelectronics' proven manufacturing capabilities with Quobly's groundbreaking quantum technology focuses on achieving scalable solutions that can support a multitude of applications.

Targeting Future Applications

Quobly and STMicroelectronics plan to roll out the first generation of quantum products by 2027. These products will address a wide array of industries, including materials development and systems modeling. By harnessing the power of quantum computing, they can unlock new methodologies in pharmaceuticals, finance, and environmental simulations.

Ambitious Goals Ahead

Quobly aspires to break through the 1-million-qubit barrier by 2031. This visionary target aims to transform sectors such as pharmaceuticals and climate modeling, enabling detailed simulations of complex systems. Achieving this milestone requires innovative R&D efforts, underscoring the rapid evolution of quantum technology.

Benefits of Collaboration

The collaboration's initial phase will see both companies customizing ST's 28nm FD-SOI process to meet Quobly's specific requirements. They are set to develop a quantum machine capable of housing 100 physical qubits, demonstrating scalability beyond 100,000 qubits in production environments.

Expert Insights

Maud Vinet, CEO of Quobly, expressed her optimistic take on this collaboration, stating that it marks an unparalleled advancement in the quantum computing field. STMicroelectronics' prowess in semiconductor manufacturing can significantly accelerate the journey towards a fully operational fault-tolerant quantum computer.

Statement from STMicroelectronics

Remi El-Ouazzane from STMicroelectronics emphasized the transformative potential of quantum computing across industries, including AI and security. He believes their combined efforts will facilitate the development of economically viable quantum solutions, which harness their respective capabilities in semiconductor design and manufacturing.

The Future of Quantum Computing

As the partners work towards making quantum computing accessible and efficient, Eric Mounier, Chief Analyst at a leading research group, pointed out that successful quantum computers must also be tailored to address the requirements of size, weight, power, and cost. This is where semiconductor-enabled scalability becomes essential, as it promises to make significant strides in practical applications.

A Bright Future Ahead

Quobly is on the cutting edge of quantum innovation with its commitment to developing scalable, fault-tolerant quantum computers. This partnership with STMicroelectronics promises to bridge crucial gaps in the production of qubits, paving the way for the mass manufacturing necessary in the quantum sector.

Frequently Asked Questions

What is the goal of the Quobly and STMicroelectronics collaboration?

The collaboration focuses on advancing quantum processor manufacturing to create scalable, cost-effective quantum computing solutions.

When can we expect the first commercial quantum products to be available?

The companies aim to introduce their first generation of products by 2027, targeting various applicative markets.

What are Quobly's ambitious targets for the future?

Quobly aims to break the 1-million-qubit barrier by 2031, expanding the applications of quantum technology across multiple sectors.

How does STMicroelectronics contribute to this partnership?

STMicroelectronics provides advanced semiconductor manufacturing processes, aiming to facilitate large-scale production of quantum processors.

What are the benefits of integrating semiconductor technology with quantum computing?

Integrating semiconductor technology enables scalable solutions, addressing critical factors such as size, weight, power, and cost, making quantum computers more practical.

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