Mediaboss Marketing

Researchers have made a breakthrough in quantum technology development that has the potential to leave todays supercomputers in the dust, opening the door to advances in fields including medicine, chemistry, cybersecurity and others that have been out of reach.

In a study published in the journal Nature on Wednesday, researchers from Simon Fraser University in British Columbia said they found a way to create quantum computing processors in silicon chips.

Principal investigator Stephanie Simmons said they illuminated tiny imperfections on the silicon chips with intense beams of light. The defects in the silicon chips act as a carrier of information, she said. While the rest of the chip transmits the light, the tiny defect reflects it back and turns into a messenger, she said.

There are many naturally occurring imperfections in silicon. Some of these imperfections can act as quantum bits, or qubits. Scientists call those kinds of imperfections spin qubits. Past research has shown that silicon can produce some of the most stable and long-lived qubits in the industry.

These results unlock immediate opportunities to construct silicon-integrated, telecommunications-band quantum information networks, said the study.

Simmons, who is the universitys Canada Research Chair in silicon quantum technologies, said the main challenge with quantum computing was being able to send information to and from qubits.

People have worked with spin qubits, or defects, in silicon before, Simmons said. And people have worked with photon qubits in silicon before. But nobodys brought them together like this.

Lead author Daniel Higginbottom called the breakthrough immediately promising because researchers achieved what was considered impossible by combining two known but parallel fields.

Silicon defects were extensively studied from the 1970s through the 90s while quantum physics has been researched for decades, said Higginbottom, who is a post-doctoral fellow at the universitys physics department.

For the longest time people didnt see any potential for optical technology in silicon defects. But weve really pioneered revisiting these and have found something with applications in quantum technology thats certainly remarkable.

Although in an embryonic stage, Simmons said quantum computing is the rock n roll future of computers that can solve anything from simple algebra problems to complex pharmaceutical equations or formulas that unlock deep mysteries of space.

Were going to be limited by our imaginations at this stage. Whats really going to take off is really far outside our predictive capabilities as humans.

The advantage of using silicon chips is that they are widely available, understood and have a giant manufacturing base, she said.

We can really get it working and we should be able to move more quickly and hopefully bring that capability mainstream much faster.

Some physicists predict quantum computers will become mainstream in about two decades, although Simmons said she thinks it will be much sooner.

In the 1950s, people thought the technology behind transistors was mainly going to be used for hearing aids, she said. No one then predicted that the physics behind a transistor could be applied to Facebook or Google, she added.

So, well have to see how quantum technology plays out over decades in terms of what applications really do resonate with the public, she said. But there is going to be a lot because people are creative, and these are fundamentally very powerful tools that were unlocking.

Hina Alam, The Canadian Press

RELATED: US intel warns China could dominate advanced technologies

RELATED: Elon Musk claims Tesla will debut a humanoid robot next year

Computers and ElectronicsScienceSFU

Link:
Old computer technology points the way to future of quantum computing Terrace Standard - Terrace Standard

A University of Minnesota Twin Cities-led team received a $1.4 million award from the W. M. Keck Foundation to study a new process that combines quantum physics and biochemistry. If successful, the research could lead to a major breakthrough in the quantum computing field.

The project is one of two proposals the University of Minnesota submits each year to the Keck Foundation and is the first grant of its kind the University has received in 20 years.

Quantum computers have the potential to solve very complex problems at an unprecedented fast rate. They have applications in fields like cryptography, information security, supply chain optimization and could one day assist in the discovery of new materials and drugs.

One of the biggest challenges for scientists is that the information stored in quantum bits (the building blocks of quantum computers) is often short-lived. Early-stage prototype quantum computers do exist, but they lose the information they store so quickly that solving big problems of practical relevance is currently unachievable.

One approach researchers have studied to attempt to make quantum devices more stable is by combining semiconductors and superconductors to obtain robust states called Majorana modes, but this approach has been challenging and so far inconclusive since it requires very high-purity semiconductors. U of M School of Physics and Astronomy Associate Professor Vlad Pribiag, who is leading the project, has come up with a new idea that could yield stable Majorana quantum structures.

Pribiags proposed method leverages recent advances in DNA nanoassembly, combined with magnetic nanoparticles and superconductors, in order to detect Majoranas, which are theoretical particles that could be a key element for protecting quantum information and creating stable quantum devices.

This is a radically new way to think about quantum devices, Pribiag said. When I heard about this technique of DNA nanoassembly, I thought it fit right into this problem I had been working on about Majoranas and quantum devices. Its really a paradigm shift in the field and it has tremendous potential for finding a way to protect quantum information so that we can build more advanced quantum machines to do these complex operations.

The project, entitled Topological Quantum Architectures Through DNA Programmable Molecular Lithography, will span three years. Pribiag is collaborating with Columbia University Professor Oleg Gang, whose lab will handle the DNA nanoassembly part of the work.

About the W. M. Keck FoundationBased in Los Angeles, the W. M. Keck Foundation was established in 1954 by the late W. M. Keck, founder of the Superior Oil Company. The Foundations grant making is focused primarily on pioneering efforts in the areas of medical research and science and engineering. The Foundation also supports undergraduate education and maintains a Southern California Grant Program that provides support for the Los Angeles community, with a special emphasis on children and youth. For more information, visit the Keck Foundation website.

About the College of Science and EngineeringThe University of Minnesota College of Science and Engineering brings together the Universitys programs in engineering, physical sciences, mathematics and computer science into one college. The college is ranked among the top academic programs in the country and includes 12 academic departments offering a wide range of degree programs at the baccalaureate, master's, and doctoral levels. Learn more at cse.umn.edu.

Read the rest here:
UMN-led team receives $1.4M Keck Foundation grant to study possible breakthrough in quantum computing - UMN News

Following the launch in 2017 of a global challenge to set future post-quantum cryptography standards in digital signatures and public key encryption, which attracted 82 candidates from 25 countries, the NIST has selected Falcon algorithm co-developed for its extremely strong security and high bandwidth efficiency.

Falcon was co-developed by Thales together with academic and industrial partners from France (University of Rennes 1, PQShield SAS), Switzerland (IBM), Canada (NCC Group) and the US (Brown University, Qualcomm). It was selected by NIST alongside two other algorithms as standard for digital signatures, while a fourth algorithm was deemed standard for public key encryption/KEM. Thales was the only technology group serving the defence, aerospace and digital identity markets, to take part in the NIST competition.

Post-quantum cryptography enables conventional computers to withstand attacks by large-scale quantum computers, which many specialists believe could appear in the next few years. Quantum machines are expected to increase todays computer processing power to such a degree that they could break current cryptographic algorithms in a matter of seconds.

This quantum leap in computing power could usher in a crypto-apocalyse by posing very real and serious threats to the security of digital systems private citizens and organisations worldwide rely on day-to-day, such as critical information systems, on-line banking, payment cards, e-commerce, electronic signatures or on-line voting.A hacker with a quantum computer, for example, could easily gain access to confidential data, steal someone else's identity or falsify transactions and legal contracts. In the same way, a nations security could be threatened if its critical communications systems were the target of a quantum attack.

New algorithms such as Falcon, are quantum-resistant because they are based on mathematical problems that are among the most difficult to solve, even for a quantum computer.

Organisations who are willing to protect their data in a Zero Trust world must adopt a strong quantum crypto agility strategy. Thales Cyber Solutions consulting teams have developed a post-quantum cyber architecture offer to help their customers prepare for the threat of cyber-attacks by quantum-computers. Thales also provides quantum resistant network encryption and hardware security modules that are capable of protecting customer data against future quantum attacks, by already allowing customers to implement a number of Quantum Resistant algorithms.

Thales has been at the forefront of post-quantum cryptography research since 2013, and the selection of the Falcon algorithm by NIST is great recognition of the excellent co-development work and expertise of our crypto teams. We will pursue our on-going research in France and Europe to develop innovative, trusted solutions that will be quantic-resistant, without compromising performance, and are already helping our customers in their transition to a new generation of security solutions, to avert a future crypto-apocalypse.said Pierre-Yves Jolivet, Vice-President, Cyber Defence Solutions at Thales.

Learn more about Quantum at Thales:

Read more:
Falcon algorithm co-developed with Thales selected by the NIST as a new standard in post-quantum cryptography - Thales

With the crypto market continuing to trade sideways with mounting bearish pressure, niche categories for crypto tokens remain highly popular as traders and investors prowl for underrated and undervalued projects for long-term investments. Some popular crypto token types include Metaverse tokens, Web3 coins, and dApp tokens on various ecosystems like Tron, Elrond, Ethereum, Polkadot, etc.

Cryptocurrencies have the power to revolutionize finance by cutting out intermediaries. By bringing their exceptional capability to the design process, quantum computers and supercomputers have the potential to revolutionize the way medicines and materials are created.

But, Heres the issue: If quantum computing develops more quickly than efforts to future-proof digital money, the blockchain accounting system that underpins cryptocurrencies may be susceptible to sophisticated hacks and fake transactions.

On the other hand, some new cryptocurrencies claim to be quantum secure and quantum-resistant, which means they can withstand known quantum computer assaults. We will look at some cryptocurrency tokens at the top of their game.

Note: This list is ordered by market capitalization, from lowest to highest.

Mochimo (MCM), a brand-new cryptocurrency developed by an international team and released on June 25th, 2018, is resistant to threats from quantum computers.

Mochimo uses WOTS+ Quantum Resistant Security approved by the EU-funded PQCrypto research organization and a one-time addressing feature to secure privacy when you want it.

According to the website, the Mochimo blockchain remains small while substantially increasing TX speed using ChainCrunch, a proprietary algorithm. Using a compressed portion of the historical blockchain available on every node in the decentralized network, anyone can set up a full working node in minutes.

Industry experts in computer networking, artificial intelligence, telecommunications, cryptography, and software engineering make up the critical contributors of Mochimo.

Some top cryptocurrency exchanges for trading Mochimo $MCM are currently CITEX, FINEXBOX, and VinDAX.

The goal of HyperCash (HC), originally known as Hcash, is to make value transfers possible between various blockchains. It supports DAO governance, quantum resistance, and zero-hash proofs.

Its a decentralized and open-source cross-platform cryptocurrency designed to facilitate the exchange of information between blockchains and non-blockchain networks.

Its also a highly secure network featuring quantum-resistant signature technology.

The HCASH network has two chains running laterally, each serving different functions within the ecosystem.

Hcashs governance is based on a hybrid PoW/PoS consensus methodology and blockchain/DAG network.

If you want to know where to buy HyperCash at the current rate, check out these exchanges OKX, MEXC, KuCoin, Huobi Global, Gate.io, and Hoo. HyperCash is up 3.87% in the last 24 hours.

Nexus (NXS) is a community-driven initiative with the shared goal of creating a society characterized by progressive and ethical principles, advanced technology, and universal access to connection on a free and open basis.

Since September 23rd, 2014, Nexus has been created through mining alone, without an ICO or premine. Nexus uses post-quantum signature schemes (FALCON) and automated key management functions through the Signature Chains technology.

This technology eliminates key management issues (wallet.dats) by allowing users to access their accounts with the familiarity of a username, password, and PIN.

Another technology being developed by Nexus includes;

All the tech mentioned above is connected through a multi-dimensional chaining structure. Nexus is bringing this possibility to life with an end-to-end decentralized platform designed to empower every human being with technology to reclaim their digital identity.

Some top cryptocurrency exchanges for trading $NXS are Binance, Pionex, Bittrex, and CoinDCX.

The Quantum Resistant Ledger (QRL) is a fully quantum-resistant blockchain network using PQ-CRYPTO recommended/IETF standardized cryptography.

The QRL utilizes a hash-based eXtended Merkle Tree Signature Scheme (XMSS) instead of ECDSA, which is reportedly vulnerable to quantum attacks and found in many other blockchain projects.

According to the project, a set of applications and a development environment that enable users to simply build blockchain applications on its provably quantum-resistant network enhance the security of its platform.

Combining on-chain lattice key storage with their robust ephemeral messaging layer to internode communication provides a first-of-its-kind post-quantum secure message layer for ultra-secure digital communications.

The platform has a full suite of end-user products designed with the end-user in mind: from integrations with hardware wallets to mobile applications.

If you want to know where to buy $QRL, check out the CoinTiger exchange.

Launched in 2016, IOTA (MIOTA) is a distributed ledger. However, it differs significantly from a blockchain in that it isnt one. Instead, it uses a system of nodes called Tangle, its patented technology, to confirm transactions.

There are no fees since there is no blockchain, no mining, i.e., no miners. When congestion worsens, costs soar on many conventional networks, but IOTA seeks to offer limitless capacity at a low price.

The platforms foundation claims it provides much faster speeds than traditional blockchains and has the perfect footprint for the ever-expanding Internet of Things ecosystem.

The objective of IOTA is to establish itself as the default platform for carrying out IoT device transactions.

In summary:

According to the team behind the project, their distributed ledger may provide everyone access to digital identities, lead to auto insurance policies based on actual usage, open the door to cutting-edge smart cities, facilitate frictionless international trade, and establish the legitimacy of goods.

Some top cryptocurrency exchanges for trading $MIOTA are Binance, OKX, Bybit, Bitget, and BingX.

Disclosure: This is not trading or investment advice. Always do your research before buying any Quantum Computing token or investing in any cryptocurrency.

Follow us on Twitter@thevrsoldier to stay updated with the latest Metaverse, NFT, A.I., Cybersecurity, Supercomputer, and Cryptocurrency news!

Image Source: grandeduc/123RF

Originally posted here:
Top 5 Quantum Computing Crypto Tokens to Watch in 2022 - The VR Soldier

U.S. National Highway Traffic & Safety Administration| Detroit Free Press

The U.S. National Highway Traffic Safety Administration has issued recalls for July 7 through 14, including a Nissan recall involving 180,176 units and a Ford recall involving 100,689 units. See the list of this week's car recalls involving ten or more units below, or search USA TODAY's automotive recalls database for more:

Volkswagen Group of America, Inc. (Audi) is recalling certain 1998 Audi A8 and 1997-1998 Audi A4 vehicles equipped with Non-Azide Driver air bag Inflators (NADI) that do not contain phase stabilized ammonium nitrate (PSAN) propellant. Due to a manufacturing issue, the NADI inflator may absorb moisture, causing the inflator to explode or the air bag cushion to underinflate. 28,624 units are affected. Read more

General Motors, LLC (GM) is recalling certain 2018-2020 Buick Regal vehicles. In the event of a vacuum-power brake assist failure, a software error in the electronic brake control module (EBCM) may result in a loss of power brake assist. As such, these vehicles fail to conform to Federal Motor Vehicle Safety Standard No. 135, "Light vehicle brake systems." 23,734 units are affected. Read more

Ford Motor Company (Ford) is recalling certain 2022 Lincoln Aviator and Ford Explorer vehicles. The engine rails may have been improperly heat-treated. As such, these vehicles fail to comply with the requirements of Federal Motor Vehicle Safety Standard numbers 208, "Occupant Crash Protection" and 301, "Fuel System Integrity." 1,000 units are affected. Read more

Ford Motor Company (Ford) is recalling certain 2020-2022 Escape, 2021-2022 Lincoln Corsair, and 2022 Maverick vehicles equipped with 2.5L HEV or PHEV engines. In the event of an engine failure, engine oil and fuel vapor may be released into the engine compartment and accumulate near ignition sources such as hot engine or exhaust components, possibly resulting in an engine compartment fire. 100,689 units are affected. Read more

Ford Motor Company (Ford) is recalling certain 2022 F-150 BEV vehicles equipped with 20" or 22" all season tires. The tire pressure monitoring system (TPMS) light may not illuminate as intended, failing to warn the driver of low tire pressure. As such, these vehicles fail to comply with the requirements of Federal Motor Vehicle Safety Standard number 138, "Tire Pressure Monitoring Systems." 2,666 units are affected. Read more

Ford Motor Company (Ford) is recalling certain 2022 Bronco and Ranger vehicles. The windshield may not have been properly bonded to the vehicle, which could allow it to detach during a crash. As such, these vehicles fail to comply with the requirements of Federal Motor Vehicle Safety Standard number 212, "Windshield Mounting." 63,294 units are affected. Read more

Honda (American Honda Motor Co) is recalling certain 2020-2022 GL1800 Gold Wing motorcycles equipped with manual transmissions. An ignition timing software error for the engine control unit (ECU) may reduce engine performance, which can result in an engine stall. 1,740 units are affected. Read more

Hyundai Motor America (Hyundai) is recalling certain 2017-2018 Ioniq HEV and Ionic PHV vehicles previously recalled under recall number 18V-704. The Power Relay Assembly (PRA) located underneath the rear seat may overheat. 10,575 units are affected. Read more

Hyundai Motor America (Hyundai) is recalling certain 2020-2022 Venue vehicles. In the event of a crash, the front driver-side and/or passenger-side seat belt pretensioners may explode upon deployment. 72,470 units are affected. Read more

Ford Motor Company (Ford) is recalling certain 2022 Lincoln Aviator and Ford Explorer vehicles. The engine rails may have been improperly heat-treated. As such, these vehicles fail to comply with the requirements of Federal Motor Vehicle Safety Standard numbers 208, "Occupant Crash Protection" and 301, "Fuel System Integrity." 1,000 units are affected. Read more

Ford Motor Company (Ford) is recalling certain 2022 Lincoln Navigator vehicles. The headlight control module software may cause the side marker and daytime running lights to fail. As such, these vehicles fail to comply with the requirements of Federal Motor Vehicle Safety Standard number 108, "Lamps, Reflective Devices, and Associated Equipment." 965 units are affected. Read more

Ford Motor Company (Ford) is recalling certain 2020-2022 Escape, 2021-2022 Lincoln Corsair, and 2022 Maverick vehicles equipped with 2.5L HEV or PHEV engines. In the event of an engine failure, engine oil and fuel vapor may be released into the engine compartment and accumulate near ignition sources such as hot engine or exhaust components, possibly resulting in an engine compartment fire. 100,689 units are affected. Read more

Mercedes-Benz, LLC (MBUSA) is recalling certain 2020 Mercedes-Benz GLS 450 and GLS 580 vehicles. The front air bag wiring harness may be routed incorrectly, which can cause the air bag not to deploy properly. As such, these vehicles fail to comply with the requirements of Federal Motor Vehicle Safety Standard number 208, "Occupant Crash Protection." 81 units are affected. Read more

Mercedes-Benz, LLC (MBUSA) is recalling certain 2022 Mercedes-Benz EQS 450, EQS 580 and AMG EQS53 vehicles. The front or rear bumper tow ring assembly may have insufficient thread depth, which can result in the tow ring detaching from the vehicle. 2,526 units are affected. Read more

Daimler Vans USA, LLC (DVUSA) is recalling certain 2016-2018 Mercedes-Benz Metris vans. The value for the maximum combined load weight capacity of the tires is incorrect. As such, these vehicles fail to comply with the requirements of Federal Motor Vehicle Safety Standard number 110, "Tire and Loading Information." 24,403 units are affected. Read more

Nissan North America, Inc. (Nissan) is recalling certain 2020-2022 Frontier and Titan vehicles. The transmission parking pawl may not engage when the vehicle is shifted into park, which can result in a vehicle rollaway. 180,176 units are affected. Read more

Subaru of America, Inc. (Subaru) is recalling certain 2022 Outback vehicles. The engine wiring harness may have been damaged, resulting in a loose electrical connection to the engine control unit (ECU). 15 units are affected. Read more

To find more recalls for vehicles, groceries, consumer products and more, visit USA TODAY's searchable recalls database.

Go here to read the rest:
Nissan, Ford among vehicle recalls this week - Detroit Free Press