quick search
Today:

Quobly announces key milestone for fault-tolerant quantum computing

Dec 11, 2024 MARKET IDOPRESS

GRENOBLE,France and SAN FRANCISCO,Dec. 10,2024 -- Quobly,a leading French quantum computing startup,has reported that FD-SOI technology can serve as a scalable platform for commercial quantum computing,leveraging traditional semiconductor manufacturing fabs and CEA-Leti's R&D pilot line.


Quobly device based on FD-SOI undergoing testing & measurements

The semiconductor industry has played a pivotal role in enabling classical computers to scale at cost; it has the same transformative potential for quantum computers,making them commercially scalable and cost competitive. Silicon spin qubits are excellent for achieving fault-tolerant,large-scale quantum computing,registering clock speeds in the µsec range,fidelity above 99% for one and two-qubit gate operations and incomparably small unit cell sizes (in the hundredths of 100nm²).

To capitalize on decades of semiconductor infrastructure investments,Quobly has adopted a fabless model. It focuses on FD-SOI,a commercially available CMOS technology manufactured by global leaders like STMicroelectronics,GlobalFoundries,and Samsung,as a platform for quantum computing.

Quobly's work,reported on December 9th,2024 at IEDM,addresses the critical challenges for scaling quantum systems. With CEA-Leti,CEA-IRIG and CNRS,Quobly has demonstrated the key building blocks for a quantum computer leveraging commercial FD-SOI:

Low-temperature operations and characterization of their digital and analog performances,adhering to circuit design guidelines

Singlequbit operations using hole and electron spin qubits using the CEA-Leti's R&D pilot line. This ambipolar platform optimizes system performance,leveraging electrons' long coherence times for memory,as well as the holes' strong spin-orbit interaction for fast data processing

Charge control in commercialGF 22FDX to further define a standard cell for a two-qubit gate

Key achievements include:

Cryogenic Control Electronics:Voltage gain up to 75dB,noise levels of 10-11V²∙μm²/Hz,and threshold voltage variability of 1.29mV∙μm.

Ambipolar Spin Qubits: Co-integration of hole and electron qubits on FD-SOI technology,achieving 1μs manipulation speed for holes and 40μs coherence time (Hahn echo) for electrons.

Two-Qubit Gate Standard Cell: Demonstration of double quantum dot operations with commercial FD-SOI.A Step Towards Commercial Quantum Systems

This work positions FD-SOI as essential for scalable quantum processors and establishes Quobly as a leader in cost-efficient,fault-tolerant quantum computing. By co-integrating quantum and classical components on the same platform,Quobly is shaping scalable QSoC architectures.

About Quobly


Founded in 2022 in Grenoble,Quobly pioneers fault-tolerant quantum computing with semiconductor qubits. Combining cutting-edge research with industrial production,Quobly targets scalable systems with millions of qubits. The company raised €19 million in 2023,setting a European quantum sector record. Visit www.quobly.io.

Contact: [email protected]

Quick Search

Your ultimate source for all things related to block-chain, cryptocurrency, and the latest news! Stay informed and up-to-date with the dynamic world of digital currencies. Our platform provides comprehensive coverage on the latest trends, market insights, and technological advancements shaping the crypto sphere. Whether you are a seasoned investor or a curious enthusiast, ecointimes.com offers a user-friendly interface, curated content, and expert analysis to help you navigate the exciting realm of cryptocurrencies. Get the latest cryptocurrency news and updates on ecointimes.com. Stay informed about blockchain technology and emerging cryptocurrencies.

© Bitcoin Telegraph