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142 quantum news items from across the web.
The demonstration of an eight-qubit silicon spin array on a CMOS-compatible platform by Imec and Diraq is a major scientific breakthrough with practical implications for scalable hardware manufacturing.
This is an opinion piece from a CTO of Quantum Machines, providing insights into the evolving focus of the quantum industry beyond pure qubit metrics.
IBM Quantum's research into using AI for quantum circuit synthesis is an important scientific development in software, showing potential for practical applications.
This significant scientific breakthrough from ETH Zurich proposes a novel quantum RAM architecture published in Science, potentially impacting future hardware design.
EeroQ's published experimental validation of CMOS-controlled electron shuttling is a notable scientific development for their unique hardware platform, indicating progress towards scalable qubit routing.
Google Quantum AI's Nature publication on using reinforcement learning for real-time calibration and active quantum error correction is a major breakthrough, addressing a critical bottleneck for fault-tolerant quantum computing.
This detailed publication by QC Design on their "Plaquette" framework for hardware-aware, fault-tolerant simulation is a notable scientific and software development crucial for future quantum systems.
This item is a general guide profiling the state of diamond NV-centre quantum technology and companies, providing useful context but not specific breaking news or a new development.
QC Design's release of the Plaquette framework is a notable software platform for designing and evaluating fault-tolerant quantum computers, validated across multiple hardware types.
Diraq's demonstration of an 8-qubit array on 300mm CMOS silicon, published in Nature Communications, is a significant technical milestone for scalable silicon-based quantum hardware.
A quantum hardware developer demonstrating improved stability in atomic clocks is a notable technical advancement in a related quantum-enabled technology.
This guest post reiterates the well-established potential of quantum computing in chemistry, providing market context rather than new scientific or financial news.
This collaboration demonstrates a practical application of quantum-classical simulation to a challenging real-world problem in fusion energy materials.
Identifying and significantly mitigating a major source of error on a leading processor is a scientific breakthrough with direct practical implications for fault tolerance.
This news reiterates and provides more detail on an important application of quantum computing to a critical energy challenge with a major industry player.
A significant demonstration of a hybrid algorithm outperforming classical methods for portfolio optimization on a leading quantum computer showcases strong practical application potential.
An early-career research award for a novel method to stabilize superconducting circuits for fault-tolerant quantum computing is a notable scientific advance.
Joint research with IBM Quantum mitigating a major hardware bottleneck for fault-tolerant quantum computing is a significant scientific breakthrough with practical implications.
Successful simulation of a complex physics problem on IBM's 104-qubit Heron processor demonstrates progress in quantum computing applications and hardware capabilities.
IBM's program facilitating advanced algorithmic research by providing QPU access is significant for driving innovation and potential breakthroughs in quantum software.