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Quantum computing: a new frontier for the broadcast and media industry - RedShark News

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Navigating the Next Frontier: The Future of AI, Machine Learning, Quantum Computing, and Advanced  Medium

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Navigating the Next Frontier: The Future of AI, Machine Learning, Quantum Computing, and Advanced - Medium

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TORONTO and COLUMBIA, S. C., April 16, 2024 Xanadu, a world leader in photonic quantum computing, and South Carolina Quantum (SC Quantum), a non-profit organization dedicated to bringing academia, industry, and entrepreneurs together to build a sustainable quantum ecosystem, have formed a partnership to develop practical, hands-on educational materials and grow a quantum-smart workforce in South Carolina.

Xanadu is on a mission to make quantum computers useful and available to people everywhere. In 2022, Xanadu made the strategic decision to partner with academic institutions and organizations focused on quantum education to help build a global quantum computing workforce. As part of its long-term vision to support quantum education and research in the US, Xanadu expanded its operations by opening a dedicated US entity in March of 2024.

SC Quantums goal is to accelerate the future of a quantum ecosystem through developing relevant quantum education across all levels of education to inspire a professional quantum-smart workforce, creating an environment for innovation and opportunity for entrepreneurs, and engaging with industry and tech to bring real world, complex problems for research opportunities to challenge students critical thinking and provide access to quantum technology.

The quantum field is growing rapidly and the next generation must be highly skilled in a range of tools and approaches. Were excited to partner with SC Quantum to accelerate quantum education and research in the State of South Carolina and across the United States, said Xanadu Founder and CEO, Christian Weedbrook.

PennyLane, Xanadus open-source software framework, will be a pillar of this partnership. With support from the team at Xanadu, researchers in the SC Quantum network will utilize PennyLane to design and develop next-generation quantum algorithms and to test them on simulators and Xanadus photonic quantum hardware. Xanadus technology will also be used as a foundation for developing hands-on educational experiences to be integrated into SC Quantums growing university network.

Our mission is to champion the advancement of quantum talent and technology in South Carolina. To succeed in this mission, we need to partner with world-renowned quantum companies with cutting-edge technologies, making Xanadu an obvious choice for one of our first partnerships. We look forward to the research and training that our network will benefit from, said Joe Queenan, Executive Director, South Carolina Quantum.

About Xanadu

Xanadu is a quantum computing company with the mission to build quantum computers that are useful and available to people everywhere. Founded in 2016, Xanadu has become one of the worlds leading quantum hardware and software companies. The company also leads the development of PennyLane, an open-source software library for quantum computing and application development.

About SCQ

South Carolina Quantum (SC Quantum), a 501(c)(3), was established in 2022 in Columbia, South Carolina to Champion the advancement of quantum talent and technologies in South Carolina. As a convening organization, we promote collaboration among academia, entrepreneurs, industry, and government. After a $15 million grant from the state of South Carolina in 2023, SC Quantum quickly grew interest from partners in South Carolina and the region to further the mission of what is now SC Quantum.

Source: Xanadu

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Xanadu and South Carolina Quantum Establish Partnership to Build the Quantum Workforce of Tomorrow - HPCwire

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Within a decade, quantum technologies will revolutionise our approach to complex problem solving and enable us to seize new opportunities in the fields of sensing, timing, imaging, and communications.

Thats according to the UK National Quantum Strategy, which then highlights the associated threats to cryptography and the means by which we protect and secure our digital capabilities.

This formed the backdrop for the recent inaugural Quantum Computing (QC) Fair for Defence, which IBM hosted in collaboration with RAF Digital. 100+ delegates from across Defence, academia and industry came together to dive into the world of Quantum Computing, learn from experiences across government and other sectors, explore use cases and develop ideas and next steps.

Despite the theory of quantum computers advancing in the 1980s and 1990s, it's with recent industry breakthroughs that QC begins to move from the labs into the world of Defence and business. Applicable across a broad spectrum of industry sectors, QC is important in the world of defence due to its potential to revolutionise cryptography, communication, optimisation, and simulation tasks. The development of quantum-resistant cryptography will become crucial for maintaining secure defence communications in the future, which is reflected in the UK National Quantum Strategy that looks to establish the UK as a leader in the field.

Recognising the growing opportunities to examine the potential of QC, RAF Digital joined forces with IBM to raise awareness across the RAF and the broader Defence community. As a leading organisation in the field of quantum technologies, IBM was recently announced as a partner to the National Quantum Computing Centre (NQCC), with a remit to support organisations in understanding and applying the power of QC and to provide access to its QC capabilities. This made it ideally placed to deliver two Quantum 101 awareness training sessions to 40 RAF technical experts and senior leaders. Spurred on by the enthusiastic reception, IBM also organised a Quantum Computing Fair for Defence at its Innovation suite in London.

The Fair aimed to catalyse the formation of the Defence Quantum Computing Community and progress thinking about how QC could be applied within the Defence context, amplifying our understanding of the UKs quantum computing capabilities and intent.

I am hugely grateful to IBM for hosting the Fair and to all those who attended. Without doubt, this event has energised discussions about how to exploit such technologies, both to advance Defence capabilities and in support of the broader UK strategy. As Quantum forges towards maturity, the MoD has the opportunity to access Quantum Computing expertise and services, grow skills, and develop use cases; we now have an identified community of interest who can collaborate to formalise our approach in anticipation of what this technology will bring."

Group Captain Ramsden AH RAF Digital Capability

The immersive and interactive day comprised of presentations from leading figures across government, industry, and academia, along with workshops hosted by IBMs network of Quantum Ambassadors and a discussion panel with each of the Defence delegations represented. Rachel Maze, DSIT, outlined the 10-year vision of the UK National Quantum Strategy to build UK to be a world leading quantum-enabled economy by 2033. Geoff Barnes, NQCC, described their exciting work, such as developing a prototype for an intermediate scale full-stack quantum computer. Chris Moore Bick, DST, shared information about the recent refresh of the Defence Command paper. Dr. Phillip Intallura, HSBC, presented how HSBC uses QC to enhance cyber-resilience and then Dominic OBrien, Quantum Computing and Simulation Hub, Oxford, showed how the Hub is now a vibrant network with 17 academic and 28 industrial partners.

Dr. Arif Mustafa, RAF Director Digital, hosted a stimulating panel discussion that demonstrated the value of collaboration in QC and generated valuable insights, with interactive break-out workshops exploring topics such as QC use cases for Defence, programming a Quantum Computer, building a QC workforce and Quantum Safe for Defence.

It was a real pleasure to be able to work with the RAF Digital team deliver the Quantum Computing Fair, an event designed by Defence for Defence, and we are very grateful to all speakers and delegates. With engaged representation and lively debate throughout the day, the main objective to catalyse the cohering of Defences Quantum Computing Community has been surely met. IBM is committed to helping make the NQCC the focus for the adoption of QC by Government and extending its education and training resources to accelerate upskilling in key sectors. We look forward to continuing to work with Defence as it explores and exploits the potential QC represents.

Ed Gillet IBM

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Quantum Computing Fair: Shaping the future world of Defence - Royal Air Force

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A device called a quantum drum may serve as "a crucial piece in the very foundation for the Internet of the future with quantum speed and quantum security", says Mads Bjerregaard Kristensen, postdoc from the Niels Bohr Institute in a new research piece. The original research paper has an official briefing available for free on Phys.org, and can be found published in full in the Physical Review Letters journal for a subscription fee.

One key issue with quantum computing and sending quantum data ("qubits") over long distances is the difficulty of maintaining data in a fragile quantum state where losing data or "decohering" becomes a much higher risk. Using a quantum drum at steps along the chain can prevent this data decoherence from occurring, enabling longer and even potentially global communication distances.

The current record for sending qubits over a long distance is held by China and Russia, and is about 3,800 km with only encryption keys sent as quantum data. The standard wired qubit transmission range is roughly 1000 kilometers before loss of photons ruins the data. Quantum drums could potentially address this limitation.

How does a 'quantum drum' work? In a similar manner to how existing digital bits can be converted into just about anything (sound, video, etc.), qubits can be converted as well. However, qubits require a level of precision literally imperceivable to the human eye, so converting qubits without data loss is quite difficult. The quantum drum seems like a potential answer. Its ceramic glass-esque membrane was shown to be capable of maintaining quantum states as it vibrates with stored quantum information.

Another important purpose served by these quantum drums is security. Were we to start transferring information between quantum computers over the standard Internet, it would inherit the same insecurities as our existing standards. That's because it would need to be converted to standard bits and bytes, which could become essentially free to decode in the not-so-distant quantum future.

By finding a quantum storage medium that doesn't lose any data and allows information to be transferred over much longer distances, the vision of a worthwhile "Quantum Internet" begins to manifest as a real possibility, and not simply the optimism of quantum computing researchers.

Quantum computing research continues to be a major area of interest, often with highly technical discussions and details on the technology. A research paper on quantum drums and their potential of course doesn't mean that this technique will prove to be commercially viable. Still, every little step forward creates new opportunities for our seemingly inevitable quantum-powered future.

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Researchers create 'quantum drums' to store qubits one step closer to groundbreaking internet speed and security - Tom's Hardware

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