Global and Regional Quantum Cryptography Sales, Revenue Research Report 2021-2026 studies the key market segments, market size, Quantum Cryptography revenue generation sources, and regional distribution. The report considers major regions namely North America, Europe, Japan, China, Southeast Asia, India, Middle East & Africa, and South America. The study begins with the Quantum Cryptography introduction, market dynamics in terms of drivers, restraints, challenges, and regulatory scenario by region and countries. The long term and short-term market investment scenario in terms of emerging and developed Quantum Cryptography Market is analyzed in this report. Also, the influence of the COVID-19 outbreak on development aspects is studied comprehensively. The COVID-19 outbreak is further segmented based on impact on Quantum Cryptography supply chain, demand, and price.

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Quantum Cryptography global growth trends are presented in SWOT analysis, Porters Five Forces analysis, PEST analysis, and macro-economic factors. Industry news and policies state the product approval, events and exhibition, product launch events, and collaborations. The upstream buyers, Quantum Cryptography downstream customer analysis by regions are presented in this report. The market share and revenue analysis (US$ Mn) by type, region, applications, end-users, and top companies are analyzed in this report. The Y-o-Y growth rate comparison by type, end-user from 2015-2026 is presented in this report.

The top companies in this market are:

SK TelecomNEC CorporationS15 Space SystemsQuintessenceLabsIntelNTT CommunicationsLockheed MartinNokiaGoogleMicrosoftRaytheonInfineonToshibaID QuantiqueIBMKPNMcAfeeAirbusHPMitsubishi ElectricAlibaba GroupMagiQ Technologies

The key product types are:

Quantum key distributionQuantum Coin FlippingPosition-based quantum cryptographyPost-quantum cryptographyOthers

The major applications are:

Small and Medium EnterprisesLarge EnterprisesGoverning and Regulatory BodiesOthers

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The countries namely Germany, Italy, UK, France, Spain, Russia, India, China, Japan, South Korea, Australia, New Zealand, United States, Brazil, Canada, Argentina, Colombia, Chile, Saudi Arabia, UAE, Egypt, Nigeria, South Africa, and rest of the world. The market competition, revenue, share, size, and revenue are studied in this report.

The competitive landscape presents the Quantum Cryptography Industry analysis by company profile, share, revenue, size, developments, growth rate, and more. The propriety top-down and bottom-up research methodology is used to derive the market numbers. The Quantum Cryptography quantitative and qualitative data is gathered via primary interviews, internal databases, paid databases. Also, secondary sources of gathering Quantum Cryptography Industry statistics are Hoovers, Bloomberg, Business Week, Factiva, OneSource. Furthermore, the historic year, gross margin, traders, dealers, buyers, market positioning, and Quantum Cryptography potential demand is analyzed.

The growth rate, company revenue, sales, supply-demand gap analysis, company market share, regulation impact analysis is studied. After deducing, the market size for the base year (2019 & 2020), we have used the data validation and triangulation method. The product features, penetration of Quantum Cryptography across end-user, the specialty of manufacturers is also considered to calculate target product revenue.

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The growing demand across various Quantum Cryptography industry verticals, key drivers, significant expansion, growth rate, rapid urbanization are studied. The forecast scenario from 2021-2026, CAGR growth rate, price trends, manufacturers, traders, distributors analysis is studied. The past, present, and forecast industry scenario is studied in this report.

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Quantum Cryptography Industry Growth, Sales, Regions, Opportunities and Development Trends Analysis Report 2020-2026 - Murphy's Hockey Law

Accelerating the development of these technologies thanks to the France's quantum plan

Thales welcomes the ambitious quantum plan launched by the French government, which will speed the development of the promising, sovereign technologies of quantum sensors, quantum communications and post-quantum cryptography.The Group continues to invest 1 billion euros annually in self-funded R&D, pushing back the limits of the possible and helping to sustain the excellence of French and European research to serve Thales customers.

Quantum sensors: augmenting and expanding human senses to better understand our environment

Smart homes, self-driving cars, automated trains, air traffic control, Industry 4.0, new energy sources, connected medical devices and services, latest-generation defence and security systems None of this would be possible without the countless types of sensors that exist in the world today.

Sensors come in all shapes and sizes. From the simplest meat thermometer in the kitchen to the most sophisticated radars used in air traffic surveillance, sensors play a crucial role in improving human understanding of the world we live in.

In an environment that is more and more connected and digital, quantum sensors augment and expand human senses to create new knowledge. Research is underway at Thales laboratories into several types of sensors:

- Superconducting quantum interference devices (SQUIDs) are being extensively studied today with a view to developing miniature quantum antennas to detect communication signals over a very large portion of the radiofrequency spectrum and offer a competitive advantage, particularly at low frequencies. These superconducting devices could have applications in a wide range of areas, including brain imaging and particle detection.

- Solid-state quantum sensors, such as nitrogen-vacancy (NV) colour centres in diamonds, have demonstrated their ability to measure extremely subtle magnetic fields. This type of ultra-sensitive sensor could be used in numerous applications, ranging from bio-sensors to magnetic resonance imaging (MRI) and detection of defects in metals.

- Rare earth ions will be used to characterise and process radiofrequency and optical signals. Continuous, wideband radiofrequency spectrum analysers based on rare earth ions offer a way to relieve network congestion and optimise frequency utilisation - frequencies being a scarce resource - and could also have applications in military intelligence.

- Thales is also exploring the use of cold atom technology in future quantum inertial navigation systems for aircraft. At present, an aircraft taking off from Paris equipped with only a conventional inertial navigation system can land in New York with a precision of within a few kilometres. With future quantum sensors, aircraft will be able to navigate and land with a precision of within one metre.

Quantum sensors have a promising future in a broad range of sectors. New, ultra-sensitive, miniaturised magnetometers will revolutionise medicine, with numerous applications ranging from new-generation miniaturised MRI systems to diagnosis of brain tumours or changes in cognitive functions.

The key role of quantum communications: making communications completely trustworthy and managing future networks of quantum objects

In a digital economy where communications play a vital role, and with the relentless increase in data rates in fixed and mobile communication systems, quantum technologies will make it possible to secure communications with inviolable cryptographic keys based on the quantum properties of light. The principle of quantum communications has been established for some time in point-to-point networks, but the quantum Internet of the future will need to apply these concepts to large-scale networks. Thales is pioneering the design of these future network architectures, both for ground-based network elements and for the space-based components needed to share cryptographic keys over long distances. Thales is part of EuroQCI, a large-scale European project working to deploy a quantum secured network of this type to establish an ultra-secure Europe-wide network for sharing sensitive data.

Beyond quantum secured communications, quantum data such as qbits, the basic units of quantum information, could be shared across a quantum information network. This type of network could interconnect systems such as quantum sensors and quantum computers, leveraging quantum physics to build integrated systems delivering order-of-magnitude improvements in performance. Although it will be some time before these systems are available, the basic building blocks of quantum information networks, such as quantum memories, entanglement sources and protocols, are already being designed.

Post-quantum cryptography: acting today to protect our systems from the quantum computers of tomorrow

Communications security is a strategic necessity for governments, businesses and private citizens. Today, communications security mainly uses RSA crypto-systems, which rely on the difficult mathematical problem of breaking down a number into its prime factors. The algorithm for future quantum computers that could break RSA encryption, undermining the rationale behind existing cryptographic techniques, is already known. Thales is building on its experience in information systems security to develop alternative encryption methods using other mathematical problems to withstand quantum computers. These methods, combined with the use of quantum keys, will provide deeper, more persistent and more unconditional protection for our data assets.

To know more : Discover the open-editorial about quantum from Patrice Caine, CEO of Thales, and his latest speech at the NOVAQ innovation forum on how to build a trustable future thanks to high technologies The Group's latest podcasts series on quantum science

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Thales : unveils three quantum technologies set to revolutionise the world of tomorrow - Marketscreener.com

DGAP-News: Aladdin Healthcare Technologies SE / Key word(s): Letter of Intent/Alliance Aladdin Healthcare Technologies signs Agreement to build proprietary Genomic Data Blockchain Platform with Zero Knowledge Proof 2021-01-22 / 09:10 The issuer is solely responsible for the content of this announcement. =---------------------------------------------------------------------------------------------------------------------- Aladdin Healthcare Technologies signs Agreement to build proprietary Genomic Data Blockchain Platform with Zero Knowledge Proof BERLIN/LONDON January 22, 2021 - Aladdin Healthcare Technologies SE ("Aladdin", ISIN: DE000A12ULL2), a leading developer of Artificial Intelligence (AI) based healthcare diagnostics and drug discovery applications, has signed a Memorandum of Understanding (MOU) with Consentia Ltd, with the goal of building a Blockchain platform based on Zero Knowledge Proof (ZKP) for safely sharing genomics and multi-omics data. Since genomic data analysis is growing in prominence for precision diagnosis and medicine, the need for fast and secure sharing of such data is increasing worldwide and requires appropriate tools to ensure people's data privacy. Aladdin will build a ZKP-based blockchain platform to gather global healthcare data with Consentia, an innovative blockchain development start-up in the UK and Hongkong, led by Paul Sitoh, one of the most sought-after experts in blockchain technology and co-builder of Hyperledger Fabric. Nowadays, the healthcare industry is dominated by a lot of time-consuming due diligence based on privacy issues. Zero Knowledge Proof (ZKP) is a cryptography method by which data can be proven without actually showing or sharing any additional information. Both, Aladdin and Consentia will collaborate to build a proprietary data-tool based on ZKP for eradicating passwords and protecting the identities of global patients that submit multi-omics and genetic healthcare data to centralized databases. Furthermore, the parties will develop a new blockchain platform based on the ZKP-tool where users and healthcare professionals will be able to safely access and store the healthcare data. Wade Menpes-Smith comments: "Aladdin has taken a massive step in the field of Blockchain applications for Healthcare by signing this Agreement. We are more than happy to have Consentia at our side as valuable partner in this important challenge. We want to protect people's identities while giving our innovative contribution to medical research. This is a big chance for expanding our business opportunities by commercializing the platform in the future with existing and new partners at a global level." About Aladdin Healthcare Technologies SE Aladdin Healthcare Technologies SE (and its wholly owned subsidiary Aladdin Healthcare Technologies Ltd.) is a leading developer of AI healthcare diagnostics and drug discovery applications that can accelerate both early stage disease diagnosis and the end-to-end drug discovery process. Aladdin targets age-related diseases including a significant focus on Alzheimer's disease. Aladdin accomplishes this by collaborating with numerous partners within the global healthcare ecosystem to confidentially and securely gather targeted data including genome, tabular, MRI, PET, cognition and other lifestyle data. These datasets are then analysed by our award-winning AI team and used to develop proprietary AI tools that can assist healthcare professionals to more accurately and efficiently diagnose age-related diseases. This new diagnostic process will save significant time and costs for healthcare professionals. Additionally, our AI drug discovery platform will be used by pharmaceutical Companies to speed up drug development, clinical trials and predict outcomes more accurately. Website Link: http://www.aladdinid.com GSIN: A12ULL ISIN: DE000A12ULL2 TICKER SYMBOL: NMI For further information: Aladdin Healthcare Technologies Ltd. 24-26 Baltic Street West London EC1Y 0UR Phone +44 7714 719696 Email: info@aladdinid.com Contact Press CROSS ALLIANCE communication GmbH Sara Pinto Phone +49 89 1250 90330 Email: pi@crossalliance.de http://www.crossalliance.de =---------------------------------------------------------------------------------------------------------------------- 2021-01-22 Dissemination of a Corporate News, transmitted by DGAP - a service of EQS Group AG. The issuer is solely responsible for the content of this announcement. The DGAP Distribution Services include Regulatory Announcements, Financial/Corporate News and Press Releases. Archive at http://www.dgap.de =---------------------------------------------------------------------------------------------------------------------- Language: English Company: Aladdin Healthcare Technologies SE Unter den Linden 10 10117 Berlin Germany Phone: 030 700140449 E-mail: info@aladdinid.com Internet: http://www.aladdinid.com ISIN: DE000A12ULL2 WKN: A12ULL Listed: Regulated Market in Dusseldorf EQS News ID: 1162478 End of News DGAP News Service =----------

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Market Highlights

Blockchain technology is the trending word in the digital currency market. The technology has an ability to perform financial operations instantaneously through permissioned ledgers which are distributed uniformly. The major growth factors of the blockchain technology market, is the rising security concern for payment and transactions by companies. Blockchain technology offers secure and faster payment services with the help of cryptography technology which keeps the data encoded until it will reach to receiver. The increase in adoption of blockchain technology in the financial services sector, public sector and healthcare segments are other prominent factors that is expected to fuel the market.

Banking, Financial Services, and Insurance (BFSI) sector is expected to dominate the market with the largest market share. BFSI sector is investing in blockchain technology, owing to its ability to address multiple challenges associated with digital transaction such as double spending and currency reproduction. Double spending which is an attack where the given set of coins is spent in more than one transaction. It is also capable to reduce the cost of online transaction and simultaneously increase security and authenticity. These benefits are the prime reason for the adoption of blockchain technology within the banking sector.

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A number of players in the finance market are looking for investment opportunities in digital currency and many have made the first phase of investments to develop digital currencies and services in the industry. However, the market at present is struggling with regulatory uncertainties and security concerns, the coming years are expected to witness a larger role of the blockchain technology in financial transactions.

Segmentation:

The Blockchain Technology Market can be classified into 3 key segments as follows:Segmentation by Services : Comprises Payments & transactions, contracts, digital identity, and documentation.Segmentation by Application: Comprises Banking & Finance, healthcare, government, media& entertainment, retail and others.Segmentation by Regions: Comprises Geographical regions North America, Europe, APAC and Rest of the World.

Regional Analysis

North America is dominating the Global Blockchain Technology Market with the largest market share due to continuous initiatives taken for the development in ledger technology for blockchain market thereby is expected to grow with highest market size by 2022 and is expected to grow over its previous growth records during the forecast period. The faster adoption of innovative technology in developed countries such as United States, Canada, Mexico and others is further fuelling the market in the region. Blockchain Technology in Asia Pacific market is expected to witness a fastest growing CAGR during 2016 to 2022 due to transparency, immutability & scalability service provide by the blockcahin technology and huge investment of digital currency across industry verticals in APAC countries, especially India, Australia, and China.

ALSO READ ; https://ehteshaminfo.mystrikingly.com/blog/global-blockchain-technology-market-2019-2023-emerging-opportunities

Key Players

The Market of Blockchain Technology appears to be highly competitive. To maintain their market position and to drive the market growth, various dynamic and diversified international organizations, domestic organizations and as well as new entrants form a competitive landscape. Market leaders are innovating continuously and increasingly seeking market expansion through various strategic mergers and acquisitions, innovation, increasing investments in research and development and cost-effective product portfolio. Major players are investing on internal R&D and, most of all, in acquiring other firms.

Industry News

22 Aug 2017 A group of leading companies across the global food supply chain announced a major blockchain collaboration with IBM (NYSE: IBM) intended to further strengthen consumer confidence in the global food system. The companies such as Dole, Driscolls, Golden State Foods, Kroger, McCormick and Company, McLane Company, Nestl, Tyson Foods, Unilever and Walmart, are going to work with IBM to identify new areas where the global supply chain can benefit from blockchain.

Aug. 10, 2017 Microsoft Corp. on announced the Coco Framework, a first-of-its-kind innovation that will advance enterprise adoption of blockchain technology. Current blockchain protocol technology requires complicated development techniques to meet the operational and security needs of enterprises. The Coco Framework reduces this complexity, and when integrated with blockchain networks addresses critical needs for commercial adoption like high-transaction speed, distributed governance and confidentiality.

31 October 2016- Distributed ledger technology (DLT), more commonly known as blockchain, is challenging traditional business models and providing new opportunities to reinvent financial services, according to a Deloitte Global report. Over the horizon: Blockchain and the future of financial infrastructure, addresses key uses for blockchain to transform the finance industry, while also highlighting potential challenges to adoption.

31 October 2016- Deloitte and the World Economic Forum, Over the horizon focuses on the ways in which blockchain technology has captivated the imaginations and wallets of the financial sector.

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Global Blockchain Technology Market Size, Status and Forecast 2023 | Effects of COVID-19 - LionLowdown

If you are like me, you have wrestled with a lot of puzzles during these stay-at-home months.

Jigsaw puzzles, crossword puzzles, Sudokus, chess puzzles, retrograde chess puzzles (intriguing; check it out), even one those metal puzzles you try to take apart while waiting for your drink at a bar which somehow ended up in a drawer. Ive been doing them all after a bazillion hours stuck in the house and I bet youve been doing the same.

But none of us have done puzzles like Eric Tentarelli did puzzles.

Tentarelli used a mix of computer database tech, linguistic insight and patience lots and lots of patience to become the first person to publish a 10x10 and a 11x11 word square, using only solid (no hyphens) words from a single language, topping the previous 9x9 record. And he did it in Latin, for reasons that will be explained later.

This isnt merely a COVID-driven accomplishment, although the pandemic sped things up. He has been working on this for perhaps five years. Why?

Theres the satisfaction of solving something that was an unsolved problem for more than 100 years in a way nobody had done even though all the tools were there, he said.

The number of combinations in a word square is very large. The possible letter combinations is greater than a google, Tentarelli added. Its not often you can work on something that fits on a sheet of paper that has combinations more than a google.

A word square is a crossword without any black squares to separate words. Constructing a 10x10 square requires finding 10 distinct words and stacking them so that their letters line up and spell out the same 10 words vertically.

Word squares have been around for almost as long as weve been writing words. Small ones are found in Ancient Roman graffiti and bigger ones populate some Medieval texts.

They were thought to have magical properties, said Tentarelli, perhaps most famously in the five-letter Sator Square, which can be found all over the place in Europe, and in something called The Book of Abramelin the Mage. Word squares can also be approached from a more mathematical bent, as a variant of packing problems in N-dimensional space.

You cant fiddle with word squares for very long before wondering how big they can get. Making a 3x3 word square is a snap and 4x4 isnt too bad, but beyond that seems pretty hopeless. You know how difficult it is to construct a crossword puzzle? Then think how much more difficult if youre not allowed to use black squares, Tentarelli said.

Enter the world of extreme puzzle-making.

Tentarelli, who grew up in Atkinson and works in a field he describes only as revolving around strategy and statistics, is part of that world. He went to MIT and got a Ph.D. in condensed matter physics, reminisces about reading Games Magazine as a kid, and has had a crossword puzzle printed in the New York Times. When he heard that people were stymied getting past a 9x9 word square, he got interested: Its rare to hear about a problem that was unsolved and in the field of word puzzles.

Tentarelli said the solution required alternating between the computer approach and the human. The geeky and patience-requiring parts of the solution involved compiling lists of words from reputable dictionaries into a database, with grammar rules to create 10-letter variants when, for example, nouns are made plural or verbs are put into different tenses.

Ive been entering words, coding them numerically to define how they would be conjugated, then running a script that would generate the word forms, he said.

The high-level decision was to do it in Latin rather than English, French, Klingon or Esperanto. As he explains in an article published in the latest issue of WordWays, an online journal about word play from Butler University, Latin is ideal because of its extensive and overwhelmingly regular system of inflectional endings.

English has some endings that finish up on many words, -ING being the most obvious example. but Latin has plenty more including some that extend to four and even five letters, which makes it easier to find word squares. In Latin, if the words in the bottom rows combine to produce nothing but common inflectional endings, such as -NTUR or -ATIS, there is good reason to hope the remainder of the square may be filled, he wrote.

His current word list contains approximately 220,000 base words. ... The number of resulting inflected forms, after duplicates are eliminated, is about 3,900,000. That includes words of all lengths but fortunately 10- and 11-letter words lie in the middle of the distribution (because the average word length in Latin is slightly higher than in English), so the final list currently includes about 520,000 10-letter words and 575,000 11-letter words.

The WordWays article lists all the words that he uses in various solutions, such as: ARANEATA is the feminine nominative singular of the perfect participle of the verb araneo, which means be full of cobwebs.

There may be some application to all this in cryptography, Tentarelli said. But mostly its just for fun, which is something were all in need of these days.

Im working on the 12-square, he said. I need to expand the word list.

If you want more geek in your week, subscribe to David Brooks free weekly newsletterat GraniteGeek.org.You can also listen to his weekly chat with Chris Ryan on WKXLradio at soundcloud.com/wkxl.

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We've all done puzzles during the pandemic, but we haven't done puzzles like this - Concord Monitor

Bitcoin is a decentralized digital currency that can be exchanged from the user to the user on the network without the need for a central bank managing the transactions. Bitcoin affirms the transactions by its network nodes with the help of cryptography. The transactions are then recorded in a ledger, which is called a blockchain and is always public for its verification. The primary aim of Bitcoin is to replace the traditional central banks, which act as intermediaries and wholly control the citizens money. Now lets have a look at the history of Bitcoin to know more about it.

Bitcoin History

The Bitcoin network first came into life on 3rd January 2009, though an anonymous entity registered the domain name bitcoin.org on 18th August 2008. Later on 31st October 2008, Satoshi Nakamoto authored a paper and was posted to a mailing list of cryptography. The title of the paper written by Satoshi Nakamoto was Bitcoin: A peer-to-peer electronic cash system. This paper highlighted how to use the peer-to-peer network. A peer-to-peer network is a system for the electronic transaction system without an intermediary. It doesnt rely on the trust of the third party. Satoshi Nakamoto mined the starting block of Bitcoin of 50 BTC. The history of the Bitcoin has been a roller coaster ride with extreme ups and downs. The digital currency has struggled over the years with various controversies but still outshone everyone. It has changed the way the mainstream world looks at banking and global finance.

How Was the First Bitcoin Created?

The first blocks of bitcoins were mined by Satoshi Nakamoto and came to be known as the Genesis Block. This genesis block marked the start of the bitcoin phenomenon. The Bitcoin network followed the same principles in the start as it does now. It mines the Bitcoin in the network after arranging and verifying the transactions with other people. Initially, at the very start, people would give away or swap bitcoin willingly for fun though the real founder of Bitcoin is still a mystery. Many people around the world believe that Satoshi Nakamoto is the pseudonym for Bitcoin founder and claims to be from Japan.

In 2016, Craig Wright who is an Australian entrepreneur told a news channel that he was the creator of Bitcoin and proved his claim by presenting a digitally signed message using the cryptographic keys that were associated with the blocks that were used to send 10 Bitcoins to Hal Finney as the first Bitcoin transaction. Bitcoin is slowly becoming the common currency around the world, and investors are really excited to invest in the cryptocurrency market for trading in the digital currency.

How Did People Get Bitcoin Initially?

Initially, people in the bitcoin network used the system to experiment with the new digital currency. They tried to learn how it worked and tested its loopholes. This gave rise to new Bitcoin in the network for the people which they can mine for themselves inside the Bitcoin network. As the years passed, the number of Bitcoins in the network grew, and so are the potential people mining the Bitcoins in the network. Now, people are crazy to mine bitcoin from all over the world, and this will continue until the last bitcoin is released in the network.

The only way to get more bitcoin is to generate them by mining. As per the protocol of the Bitcoin, the Bitcoin transactions are processed on the network by verifying solutions to the mathematical problems with the help of computers. Anyone with the help of their system computing power can verify the previous transactions and record them into the system. The Bitcoin network, in turn, rewards the miners by providing them with a new bitcoin. This Bitcoin is then added to the network along with the other available ones. The people who mine the Bitcoin are known as Miners and act as an intermediary to process all the transactions done on the network. The process of transactions includes accounting and verification of the transfer of Bitcoin. The whole program to carry out this complex task is carried out through a reward system, which is called mining.

Conclusion

The real name of Bitcoins founder is not yet known. Most people think that Satoshi Nakamoto is the inventor of Bitcoin, but there are people who have claimed to be the real founder, and none of them seems to be the right choice. Also, the creation of the first Bitcoin seems to be the one from the inventor of the Bitcoin, and how it was created is also a mystery in itself. If you are also interested in Bitcoin and want to invest in it, then you must know about the current price of Bitcoin and Bitcoin Price Prediction by crypto experts to get the idea of the market situation.

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Here is a Brief History About Where the First Bitcoin Came From - Tricity Daily

New Jersey, United States: The most recently added report on Quantum Cryptography Consumption Market Insights, Forecast 2020 to 2027, Market Analysis report encourages clients to make strategic business decisions and understand the industry competitive advantage and key players strategies. of the market. The most recently added report on the Quantum Cryptography Consumption Market has qualified and verifiable market insights conducted in the current scenario.

The research report of the Quantum Cryptography Consumption market offers detailed information and overviews of the market for the forecast period 2020 to 2027. The major competitors in the Quantum Cryptography Consumption market and their competitive landscapes are analyzed as they are market leaders and are concerned in the front. The report also takes into account the critical points of the market and offers important solutions for the growth of the market. In addition, the report also examines the raw materials supply chain channels, sales channels, and production flows of the major market players.

Quantum Cryptography Consumption Market: Competitive Landscape

Competitive Analysis is one of the best sections of the report, comparing the progress of leading companies using key metrics like market share, new developments, global reach, local competition, pricing, and production. From the nature of the competition to future changes in the vendor landscape, the report offers an in-depth competitive analysis in the Quantum Cryptography Consumption market.

Major Key Players Operating in the Market:

Quantum Cryptography Consumption Market Segmentation

The report contains the market size with 2019 as the base year and an annual forecast up to 2027 in terms of sales (in million USD). For the forecast period mentioned above, estimates for all segments including type and application have been presented on a regional basis. We implemented a combination of top-down and bottom-up approaches to market size and analyzed key regional markets, dynamics and trends for different applications.

Quantum Cryptography Consumption Market Segment by Type:

Quantum Cryptography Consumption Market Segment by Application:

Quantum Cryptography Consumption Market Regional overview:

In the report, experts analyze and forecast the Quantum Cryptography Consumption market on a global as well as regional level. Taking into account all aspects of the market in terms of regions, the focus of the report is on North America, Europe, Asia Pacific, the Middle East and Africa, and South America. The prevailing trends and various opportunities in these regions are studied that can convince the growth of the market in the forecast period 2020 to 2027.

Major Key Points Covered in Quantum Cryptography Consumption Market:

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Quantum Cryptography Consumption Market Size By Type, By Application, By Geography, By Top Companies And Forecast To 2027 - LionLowdown

Coronavirus (COVID19) pandemic has impacted all over industries across the globe, and Quantum Cryptography market is one of them. As the global market heads towards major recession, we are at In4Research, has published a brand-new latest research report which fully studies the impact of COVID-19 crisis on Quantum Cryptography Industry and suggests possible actions to curtail them.Quantum Cryptography Market report covers an in-depth analysis of the Quantum Cryptography industry including statistical, quantitative, qualitative data points with emphasis on the market dynamics including the drivers, opportunities & restraints, market size, industry status and forecast, competition landscape and growth & revenue opportunities after COVID-19 pandemic.

In addition, this Quantum Cryptography market research report covers both the global and regional markets with a detailed overview of the markets complete growth forecast. This research also sheds light on the markets wide-ranging competitive environment. The study also includes a dashboard overview of top businesses in both historical and current contexts, covering their active marketing strategies, recent developments & trends, and market contribution.

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Quantum Cryptography Market Segment Analysis:

The research report includes specific segments by Type and by Application. Each type provides information about the production during the forecast period of 2019 to 2026. The application segment also provides consumption during the forecast period of 2019 to 2026. Understanding the segments helps in identifying the importance of different factors that aid market growth.

Segmentation by Type:

Segmentation by Application:

There is coverage of market dynamics at the country level in the respective regional segments. The report comprises competitive analysis with a focus on key players and participants of the Quantum Cryptography market covering in-depth data related to the competitive landscape, positioning, company profiles, key strategies adopted and product-profiling with a focus on market growth and potential.

Main Key Players:

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Regional Analysis:

Quantum Cryptography market breakdown data are shown at the regional level, to show the sales, revenue and growth by regions.

Impact of COVID-19 on Quantum Cryptography Market

The report also contains the effect of the ongoing worldwide pandemic, i.e., COVID-19, on the Quantum Cryptography Market and what the future holds for it. It offers an analysis of the impacts of the epidemic on the international market. The epidemic has immediately interrupted the requirement and supply series. The Quantum Cryptography Market report also assesses the economic effect on firms and monetary markets. Futuristic Reports has accumulated advice from several delegates of this business and has engaged from the secondary and primary research to extend the customers with strategies and data to combat industry struggles throughout and after the COVID-19 pandemic.

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Quantum Cryptography Market Analysis and Growth Forecast by Applications, Sales, Size, Types and Competitors by 2020-2026 - Farming Sector

Safe Deposit. Symbol of cryptocurrency safety. The man puts a physical bitcoin in small Residential ... [+] Vault. Toned soft focus picture.

Theres a lurking fear in cryptocurrency communities about quantum computing. Could it break cryptocurrencies and the encryption that protects them? How close might that be? Do the headlines around quantum supremacy mean that my private keys are at risk?

The simple answer: no. But lets dive deeper into this phenomenon and really try to understand why this is the case and how quantum computing will interact with cryptocurrencies.

To start off with, lets define quantum computing and the classical computing were all used to, and seeing where the terms compare and contrast with one another. Quantum computing can be roughly placed in the same paradigm as classical pre-1900s physics and modern physics which comprises Einsteins insights on relativity and quantum physics.

Classical computing is the kind of computers weve grown used to, the extensions of Turings theories on computation, the laptops or mobile phones that you carry around with you. Classical computing relies heavily on the manipulation of physical bits the famous 0s and 1s.

Quantum computing relies on qubits, bits that are held in superposition and use quantum principles to complete calculations. The information captured or generated by a quantum system benefits from the ability of qubits to be in more than one physical state at a time (superposition), but there is information decay in capturing the state of the system.

One point that will be immediately relevant to the discussion is that quantum computers are not universally better than classical computers as a result. When people speak about quantum supremacy, including reports from Google GOOG and/or China, they really mean that a quantum computer can do a certain task better than classical computers, perhaps one that is impossible to do in any reasonable timeframe with classical computers.

We can think of this in terms of time scales from a computing perspective there are some, but not all functions, that go from being impossible to accomplish in any meaningful human-level time period to ones that become slow but manageable with a large enough quantum computer.

In a way, you can think of Turing tests and quantum supremacy tests in much the same way. Designed at first to demonstrate the superiority of one system over another (in the case of Turing tests, artificial language generation vs. human language comprehension, in the case of quantum supremacy tests, quantum computing systems vs classical computers), theyve become more gimmick than substance.

A quantum computer has to perform better at some minute and trivial task that might seem impressive but completely useless in much the same way a Turing test of machine-generated English might fool a Ukrainian child with no fluency in the language.

This means that we have to narrow down to a function that quantum computers can be better on that would materially affect cryptocurrencies or the encryption theyre built on in order for quantum supremacy to matter.

One area of specific focus is Shors Algorithm, which can factor large prime numbers down into two smaller ones. This is a very useful property for breaking encryption, since the RSA family of encryption depends on factoring large prime numbers in exactly this manner. Shors Algorithm works in theory with a large enough quantum computer and so its a practical concern that eventually, Shors Algorithm might come into play and among other things, RSA encryption might be broken.

On this front, the US National Institute of Standards and Technology (NIST) has already started gathering proposals for post-quantum cryptography, encryption that would operate and not be broken even with much larger quantum computers than the ones were currently able to build. They estimate that large enough quantum computers to disrupt classical encryption will potentially arrive in the next twenty years.

For cryptocurrencies, a fork in the future that might affect large parts of the chain, but it will be somewhat predictable there is a lot of thought being placed on post-quantum encryption technology. Bitcoin would not be one of the first planks to fall if classical encryption were suddenly broken for a number of reasons. Yet, a soft fork (as opposed to a hard one) might be enough to help move crypto-assets from suddenly insecure keys to secure post-quantum encryption.

Even an efficient implementation of Shors Algorithm may not break some of the cryptography standards used in bitcoin. SHA-256 is theorized to be quantum-resistant.

The most efficient theoretical implementation of a quantum computer to detect a SHA-256 collision is actually less efficient than the theorized classical implementation for breaking the standard. The wallet file in the original Bitcoin client is using SHA-512 (a more secure version than SHA-256) to help encrypt private keys.

Most of the encryption in modern cryptocurrencies are built on elliptic curve cryptography rather than RSA especially in the generation of signatures in bitcoin which requires ECDSA. This is largely due to the fact that elliptic curves are correspondingly harder to crack than RSA (sometimes exponentially so) from classical computers.

Thanks to Moores law and better classical computing, secure RSA key sizes have grown so large so as to be impractical compared to elliptic curve cryptography so most people will opt for elliptic curve cryptography for performance reasons for their systems, which is the case with bitcoin.

However, quantum computers seem to flip this logic on its head: given a large enough quantum computer with enough qubits, you can break elliptic curve cryptography easier than you might break RSA.

Both elliptic curve cryptography are widely used in a bunch of other industries and use cases as well RSA-2048 and higher are standards in the conventional banking system to send encrypted information, for example.

Yet, even with a large enough quantum computer, you would still have to reveal or find somebodys public keys so they could be subject to attack. With cryptocurrency wallet reuse being frowned upon, and a general encouragement of good privacy practices, the likelihood of this attack is already being reduced.

Another area of attack could be Grovers algorithm, which can exponentially speed up mining with a large enough quantum computer though its probable that ASICs, the specialized classical computers mostly used to mine bitcoin now, would be faster compared to the earliest versions of more complete quantum computers.

This poses more of a stronger threat when it comes to the state of cryptocurrencies: the ability to mine quickly in a sudden quantum speedup could lead to destabilization of prices and more importantly control of the chain itself an unexpected quantum speedup could, if hidden, lead to vast centralization of mining and possible 51% attacks. Yet the most likely case is that larger systems of quantum computing will be treated like any kind of hardware, similar to the transition for miners between GPUs, FGPAs and ASICs a slow economic transition to better tooling.

Its conceivable that these avenues of attack and perhaps other more unpredictable ones might emerge, yet post-quantum encryption planning is already in process and through the mechanism of forks, cryptocurrencies can be updated to use post-quantum encryption standards and defend against these weaknesses.

Bitcoin and even other cryptocurrencies and their history are filled with examples of hardware and software changes that had to be made to make the network more secure and performant and good security practices in the present (avoiding wallet reuse) can help prepare for a more uncertain future.

So quantum computers being added to the mix wont suddenly render classical modes of encryption useless or mining trivial quantum supremacy now doesnt mean that your encryption or the security of bitcoin is at risk right at this moment.

The real threat is when quantum computers become many scales larger than they currently are by which point planning for post-quantum encryption, which is already well on the way would come to the fore, and at which point bitcoin and other cryptocurrencies can soft fork and use both decentralized governance and dynamism when needed in the face of new existential threats to defeat the threat of quantum supremacy.

Here is the original post:
Here's Why Quantum Computing Will Not Break Cryptocurrencies - Forbes

Rolls-Royce CEO Torsten Mller-tvs said it best in describing its newest collection car. Wraith Kryptos is a Rolls-Royce Collection like no other. It is embedded with a cryptographic cipher and filled with mystery and intrigue.

Unveiled last July, Wraith Kryptos is unlike any bespoke vehicle from Goodwood. The interior and exterior are brimming with mysterious ciphers inspired by cryptography.

Those Matrix-inspired symbols are the creation of Rolls-Royce Bespoke Designer Katrin Lehmann, and that finding the key is the first step in uncovering the mysterious code, said Rolls-Royces press release.

However, theres a problem. Nobodys been able to decrypt the mysterious ciphers as of press time. As clients receive the first deliveries of their bespoke Wraith Kryptos, the British luxury carmaker has given away some clues to unravel the mystery behind Wraith Kryptos. Unsurprisingly, the key has something to do with the Spirit of Ecstasy hood ornament.

The Spirit of Ecstasy, the figurine that graces the bonnet of every Rolls-Royce motor car, holds the key to uncovering this code, added Mller-tvs. The word KRYPTOS is engraved in Rolls-Royce cipher around the base of the figurine, and with this information, clients will be able to embark on their cryptographic journey.

Apparently, the seven letters of KRYPTOS provides the starting point in breaking the code. In Wraith Kryptos, the Spirit of Ecstasy has green enamel detailing. Using the KRYPTOS engraving at the base as your starting point, focus your attention on the vehicles Delphic Gray paint that reveals brilliant specks of green and blue when exposed to varying degrees of light more clues that may lead to the final answer.

Inside, you get more clues. Youll find more ciphering on the illuminated treadplates, and Rolls-Royce said to look closer at the embroidery on the seat headrests. Only two people in the world are privy to Wraith Kryptos bewildering puzzle, and the answer remains in a sealed envelope hidden in a safe.

Rolls-Royce is giving away a unique and prestigious prize to the lucky someone who breaks the KRYPTOS code. The first client to decrypt this code will receive a unique gift from Rolls-Royce in recognition of their extraordinary talent! concluded Mller-tvs. Clients are encouraged to submit their answers using Rolls-Royces Whispers app beginning in February 2021.

The Rolls-Royce Wraith is a luxurious grand tourer for effortless travel. It has a 6.5-liter twin-turbocharged V12 motor with 624 horsepower and 590 pound-feet of torque. It has a top speed of 155 mph, and it rushes from zero to 60 mph in 4.4-seconds.

Wraith Kryptos is the most fascinating among Rolls-Royces collection models. But unlike Wraith Eagle VIII and Ghost Zenith, only Kryptos is built to boggle the mind.

Link:
Rolls-Royce has given away clues to unravel the Wraith Kryptos cipher - SlashGear