White House Tweaks Immigration Rules to Attract STEM Talent

The White House announced a series of immigration policy changes on Jan. 21 that aim to improve the ability of the U.S. to attract and retain international STEM talent. Among the actions, the administration has added 22 new STEM fields to the Optional Practical Training (OPT) program, which allows international students to work in the U.S. after graduation for a period of time. The announcement states that the added fields of study are primarily new multidisciplinary or emerging fields, and are critical in attracting talent to support U.S. economic growth and technological competitiveness. Among them are bioenergy, climate and Earth system sciences, cloud computing, data science and visualization, and human-centered technology design, which encompasses fields such as human-computer interaction and neuroscience. Students in the listed fields will now be eligible for a 24-month extension of their time in the OPT program, beyond the regular 12-month duration for non-STEM students.

Other announced steps include changes to eligibility guidance for O-1A visas, which are conferred to persons of extraordinary ability in certain fields. Specifically, the Department of Homeland Security updated its policy manual on O-1A visas to provide examples of evidence applicants can submit to demonstrate STEM expertise. Separately, the administration is seeking to promote educational exchanges through a new State Department-led Early Career STEM Research Initiative that will facilitate non-immigrant visitors engagement in STEM through research or training with host organizations, including businesses. The department has also announced that STEM undergraduate and graduate students on J-1 visas can receive up to 36 months of academic training, up from the current cap of 18 months.

A federal judge dismissed charges against MIT nanoengineering professor Gang Chen on Jan. 20 after Department of Justice prosecutors concluded they could not prove he committed grant fraud and other crimes related to the concealment of connections with Chinese institutions. According to reports, DOJ reached its decision after learning from the Department of Energy that the connections prosecutors accused Chen of hiding did not need to be disclosed in 2017, when he applied for the DOE grant in question, and that they would not have affected his eligibility for funding. On Jan. 21, Chen published an op-ed in the Boston Globe calling for DOJ and Congress to review his case, arguing that investigators and prosecutors twisted evidence against him and committed glaring misconduct by failing to obtain, consider, and turn over exculpatory information. He also added his voice to a growing chorus condemning DOJs pursuit of cases against academics based on alleged nondisclosures of foreign ties, writing that the departments misguided theory of prosecution could likely apply to thousands of professors who failed to list every routine professional activity with any entity in a foreign nation (which was not a requirement at the time).

The Department of Justice announced on Jan. 21 that former University of Arkansas electrical engineering professor Simon Ang has pleaded guilty to lying to federal investigators about being named as an inventor on Chinese patents. In exchange, the department will drop dozens of other counts, most of which involve allegations of fraud committed against NASA and the U.S. Air Force stemming from his nondisclosure of ties to Chinese businesses and receipt of funding from Chinese talent programs. Angs lawyer told the journal Science that the patents in question had no monetary value and he was serving as an adviser to a Singapore-based company owned by his brother. The lawyer also said Ang agreed to serve a prison sentence of one year and one day because that is the minimum length conferring eligibility for early release, and that at age 64 he has no plans to seek reinstatement by the university, which fired him two months after his arrest in July 2020.

The White House announced last week that President Biden will nominate Katy Huff to lead the Department of Energys Office of Nuclear Energy, a role she had filled on an acting basis since last May. Given hernomination, DOE career official Andrew Griffith has taken over as acting head of the office and Huff is now serving as a senior advisor to the energy secretary. Huff is on leave from the University of Illinois at Urbana-Champaign, where she is an assistant professor in the Department of Nuclear, Plasma, and Radiological Engineering. She received her doctorate in nuclear engineering from the University of Wisconsin-Madison in 2013. In her time at DOE, she has advocated for aggressive development of advanced nuclear reactors, including through construction of the Versatile Test Reactor, a proposed user facility for exposing reactor components and materials to conditions comparable to those that would exist in new reactor designs.

The House Science Committee advanced an amended version of the National Nuclear University Research Infrastructure Reinvestment Act by voice vote last week. The bill wouldrecommend Congress provide $600 million to the Department of Energy over eight years to establish new nuclear facilities at universities. Specifically, it would direct DOE to carry out a subprogram that funds advanced nuclear reactor concept demonstrations, construction of medical isotope production reactors, and construction of up to four research reactors, among other activities. The bill furtherinstructs that the subprogram support regional consortia that encourage the participation of minority-serving institutions, community colleges, and universities in EPSCoR states. Among amendments the committee adopted, one by Energy Subcommittee Chair Jamaal Bowman (D-NY) authorizes DOE to support non-technical nuclear research, defined to include areas such as social sciences or law that can support an increase in community engagement, participation, and confidence in nuclear energy systems, including the navigation of the licensing required for advanced reactor deployment.

President Biden met with the President's Council of Advisors on Science and Technology last week following a meeting of the council, which focused on efforts to improve monitoring of greenhouse gas emissions and accelerate innovation in energy technology. According to a readout of the event, PCAST briefed Biden on four areas it is currently examining: protecting against physical and financial risks from climate change; using science and technology to detect, track, and fight wildfires; reimagining the U.S. public health system to address decades-old challenges laid bare by the pandemic; and ensuring U.S. leadership in science and technology innovation. Prior to the meeting, Biden remarked on the importance of science in decision-making. Its essential that science and scientific integrity are again taken seriously and are at the center of what were about as a nation; that scientists have a seat at the table, every table in the government, he said.

Within a wide-ranging executive order last week on cybersecurity of national security networks, President Biden directed relevant agencies to identify within 180 days any instances where they are using encryption methods that are not resistant to hacking by quantum computers and to provide a timeline for transitioning such systems to compliant encryption methods. The National Security Agency has promoted the adoption of such algorithms for years to hedge against the potential development of a quantum computer capable of breaking current encryption schemes. Although NSA has stated it does not know when or even if such a computer will be developed, security researchers have raised concerns that hackers could steal presently encrypted data and store it away for decades until a quantum computer capable of breaking the encryption is developed. NSA plans to eventually adopt post-quantum encryption methods selected by the National Institute of Standards and Technology, which is currently evaluating candidate algorithms.

Excerpt from:
The Week of January 24, 2022 - FYI: Science Policy News

A team of researchers with Japan's NTT Corporation, the Tokyo University, and the RIKEN research center have announced the development of a full photonics-based approach to quantum computing. Taking advantage of the quantum properties of squeezed light sources, the researchers expect their work to pave the road towards faster and easier deployments of quantum computing systems, avoiding many practical and scaling pitfalls of other approaches. Furthermore, the team is confident their research can lead towards the development of rack-sized, large-scale quantum computing systems that are mostly maintenance-free.

The light-based approach in itself brings many advantages compared to traditional quantum computing architectures, which can be based on a number of approaches (trapped ions, silicon quantum dots, and topological superconductors, just to name a few). However, all of these approaches are somewhat limited from a physics perspective: they all need to employ electronic circuits, which leads to Ohmic heating (the waste heat that results from electrical signals' trips through resistive semiconductor wiring). At the same time, photonics enable tremendous improvements in latency due to data traveling at the speed of light.

Photonics-based quantum computing takes advantage of emerging quantum properties in light. The technical term here is squeezing the more squeezed a light source is, the more quantum behavior it demonstrates. While a minimum squeezing level of over 65% was previously thought required to unlock the necessary quantum properties, the researchers achieved a higher, 75% factor in their experiments. In practical terms, their quantum system unlocks a higher than 6 THz frequency band, thus taking advantage of the benefits of photonics for quantum computing without decreasing the available broadband to unusable levels.

The researchers thus expect their photonics-based quantum design to enable easier deployments there's no need for exotic temperature controls (essentially sub-zero freezers) that are usually required to maintain quantum coherence on other systems. Scaling is also made easier and simplified: there's no need to increase the number of qubits by interlinking several smaller, coherent quantum computing units. Instead, the number of qubits (and thus the performance of the system) can be increased by continuously dividing light into "time segments" and encoding different information in each of these segments. According to the team, this method allows them to "easily increase the number of qubits on the time axis without increasing the size of the equipment."

All of these elements combined allow for a reduction in required raw materials while doing away with the complexity of maintaining communication and quantum coherence between multiple, small quantum computing units. The researchers will now focus on actually building the photonics-based quantum computer. Considering how they estimate their design can scale up towards "millions of qubits," their contributions could enable a revolutionary jump in quantum computation that skips the expected "long road ahead" for useful qubit counts to be achieved.

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Research Opens the Door to Fully Light-Based Quantum Computing - Tom's Hardware

As we head into 2022, forecasts for Israels bubbling tech sector are big, optimistic, and showing no signs of slowing down. Industry experts and tech investors are looking ahead with eyes wide open and faith in the countrys entrepreneurs that the year to come will be strong with stable growth.

We continue to be really excited about Israel as a focus area, Nicole Priel, partner at Ibex Investors, tells NoCamels. Weve been really active in Israel and we dont see that slowing downWe see so much promise in this ecosystem across enterprise software and other sectors.

The outgoing year has been one of record-breaking funding, turning crises into opportunity, globally recognized groundbreaking inventions, a surge in valuations of Israeli tech firms, big acquisitions, and maturation into a scale-up nation.

We really are transitioning from startup nation to scale-up nation and this is just attracting so much capital, says Jonathan Medved, founder, and CEO of OurCrowd.

Israeli innovation is everywhere, touching numerous tech sectors simultaneously. In 2021, local tech companies continued to take the lead in cybersecurity, agriculture technologies, financial technologies, mobility, data, and digital privacy, among other fields.

The big question: Where will Israel make its mark in 2022?

With so many booming sectors within the high-tech arena, its a tough call to make. So, NoCamels asked the experts to share their predictions for the next 12 months.

If the pundits are right, these are the 7 tech trends where Israel will make an impact in 2022:

E-commerce has exploded throughout 2021, in large part due to the COVID-19 pandemic.

According to market reports, 66 percent of customers choose what to buy based on convenience. So, it is no surprise that e-commerce is a booming industry.

Theres a couple of spaces that we think Israel is really going to excel in, anda couple of them are around e-commerce. We are thinking a lot about how companies are going to chip away at Amazons monopoly, including around logistics and warehousing Priel told NoCamels.

Israeli companies are looking for solutions to rapid shipping and the online returns space, among other areas. Priel says Ibex Investors are taking a look at the online returns space and thinking about how startups can help mitigate online returns to create a stronger online shopping experience overall.

In addition to changing the way users shop, sellers need strong e-commerce tools for their online stores.

More focus and emphasis is going to be placed on customer success as a driver within SaaS organizations, so we are excited to see what technologies will pop up to support CS organizations and help drive revenue, says Priel.

It is more expensive to acquire a new customer than it is to retain a previous customer, Priel explains. It is because of this principle of marketing that customer satisfaction will become a more dominant indicator and marketing metric for SaaS-based companies which could allow sales teams to more accurately serve their clientele.

And, its not just in the traditional e-commerce space that well see new solutions.

Medved believes the next 10 years will see huge growth in immersive e-commerce.

We are looking at all kinds of AR, VR, more immersive interactions [in general] will become more normal over the coming years, he says, noting investments in ByondXR, an Israeli software company that creates immersive virtual stores where people can pick out goods, and ZipIt, which can turn any store into a touchless, personless Amazon-like store.

More advanced logistics, last-mile delivery, and shipment innovations are going to be a popular trend in tech in 2022, says Priel, citing dark kitchens food producers with no physical location and dark warehouses spaces used to deliver orders to shorten the distance to the consumer as examples.

We are also very excited about the idea of dark kitchens and dark warehouses for delivering items to consumers, whether its merchandise or food, says Priel.

While these unique distribution methods are important for last-mile delivery, the COVID-19 pandemic put the spotlight on supply chain logistics in general.

Supply chain is critical [and] Israel is very strong in terms of optimization and planning. There are a lot of unmet needs that we are busy working on, says Medved.

Blue-and-white solutions include Freightos, which streamlines the shipping industry through an international freight marketplace; BionicHive, which deploys easily portable and autonomously machines around warehouses; and Trellis which predicts the yield, cost, and quality of produce while using AI to accurately move goods.

Semiconductors are found in every piece of hardware we use from personal computers, cars, databases, toasters to rocket ships, and more.

Israel has a global name for its hardware innovation. With an ever-increasing need for processing power thanks to big data and AI its no surprise that in 2021, this country continued its rule as a global powerhouse in semiconductor and computer chip R&D.

Intel announced in May that it will be investing $10 billion in a new processing center in Kiryat Gat in addition to investing $600 million in its centers in Haifa and Jerusalem.

In March, Google announced that it will be doubling down on Israeli computer chip design and production. They hired former senior Intel executive, Uri Frank as VP of Engineering of Server Chip Design to build a world-class team in Israel.

Market reports show 2022 demand for computer chips is meant to rise. And this will only benefit Israel.

The increasing importance of semiconductors will only be good for Israel. We have situations like Facebook, Microsoft, and Amazon all talking about setting up semiconductor activities here, says Medved.

Technology can only move as fast as the computer chips its built on. So how is Israel making them faster?

The answer is quantum computing.

Quantum Computing is a type of computing that harnesses the properties of quantum states to create calculations. Naturally, computers can only compute information as fast as physics will allow the particles to move. But, utilizing quantum properties, information can move much, much faster than currently possible.

The Israeli government is making a strong effort to push Israel forward in the field.

In 2019, the Knesset committed roughly $400 million to a five-year National Quantum Initiative which included $60 million towards the effort of producing a quantum computer. Physics Today reported in October that over the last two years, there has been a leap from five to 30 quantum-based companies in Israel.

Earlier this month, Hebrew University Physicist, Dr. Shlomi Kotler, won Physics Worlds 2021 Breakthrough of the Year award, presented by the UK-based Institute of Physics to two research teams who advanced the understanding of quantum systems.

His team successfully quantum-mechanically entangles two drumheads that can be used as quantum sensors or nodes in a quantum network.

Physics World editors chose this years winners from nearly 600 published research articles and wrote the winners demonstrated important work for scientific progress and/or the development of real-world applications.

CEO and co-founder of Israeli-based, Quantum Machines, Itamar Sivan told Physics Today that he has no doubt that quantum computing will become influential and its ultimately a question of When?. He credits his companys success to the easy accessibility to funding for quantum based-firms. He said, There are great engineers and amazing talent in Israel. We can find people here who are both experts in quantum but also have some engineering background.

SEE ALSO: On Yom Haatzmaut, A Look At Israels Innovation Contributions To The World

Talking about the upcoming year, Medved says, 2022 will see Quantum Computing attract continued strong interest from investors. I expect that global Quantum VC investment will more than double from 2021s $1 billion and that revenues of Quantum companies will near $500 million in 2022. While this is impressive growth, we havent seen anything yet. In a decade from now, Quantum will be ubiquitous, and will be an order of magnitude larger in investment and revenues. While the mainstream adoption of quantum computing is still a decade away, the technological advances that are coming out of Israel will definitely make waves in the coming year and beyond.

The blockchain industry has come a long way. It started 12 years ago as a payment method and store of value. The technology slowly evolved to be a solution for supply chain management, digital security, voting applications, financial applications, and digital ownership in the form of tokens called NFTs and much more.

In 2021, blockchain technology became much more mainstream not only with the explosion of the NFT ecosystem but it gained adoption or is being explored by companies like Nike, Adidas, Facebook (Meta), PayPal, Visa, Ubisoft, and Shopify.

I think its going to flourish like crazy, Medved says of blockchain. Were starting to make investments in those types of companies. We have not been big players or players at all in ICOs or cryptocurrencies but we believe in DeFi and that theres going to be a lot of business applications utilizing the blockchain and now is the time.

The blockchain industry is set to be worth $67.8 billion by 2026, according to market reports.

Blockchain is expected to continue being a strong and emerging sector into 2022, especially in Israel.

In November, American cryptocurrency exchange Coinbase acquired Unbound Security for a believed $150 million, according to a report. Coinbase not only gains access to some of the worlds most sophisticated cryptographic security experts but also a presence in Israel Weve long recognized Israel as a hotbed of strong technology and cryptography talent, reads a press release.

According to data compiled by Start-Up Nation Finder, cryptocurrency-tagged companies raised, for the first time ever, over $1 billion in funding for 2021. While a big milestone for the Israeli Web3 ecosystem, the global acceleration of the cryptocurrency markets crossing $2 trillion leaves a lot of room for Israels growth within this sector.

The pandemic accelerated the need for digital health solutions such as telemedicine, at-home medical devices, and personalized treatments.

Theres no slowing [digital health] down because people will get healthier, it will become much more efficient and it will reduce medical costs, says Medved.

Israel has long been a powerhouse in the health-tech space and COVID-19 has only upped its innovation. Israel has over 1,400 digital health startups, according to Start-Up Nation Finder.

On a global level, telehealth has increased 38 times from pre-COVID-19 levels, according to market reports. Global healthcare spending is set to hit over $10 trillion in 2022, and Fortune Business Insight predicts telehealth to be a $397 billion industry by 2027.

Israeli companies are all over the digital health space, with artificial intelligence for drug discovery, molecular diagnostics for personalized treatments, and VR-based FDA compliant telehealth meetings.

Among the companies to hit the news in 2021, are the likes of air filter companies like Aura Air, which this past week won the approval of the health and education ministries to be installed in 700 Jerusalem classrooms, and Tadiran which says it removes 99.9% of COVID-19 particles from the air. Additionally, SaNOtize, invented a nasal spray to kill the virus with a spritz and MigVax, claims to have an oral effective booster against the virus.

Also earlier this month, eight Israeli startups werenamedto the prestigiousDigital Health 150, an annual global ranking by New York-based research firm CB Insights of the 150 most promising companies using digital technology to transform the healthcare industry.

On health care technology, Medved told NoCamels, The most important word today in venture capital seems to be velocity. There seems to be a speed at which funding is getting done, companies are growing much faster than before and thats happening in healthcare too which is one of the slower moving areas because of the need for approval and you even see the FDA, because of the changes made in the pandemic just moving a lot faster.

Food tech conquered the headlines in 2021, with a wide range of jaw-dropping innovations.

And Israel is taking part in this revolution of what we eat, how we eat it, what its wrapped in, and how it gets from farm to our plate.

In September, Margalit Startup City Galil the International Foodtech Center, developed in conjunction with the Jewish National Fund (JNF), opened its doors. The center is dedicated to the application of food science and food technologies.

Lab-grown meat was a buzzword in 2021 and is likely going to continue to demand solutions that tackle the harmful effects of livestock systems and reduce the populations reliance on livestock in 2022. Earlier this year, NoCamels reported on the Israeli FoodTech incubator The Kitchen Hub and how its using its resources to cultivate sustainable innovations in the food industry.

Indeed, the Food and Agriculture Organizations of the UN found that the livestock sector emerges as one of the top two or three most significant contributors to the most serious environmental problems.

In November, the worlds first lab-grown meat factory opened in Israel.

Future Meat Technologies, a cell-grown meat developer, raised the most in the sectors history with a Series B investment of $347 million. This investment broke records as the biggest single investment in a cultured meat company to date.

Beyond the lab-grown meat trend, a slew of companies like Imagindairy develop animal-free dairy, Ukko designs proteins that dont trigger allergic responses, and ZeroEgg produces plant-based eggs that aim to behave and taste like the real thing.

Were (globally) investing broadly in food, a ton of money, in next generation milk, eggs, fish, and reduced sugar. Were investing in agriculture tech in terms of data collection and sensors, but not for one year, says Medved.

See the article here:
7 Tech Trends Where Israel Could Make An Impact In 2022 - NoCamels - Israeli Innovation News

We already have the complete list of Spaniards who have managed to enter the Guinness Book of Records during this 2021. From a man who makes rings to an Olympic Karate champion. This is the full list.

For many, the Guinness Record is a book where you can spend the afternoon looking at curiosities. Or rather discovering the free time that people have when it comes to achieving really curious feats (some even questionable).

But the reality is that people put a lot of effort into being the best at a specific task in order to be part of a select group made up of a few thousand people.

Now that 2021 has come to an end the organization of the Guinness Record has published a list with the Spanish who have achieved a record during this year. This is the complete list in which surely more than one sounds like something to you, lets find out:

Be very careful if you see this tree: according to the Guinness Record, it is the most dangerous tree in the world. It is very toxic and can be fatal to humans.

Alejandro Soler, more muscle-ups on rings in an hour: On February 1, 2021, Alejandro Soler Tar performed 156 muscle-ups on rings in Alicante. Alejandro also held the record for the most push-ups in a minute carrying a 100-pound pack: 49. Christian Lpez, longer with a bicycle balanced on his chin: On April 25, 2020, Christian Roberto Lpez Rodrguez balanced a bicycle on his chin for 9 minutes and 41.29 seconds in Toledo. The Grefg, Most Concurrent Viewers on a Twitch Broadcast: On January 11, 2021, David TheGrefg Cnovas Martnez reached a peak audience of 2,468,668 simultaneous viewers on Twitch in Alhama de Murcia. Enrique Stuyck, more letters to the editor published in one year (same newspaper): Between May 29, 2019 and May 28, 2020, the sports newspaper Diario AS published 84 letters to the editor written by Enrique Stuyck Rom.

IBM has just announced a new milestone in the quantum computing sector: they have created the most powerful quantum computer to date, being capable of operating with 53 qubits.

lvaro Martn Mendieta, the fastest time to put the laces on a pair of shoes and tie them: On August 7, 2020, lvaro Martn Mendieta only needed 31.96 seconds to put the laces on a pair of shoes and tie them in Rivas Vaciamadrid. Pedro Elis Cinta, more time juggling five basketballs: On September 7, 2020, Pedro Elis Cinta kept five basketballs in the air for 1 min and 14.36 s in Osuna, Seville.

The Kempinski Hotel Bahia, near Marbella has the most expensive Christmas tree in the world. It is valued at $ 15 million for its luxury jewelry decoration.

Rafa Nadal, more Grand Slam mens singles titles: On October 11, 2020, Manacor tennis player Rafael Nadal equaled Roger Federers (Switzerland) record of 20 victories in individual Grand Slam tournaments after overwhelming Serbian Novak Djokovic in the final of the French Open held at Stade Roland Garros in Paris. Sandra Snchez, more medals won in the Karate 1 Premier League: From January 10, 2014 to March 12, 2021, Olympian Sandra Snchez won 36 medals in the World Karate Foundations top competition. This summer he won Gold at the Tokyo Olympics.

Without a doubt, we Spaniards are a nation of records, and if not you just have to take a look at this list. Lets see what awaits us in this coming 2022. Merry Christmas.

More:
The Spanish who have entered this year 2021 in the Guinness Book of Records | Life - Central Valley Business Journal

Quantum Cryptography market report contains detailed information on factors influencing demand, growth, opportunities, challenges, and restraints. It provides detailed information about the structure and prospects for global and regional industries. In addition, the report includes data on research & development, new product launches, product responses from the global and local markets by leading players. The structured analysis offers a graphical representation and a diagrammatic breakdown of the Quantum Cryptography market by region.

Quantum cryptography Market is expected to reach $1.53 billion by 2023 growing at a CAGR of around 26.13% during the forecast period.

Quantum Cryptography Market: Global Drivers Restraints Opportunities Trends and Forecasts up to 2024

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Overview:Quantum cryptography is a new method for secret communications that provides the assurance of security of digital data. Quantum cryptography is primarily based on the usage of individual particles/waves of light (photon) and their essential quantum properties for the development of an unbreakable cryptosystem primarily because it is impossible to measure the quantum state of any system without disturbing that system. It is hypothetically possible that other particles could be used but photons offer all the necessary qualities needed the their behavior is comparatively understandable and they are the information carriers in optical fiber cables the most promising medium for very high-bandwidth communications.

Quantum computing majorly focuses on the growing computer technology that is built on the platform of quantum theory which provides the description about the nature and behavior of energy and matter at quantum level. The fame of quantum mechanics in cryptography is growing because they are being used extensively in the encryption of information. Quantum cryptography allows the transmission of the most critical data at the most secured level which in turn propels the growth of the quantum computing market. Quantum computing has got a huge array of applications.

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Market Analysis:According to Reportocean Research the Global Quantum cryptography Market is expected to reach $1.53 billion by 2023 growing at a CAGR of around 26.13% during the forecast period. The market is experiencing growth due to the increase in the data security and privacy concerns. In addition with the growth in the adoption of cloud storage and computing technologies is driving the market forward. However low customer awareness about quantum cryptography is hindering the market growth. The rising demands for security solutions across different verticals is expected to create lucrative opportunities for the market.

Market Segmentation Analysis:The report provides a wide-ranging evaluation of the market. It provides in-depth qualitative insights historical data and supportable projections and assumptions about the market size. The projections featured in the report have been derived using proven research methodologies and assumptions based on the vendors portfolio blogs whitepapers and vendor presentations. Thus the research report serves every side of the market and is segmented based on regional markets type applications and end-users.

Countries and Vertical Analysis:The report contains an in-depth analysis of the vendor profiles which include financial health business units key business priorities SWOT strategy and views; and competitive landscape. The prominent vendors covered in the report include ID Quantique MagiQ Technologies Nucrypt Infineon Technologies Qutools QuintenssenceLabs Crypta Labs PQ Solutions and Qubitekk and others. The vendors have been identified based on the portfolio geographical presence marketing & distribution channels revenue generation and significant investments in R&D.

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The company has also produced and manufactured electronic and optical pulsers. In addition Crypta Labs deals in application security for devices. The company deals in Quantum Random Number Generator products and solutions and Internet of Things (IoT). The major sectors the company is looking at are transport military and medical.

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Regional AnalysisThe Americas held the largest chunk of market share in 2017 and is expected to dominate the quantum cryptography market during the forecast period. The region has always been a hub for high investments in research and development (R&D) activities thus contributing to the development of new technologies. The growing concerns for the security of IT infrastructure and complex data in America have directed the enterprises in this region to adopt quantum cryptography and reliable authentication solutions.

BenefitsThe report provides an in-depth analysis of the global intelligent apps market aiming to reduce the time to market the products and services reduce operational cost improve accuracy and operational performance. With the help of quantum cryptography various organizations can secure their crucial information and increase productivity and efficiency. In addition the solutions are proven to be reliable and improve scalability. The report discusses the types applications and regions related to this market. Further the report provides details about the major challenges impacting the market growth.

Region/Country Cover in the Report

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Key Players Covered in the Report

Nucrypt Crypta Labs Qutools and Magiq

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Quantum Cryptography Market Share-Size, Growth Drivers 2021, Global Demand, Emerging Trends, Opportunities in Grooming Regions, Key Players...