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✨ Day 19 Of #Quantum30 challenge: Today's topic was Azure Quantum Key takeaways: -> Azure Quantum is Microsoft's cloud service for quantum computing which provides access to quantum resources hosted on the Azure platform. -> It integrates various quantum hardware providers like IonQ, Honeywell, etc. and also offers software tools and development kits for quantum programming. -> Users can test quantum algorithms using simulators or access quantum hardware through Azure Quantum thereby allowing users to explore and develop quantum solutions. -> It supports hybrid computing scenarios which allows developers to combine classical and quantum computing resources within the same application. This enables leveraging classical processing power alongside quantum capabilities to solve complex problems. #QuantumComputingIndia #quantumcomputing #quantumtechnology

"Embark on a journey into the future of computing with Azure Quantum! 🌐 Unravel the mysteries of quantum computing, build hybrid applications, and redefine the boundaries of innovation. Read our latest blog to explore the quantum realm. #AzureQuantum #QuantumComputing #Innovation"

Want an inside look at our strategy for scaled quantum computing? Hear from Azure Quantum scientists and leaders about the path to quantum at scale and how to prepare for the future: https://msft.it/60439VwMz #AzureQuantum

Excited about the expanded #quantum development roadmap with a view through 2033. IBM debuted the first in a new series of utility-scale quantum processors called Heron today. This #133_qubit processor is available for users via the cloud. These new architectures, combined with breakthroughs we are announcing across quantum computing theory and software, are enabling IBM to announce the extension of the IBM Quantum Development Roadmap to 2033, with new targets to scale with quality towards advanced error-corrected systems.    To learn more about this new era of quantum computing and the IBM Heron quantum processor see: https://ibm.biz/BdSLJj   #quantum #quantumcomputing #Leadership #innovation #IBMConsulting #RTRPCW #qubit

This book offers readers an easy introduction into quantum computing as well as into the design for corresponding devices. The authors cover several design tasks which are important for quantum computing and introduce corresponding solutions. A special feature of the book is that those tasks and solutions are explicitly discussed from a design automation perspective, i.e., utilizing clever algorithms and data structures which have been developed by the design automation community for conventional logic (i.e., for electronic devices and systems) and are now applied for this new technology. By this, relevant design tasks can be conducted in a much more efficient fashion than before – leading to improvements of several orders of magnitude (with respect to runtime and other design objectives). Describes the current state of the art for designing quantum circuits, for simulating them, and for mapping them to real hardware; Provides a first comprehensive introduction into design automation for quantum computing that tackles practically relevant tasks; Targets the quantum computing community as well as the design automation community, showing both perspectives to quantum computing, and what impressive improvements are possible when combining the knowledge of both communities.

What about integrating QPUs with CPUs and GPUs. This will open up a whole new world of computing. A must read. Thanks to Jay Gambetta for sharing. #quantum #ibm

At last year's IBM Quantum Summit, we announced a vision for 'quantum-centric supercomputing', which is "a modular computing architecture which enables scaling, combining quantum communication and computation to increase computational capacity, while employing hybrid cloud middleware to seamlessly integrate quantum and classical workflows." This year has seen major advances towards realizing that vision, including our 10-year partnership with University of Chicago and The University of Tokyo to realize a 100K-qubit system, and our work in developing IBM Quantum System Two. Here are some resources you can check out to learn more: * Quantum-Centric Supercomputing: https://lnkd.in/e2fqEUq7 * Partnership with the universities of Chicago and Tokyo: https://lnkd.in/d-PknwCt * IBM Quantum System Two design: https://lnkd.in/d-rT5HdB #QuantumComputing #IBMQuantum #QuantumCentricSupercomputing

As we progress from quantum utility to quantum advantage it is my belief that this will first happen by a new architecture we call quantum centric supercomputing. This is not a bigger quantum computer it is a new way of doing computing using a heterogeneous architecture of qpu, gpu and cpu powered systems working together with key developments in hybrid cloud. I’ve talked about our recent results with RIKEN before, but today we’re making another exciting announcement. We are now working with Pasqal - leaders in neutral atom - to make sure this architecture is open (built on Qiskit and will support different hardware modularities.

This sounds like a breakthrough advancement in Quantum Computing… “With (Microsoft's) qubit-virtualization system, (they) were able to create four highly reliable logical qubits from only 30 physical qubits of the available 32 on Quantinuum's machine. Three fundamental criteria to advance from noisy, intermediate-scale quantum computing to reliable quantum computing are: 1. Achieve a large separation between logical and physical error rates. 2. Correct all individual circuit errors. 3. Generate entanglement between at least two logical qubits. (They) have demonstrated, for the first time on record, that all three of the above criteria have been met.” https://lnkd.in/gWyRcenS (via pivot5)

One of the things we need to start talking about when mentioning the scalability of different qubit modalities is footprint. Look at this size of this thing. And if we're still using a 1000:1 ratio of physical to logical, this represents only 100 fault-tolerant superconducting qubits.