Demonstrating Programmable Nonlinear Quantum Photonic ICs


A technical paper titled “Programmable Nonlinear Quantum Photonic Circuits” was published by researchers at Niels Bohr Institute, University of Copenhagen, University of Bristol, and Ruhr-Universitat Bochum. Abstract: "The lack of interactions between single photons prohibits direct nonlinear operations in quantum optical circuits, representing a central obstacle in photonic quantum tech... » read more

Characterizing and Evaluating A Quantum Processor Unit In A HPC Center


A new technical paper titled "Calibration and Performance Evaluation of a Superconducting Quantum Processor in an HPC Center" was published by researchers at Leibniz Supercomputing Centre, IQM Quantum Computers, and Technical University of Munich. Abstract "As quantum computers mature, they migrate from laboratory environments to HPC centers. This movement enables large-scale deployments,... » read more

Compilation Challenges Of Scaling Up Quantum Computing With Superconducting Chiplet Architecture


A technical paper titled “MECH: Multi-Entry Communication Highway for Superconducting Quantum Chiplets” was published by researchers at University of California San Diego, University of California Santa Barbara, and Cisco Quantum Lab. Abstract: "Chiplet architecture is an emerging architecture for quantum computing that could significantly increase qubit resources with its great scalabili... » read more

Testing/Probing Single Electrons Across 300mm Spin Qubit Wafers (Intel)


A technical paper titled “Probing single electrons across 300-mm spin qubit wafers” was published by researchers at Intel Corporation. Abstract: "Building a fault-tolerant quantum computer will require vast numbers of physical qubits. For qubit technologies based on solid-state electronic devices, integrating millions of qubits in a single processor will require device fabrication to reac... » read more

Controllable Interaction Between Two Hole Spin Qubits In A Conventional Silicon Transistor


A technical paper titled “Anisotropic exchange interaction of two hole-spin qubits” was published by researchers at University of Basel and IBM Research Europe-Zurich. Abstract: "Semiconductor spin qubits offer the potential to employ industrial transistor technology to produce large-scale quantum computers. Silicon hole spin qubits benefit from fast all-electrical qubit control and sweet... » read more

Single-Molecule Transistor Using Quantum Interference


A new technical paper titled "Quantum interference enhances the performance of single-molecule transistors" was published by researchers at Queen Mary University of London, University of Oxford, Lancaster University, and University of Waterloo. Abstract "Quantum effects in nanoscale electronic devices promise to lead to new types of functionality not achievable using classical electronic co... » read more

Feasibility and Potential of Quantum Computing For a Typical EDA Optimization Problem


A new technical paper titled "QCEDA: Using Quantum Computers for EDA" was published by researchers at Fraunhofer IESE, RPTU Kaiserslautern, DLR (Germany), and OTH Regensburg. Abstract "The field of Electronic Design Automation (EDA) is crucial for microelectronics, but the increasing complexity of Integrated Circuits (ICs) poses challenges for conventional EDA: Corresponding problems are of... » read more

Low-Overhead Fault-Tolerant Quantum Memory (IBM)


A new technical paper titled "High-threshold and low-overhead fault-tolerant quantum memory" was published by researchers at IBM Quantum. Abstract "The accumulation of physical errors prevents the execution of large-scale algorithms in current quantum computers. Quantum error correction promises a solution by encoding k logical qubits onto a larger number n of physical qubits, such t... » read more

Superconducting Qubits Made Using Industry-Standard, Advanced Semiconductor Manufacturing (imec, KU Leuven)


A new technical paper titled "High-coherence superconducting qubits made using industry-standard, advanced semiconductor manufacturing" was published by researchers at imec and KU Leuven. Abstract: "The development of superconducting qubit technology has shown great potential for the construction of practical quantum computers. As the complexity of quantum processors continues to grow, the ... » read more

Optimizing Quantum Gates For Error Correction in Superconducting Qubits (Google AI)


A new technical paper titled "Optimizing quantum gates towards the scale of logical qubits" was published by researchers at Google AI and UC Riverside. Abstract "A foundational assumption of quantum error correction theory is that quantum gates can be scaled to large processors without exceeding the error-threshold for fault tolerance. Two major challenges that could become fundamental road... » read more

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