By Lt. Gen. Dr. S.P. Kochhar, Director General, COAI

Quantum technologies represent a paradigm shift in the world of computing and telecommunications. It is not simply an incremental upgrade over classical computing, but rather a new approach that promises to provide unprecedented levels of speed, security, and efficiency.

Quantum communications can be used to transmit data securely and efficiently. Unlike classical communication, where information is transmitted in bits, quantum communication can transmit information in quantum bits, or qubits, which can be both 0 and 1 simultaneously. This property allows for much more efficient data transfer as well as the ability to perform calculations exponentially faster than classical technologies, allowing quantum computers to perform many calculations simultaneously, drastically reducing the time required to perform complex calculations

Additionally, quantum communication is inherently secure, as any attempt to eavesdrop on the communication will disturb the quantum state, alerting the sender and receiver to the intrusion. This makes quantum communication ideal for transmitting sensitive information, such as financial transactions and government communications.

Quantum technologies have the potential to revolutionize 5G networks by enhancing security, increasing network capacity, and reducing latency. Some of the applications of quantum technologies in 5G include quantum key distribution, quantum cryptography, and quantum sensing.

Quantum key distribution (QKD) is a technique that uses quantum mechanics to distribute encryption keys securely. QKD is a promising technology for 5G networks as it can provide unbreakable encryption, which is essential for securing critical communications. By using QKD, 5G networks can prevent eavesdropping and data tampering, which are major concerns in modern communication systems.

Quantum cryptography is another technology that can be used in 5G networks. It uses the principles of quantum mechanics to create unbreakable encryption codes. Quantum cryptography can ensure the integrity and confidentiality of data transmitted over 5G networks.

Quantum sensing is a technology that uses quantum mechanics to detect and measure physical parameters with high precision. Quantum sensors can be used in 5G networks to monitor the environment, detect anomalies, and optimize network performance.

Blockchain technology can also be used simultaneously with quantum technologies in 5G networks. Blockchain is a distributed ledger technology that can provide secure and transparent transactions. By using blockchain, 5G networks can ensure the authenticity of data, prevent data tampering, and enable decentralized trust. Blockchain can also enable secure peer-to-peer transactions, which can be useful for micropayments and other use cases in 5G networks.

There are several examples of the use of quantum technologies in 5G networks, although commercial deployment of these technologies is still in the early stages. Here are some examples:

1. In 2020, China Mobile partnered with QuantumCTek to deploy a 5G network that uses quantum cryptography to provide secure communication between two government agencies in Shanghai. The network uses QKD technology to encrypt data transmitted between the agencies, ensuring the security of the communication.

2. In 2021, SK Telecom, a South Korean telecommunications company, partnered with ID Quantique to deploy a 5G network that uses quantum cryptography to secure critical communication between its headquarters and data center. The network uses QKD technology to provide unbreakable encryption for data transmission.

As for factual figures, it is worth noting that quantum technologies are still in the early stages of commercial deployment in 5G networks, and it is difficult to provide exact numbers. However, it is estimated that the global market for quantum cryptography could reach $2.2 billion by 2026, driven by the growing demand for secure communication in 5G networks and other industries. Additionally, according to a report by ResearchAndMarkets, the market for quantum sensors is expected to grow from $278 million in 2020 to $1.1 billion by 2025, driven by the increasing adoption of quantum technologies in various applications, including 5G networks.

India has also been actively exploring the use of quantum technologies in various industries, including telecommunications. The Indian government announced the establishment of the Quantum Communication Application and Technology (Q-CAT) lab in Delhi, which is a joint initiative of the Department of Telecommunications (DoT) and the Indian Institute of Technology (IIT) Delhi. The lab is expected to develop indigenous technologies for secure communication, including QKD for 5G networks. The Indian Institute of Science Education and Research, Pune (IISER) also established a Technology Innovation Hub (TIH) on Quantum Technology with support from the Department of Science and Technology (DST), which will work towards development of novel computing and quantum materials, sensors, quantum communication devices and systems along with quantum computers.

Recently, the Union Cabinet of the Indian Government approved the National Quantum Mission (NQM), which aims to accelerate research and development in quantum technologies and establish India as a leader in this field, and involves a cost of INR 6,003.65 crore from 2023-24 to 2030-31. With this, India becomes the sixth country in the world to have a dedicated quantum mission.

The import of these initiatives is significant as they reflect Indias recognition of the importance of quantum technologies in various industries, including telecommunications. The establishment of the Q-CAT lab and the NQM are expected to accelerate the development and adoption of quantum technologies in India, which could have implications for the global quantum technology landscape. Furthermore, the indigenous development of quantum technologies in India could lead to the creation of new jobs and the growth of the domestic technology industry. It is an exciting time to be at the forefront of this quantum revolution, where the possibilities for discovery and advancement are endless.

Read more here:
Envisioning a Quantum leap for the future of Telecom - Express Computer

This is an audio transcript of the Behind the Money podcast episode: Night School, Class 3 Big Tech vs the insurgents

[MUSIC PLAYING]

Peter Spiegel Welcome to Behind the Money Night School. Im Peter Spiegel. Im the US managing editor of the Financial Times. BTM Night School is a special series made in collaboration with Blinkist that will serve as a guide to the US economy in 2023. For tonights lesson...

John Thornhill I think AI is different. It does disrupt peoples jobs. I dont think it ever tends to replace jobs outright. What it does do is change the nature of those jobs.

Peter SpiegelFrom the rise of ChatGPT to lay-offs at companies like Meta and Amazon, tech has dominated the headlines in 2023. Here to help us make sense of it all is the Financial Times innovation editor John Thornhill.

John, looking at the US economy, 2023 has been a year where weve seen the economy slow, and that is nowhere more apparent than in big tech, where firms like Amazon, Google and Microsoft have all announced some of the biggest lay-offs of any American companies. Why are they being hit so hard?

John Thornhill I think several things are going on at the moment. And youre right. I mean, so far this year, the latest tally, I think about 100,000 jobs have gone from the big tech companies, which is a lot of jobs. Several things, I think. One, last year, I think during the whole Covid pandemic, all of the big tech companies overinvested. They thought the future was gonna arrive quicker than it in fact did. And everyone was going online. They were using Zoom; they were using Google Meet. Everyone is working remotely. So there was a big demand for tech products. And so I think part of the story is were just coming off the peak. The Nasdaq index of kind of tech stocks is down 16 per cent over the past year, although its gone up 12 per cent this year. And I think that really, its just a recalibration when you look at a lot of the hiring figures or the investment levels or the VC funding, 2023 compared to 21, its really still showing an upward tick. Its just that this blowout year of 2022 has now been rolled back.

Peter SpiegelSo these names that we were just talking about that dominate in many ways our daily life Microsofts, the Googles, the Amazons if were coming off the peak, are these lay-offs and the downturn sign that these companies are sort of losing the position in the US economy, that theyre gonna be diminished in the US economy going forward? Or is this a classic case of sort of retrenchment where theyre basically just sort of cutting costs to maintain their leadership position going forward?

John Thornhill Im definitely in the retrenchment school. If you look at the underlying trend lines on ecommerce or the shift to digital advertising or just the uptick of adoption of all these tech products, youre seeing the underlying trend is still moving very sharply northwards. Youre seeing a whole load of new start-ups being formed, partly as a result of the kind of tech lay-offs as well, that there are a lot of kind of surplus tech workers who are now thinking about what theyre gonna do. So theres been a big surge in kind of new business formation weve seen since the Covid pandemic. And I think just generally theres a whole secular trend towards increased use of technology. Five billion people in the world have a smartphone. Increasing amount of commerce is going online, about 20 per cent in the US now. And so I think the secular trend will eventually can outweigh the cyclical downturn.

Peter Spiegel All right. So lets talk about that because theres this trend towards increased use. I think when we talk about technology in general, we tend to focus on these big companies because, as I said, they tend to dominate our lives. But as you pointed out, new companies being started, a secular trend towards more use of technology in our daily lives, so although these big tech groups in Silicon Valley play an important role, its not the only way technology is impacting the US economy. But what are some of these trends that we should be watching, you know, to see whats going to influence our lives and whats going to influence the broader economy?

John ThornhillWell, I think part of the story is that youre gonna see a battle between the big incumbents the Microsofts, the Googles, the Amazons and so on that youve been talking about and the insurgents, if I call them, the next generation of those companies that are emerging. And I think its gonna be fascinating to see how this battle plays out. On the one hand, its been easier and cheaper to launch a company than ever before. You have, everyone can operate in the cloud, which means that the cost has been reduced, the cost of software has plummeted, and finance is more readily available than ever before. So I think we have seen this really interesting trend of new business formation post-the Covid pandemic and how these businesses grow and adopt the new technologies that are coming along. Are they gonna shake the market grip that the big companies have, or are we gonna see a lot more disruption from below?

Peter Spiegel OK, so disruption by insurgents takes us very quickly to what I mentioned at the top, ChatGPT. Now OpenAI, which is sort of the inventor or the developer of it, has gotten some backing from Microsoft, but it clearly has become a disrupter, as you say. And its also convinced a lot of people that AI has finally arrived, and it become a...have a real impact on the real economy. Whats your view? I mean, is AI now ready for prime time? Will it play a role as a disrupter, or should we not believe the hype?

John Thornhill Well, these technologies have been developing over several years. I mean, Google really, the first people who came up with the transformer technology, and GPT stands for Generative Pre-trained Transformers. So they were the people who first came up with the technology, and then its been spread and other people have adopted it. As youre saying, OpenAI, which is this fascinating, kind of San Francisco-based research company, has really kind of pioneered the use of what are called large language models or the ChatGPT that came out. And I think theyve had a huge impact. So I think what...the difference is that a lot of the big companies and Google and Microsoft in particular had been developing these generative models. But when we saw the launch of ChatGPT in November last year, they really went mainstream. Millions of people started playing with them. About a hundred million people started using them within two months of launch, which is an astonishingly rapid take-up of a new technology. And I think we all had that kind of wow moment where you prompt a question in ChatGPT and you get this extraordinarily plausible instantaneous text coming out of the machine. And I think it is an amazing thing. But I think people are only just beginning to work out how its gonna have an impact.

Peter Spiegel Let me play the cynic or the sceptic here, because it was not so long ago that we had another, quote unquote, disruptive technology in something called the blockchain. And the most vivid thing we saw about this blockchain was in cryptocurrencies. And yet in the last few months, weve seen a complete collapse of the most prominent part of the crypto exchange called FTX. And that has seemed to raise all sorts of new questions about cryptocurrencies in general, but also whether blockchain is actually as disruptive as we maybe once thought. Take me through your thoughts on blockchain, and why perhaps AI as a disruptive technology is more worth paying attention to or not versus the hype that was around blockchain?

John ThornhillWell, Gartner, the data company, came up with this quite useful model called the hype cycle, which is rather nice (Peter chuckles). And so they plot where each technology is on this chart that they produced according to how much hype there is around a particular technology. So at the moment, AI is very close to the top of the peak of inflated expectations, as they call it. People are getting so excited about it. Metaverse and blockchain have gone over the top of that peak, and theyre now in what the Gartner would call the slough of despond. (Peter laughs) And then after a few months after people have stopped talking about it, then you get the slow adoption. And thats really when I think a lot of these technologies go mainstream. So I think that youre seeing exactly that with blockchain, there is massive overhyping of it. We saw the whole collapse of the FTX crypto empire. People have almost shaken their heads and thrown up their hands in despair and thought, this is never gonna come to anything. But I think people will start thinking, what are the real uses of this? How can we adopt it? And I think we might begin to see some really interesting uses over the next five, 10 years.

Peter SpiegelAnd when you say find ways to use it, do you mean cryptocurrencies specifically or more broadly, the blockchain technologies and how something that is, you know, visible and transparent to the world and cannot be hacked at is something that other industries could use potentially?

John ThornhillI think its the underlying blockchain technology that people are beginning to think, is this a different way of handling data and making transfers in a way that is more decentralised, is not controlled by one central authority and so on? So I think a lot of the models that weve seen emerge so far have failed, but there is still, I think, possibilities that they could get adopted in the future.

Peter Spiegel Lets go back to AI and to a certain extent to ChatGPT, but AI more generally, because if you combine AI with robotics, you have a debate about whether basically increased automation and machine learning through robotics is good or bad for the US economy. So on the upside, theres the obvious economic argument that automation increases productivity and productivity is key to any country increasing its collective wealth. So therefore, on paper at least, this is a good thing for the US economy. But many of us have seen that there are, automation frankly takes jobs away from a lot of blue-collar Americans, which means there are even fewer well-paying jobs for the average American. So in your view, because you are a columnist, is automation and robotics, you know, a plus or a minus for the US economy?

John Thornhill I would say its definitely a plus. I think this debate has been going on for several centuries and in fact, ever since the Industrial Revolution, that its very easy to see which jobs are destroyed by new technologies and very hard to predict which jobs are gonna be created. I think AI is different. Its an incredibly powerful whats called a general purpose technology that infuses the whole economy at large. I think it will have an incredible impact on productivity in a whole load of different areas. And one of the ones Im most interested in is healthcare at the moment. But as you say, it does disrupt peoples jobs. So I dont think it ever tends to replace jobs outright. What it does do is change the nature of those jobs. In healthcare, for example, a lot of speculation out there that it will change the role of a doctor a lot more than it will change the role of a nurse, for example. In the past, when manufacturing was automated, it definitely hit the blue-collar jobs. It was that kind of automation of muscle. What AI is doing is automating the brain. And so I think thats gonna affect a lot more white-collar jobs going forward...

Peter Spiegel Hopefully not journalists...

John Thornhill Well, maybe some journalists (laughs), but not columnists, I think.

Peter SpiegelBefore I let you go, I want to change topic slightly from the hard science and the disruptive nature of technology to sort of the policy side of things, because one of the biggest stories in technology, I would argue, is that its become in many ways the big battleground in geopolitical conflict, particularly between China and the US. So almost on every sector in technology microprocessors, quantum computing, renewables, green technologies, 5G you have the US and China at loggerheads, sanctions, bans, all these kinds of things. Just to throw this out there, who do you think is winning the global tech war? Because there is a lot of nervousness in Washington that China has taken a quantum leap ahead of the west on many of these technologies. Is that paranoia? Is that actually happening? What would be your view in terms of where China and the US stand right now in advanced technologies?

John ThornhillIf I can put it in a slightly different way, I think both sides are winning, which means also both sides are losing. In some areas like 5G telecoms infrastructure that you were talking about, no doubt China has won that war. I think in open areas that are still now very competitive, in particular, three I would pick out. One is chips that you mentioned. At the moment, 90 per cent of the worlds leading chips are manufactured in Taiwan, which a lot of people in Washington worry is an incredible kind of geostrategic hotspot. What happens if Taiwan came off market? Thats obviously an enormous kind of strategic challenge for America, which is, explains why theres been this massive investment in kind of chip production in the US. AI, I think, is one of the other areas when you look at the papers that are now coming up. China has put an enormous effort into increasing its capability in that area. I think for the moment, as far as anyone can tell, America still has the significant edge in terms of research. But I think China has probably got the edge in terms of the application of a lot of these AI models, certainly kind of ecommerce and online world and digital payments and so on. So I think thats an even contest in a way. And then I think the real joker is quantum, and weve been spending quite a lot of time at the FT trying to investigate quantum computing. In truth, nobody knows who is ahead in this field.

The idea is that if one side or the other did develop a fully functioning quantum computer, they would be able to crack open the other sides encryption methods, the so-called Q-Day, which would have an enormous strategic impact if one of those two sides got ahead of the other. But the truth is that we have no idea really who is where at the cutting edge of this technology. So thats definitely an open race.

[MUSIC PLAYING]

Peter Spiegel OK, John, Im gonna ask you, if our listeners were to just walk away and say, here are the three things I need to take away from John Thornhills discussion, what are the three most important things do you think right now?

John ThornhillWell, first, I think the macro trend towards tech is still very strong. We had this blip in 22. Weve had the retrenchment in 23. But I think we still are gonna see a very strong uptake of technology, particularly in ecommerce, a whole load of software services and in generative AI. Number two would be the impact of generative AI. I think people are still trying to figure this out. Huge numbers of start-ups being created and getting funded right now, who are trying to work out how they can apply AI. Ninety per cent of the start-ups are gonna go bust, but the 10 per cent of them are gonna transform the workplace, I believe. And I think in many areas theyre gonna augment human creativity. Theyre gonna threaten a number of jobs, particularly kind of white-collar jobs. Theyre going to change the nature of work. But I think they will also augment human creativity and lead to a lot of increased productivity. And the third one is really how this all fits into the context of the US-China tech war. I think people have kind of pulled back from calling it the new cold war, but theres certainly very heightened rivalry between the two powers, most particularly in chips, where America is kind of really squeezing China. And China is putting huge effort into trying to develop state-of-the-art computer chips. But were also seeing it in the areas of kind of AI quantum computing and also synthetic biology.

Peter SpiegelOK, Im gonna be very unfair and push you even further. If theres one thing that our listeners should take away about technology and the US economy, what do you think that one thing is?

John ThornhillIts all about the humans, rather perversely. I would argue that technology is a subject that everyone gets obsessed by and they look at the kind of capabilities of the technology and what it could do. But technology is only useful when its applied, and thats all about how people use it. And so I think humans very much are in the driving seat still. Were trying to figure out how we use this technology. We can use it for wonderful, productive ends. We can also use it for very harmful purposes as well. Dont forget the humans.

[MUSIC PLAYING]

Peter SpiegelThanks again for listening. Im Peter Spiegel. You can find more of Johns reporting on FT.com. This episode was done in collaboration with Blinkist. If you want to find out more about conversations and topics like this, check out the Blinkist app. This episode was produced by Zach St. Louis. Topher Forhecz is our executive producer. Sound design by Breen Turner and Sam Giovinco. Cheryl Brumley is our global head of audio. Thanks for listening. Class dismissed.

[SCHOOL BELL RINGING]

Continued here:
Night School, Class 3: Big Tech vs the insurgents - Financial Times

CHICAGO, April 28, 2023 /PRNewswire/ --The global Cloud-Based Quantum Computing Market is projected to grow from an estimated USD 798 million in 2023 to USD 4,063 million by 2028, at a CAGR of 38.5% from 2023 to 2028 according to report by MarketsandMarkets.The growing adoption of quantum computing solutions across several verticals and the increasing accessibility of quantum computers by the cloud drive market growth.

Browse in-depth TOC on "Cloud-Based Quantum Computing Market"

250 - Tables40 - Figures300 - Pages

Download PDF Brochure: https://www.marketsandmarkets.com/pdfdownloadNew.asp?id=34990491

By vertical, research, and academia to account for the largest market size during the forecast period.

Quantum computing is a research area combing quantum physics and computer science. Researchers from academia and the quantum computing field are expected to work together in the coming years to speed up fundamental research. Additionally, several use cases of cloud-based quantum computing exist in research and academia. Teachers can use cloud-based quantum computing to help students better understand quantum mechanics and test quantum algorithms. Scientists and researchers can use cloud-based quantum resources to test quantum information theories and compare architectures. Various partnerships took place in the Cloud-Based Quantum Computing Market. In May 2021, IBM announced that it partnered with 11 top-tier academic institutions, including the IISc and IIT Kharagpur, to allow over-the-cloud access to its systems to accelerate advanced training and research in quantum computing.

By service, professional services to grow at a higher CAGR during the forecast period.

Professional services are typically offered on-demand or are project-based. They provide various services, including digital transformation, business strategy, management consulting, data architecture and visualization, UX/UI design, and more. An organization might choose professional services in consulting, cloud migration, deployment, and advanced troubleshooting. Consulting services are provided by consultants and industry experts that assist clients in recognizing new business values by implementing cloud-based quantum computing technology. They also offer customized roadmaps to help clients in adopting the solutions. For instance, IBM offers consulting services, along with quantum computers and QCaaS. 1QBit provides consulting services to customers to solve large-scale and complicated computational problems using complex algorithms and software development tools. These complex algorithms and software development tools use classical methods, quantum computers, and quantum annealing hardware.

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By region, North America accounts for the largest market size during the forecast period.

North America is one of the most advanced regions regarding security technology adoption and infrastructure. It is experiencing a rise in the use of technologies such as artificial intelligence(AI) and cloud-based applications. This region is a key market for cloud-based quantum computing software & services as it is home to several key players, such as IBM, Microsoft, Google, and AWS. Several standards and regulations also govern the Cloud-Based Quantum Computing Market in the North American region, specially in countries like US and Canada. The implementation of such privacy laws has prompted organizations to adopt cloud-based quantum computing solutions. Additionally, in recent years, the region witnessed several partnerships and initiatives between organizations and governments concerning cloud-based quantum computing offerings.

Key Players

The major vendors in cloud-based quantum computing include IBM (US), Microsoft (US), Google (US), AWS (US), Baidu (China), Rigetti Computing (US), Xanadu (Canada), Oxford Quantum Circuits (UK), IonQ (US), and Zapata Computing (US).

MarketsandMarkets segments the Cloud-Based Quantum Computing Market by offering, technology, application, verticals, and region. The report's scope covers detailed information about the major factors, such as drivers, restraints, opportunities, and challenges, influencing the market's growth. A detailed analysis of key industry players was carried out to provide insights into their business overviews, solutions & services, key strategies, product launches, mergers and acquisitions, partnerships, agreements, collaborations, and recent developments associated with the Cloud-Based Quantum Computing Market.

Browse Adjacent Markets: Cloud ComputingMarket ResearchReports& Consulting

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Cloud Computing Market- Global Forecast to 2027

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About MarketsandMarkets

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The B2B economy is witnessing the emergence of$25 trillionof new revenue streams that are substituting existing revenue streams in this decade alone. We work with clients on growth programs, helping them monetize this$25 trillionopportunity through our service lines - TAM Expansion, Go-to-Market (GTM) Strategy to Execution, Market Share Gain, Account Enablement, and Thought Leadership Marketing.

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Cloud-Based Quantum Computing Market worth $4,063 million by ... - PR Newswire

Zachariah Kelly

Published 16 hours ago: April 28, 2023 at 12:11 pm

Quantum computers are likely to be one of the next big leaps in data processing, scaling extremely sophisticated and fast computers down into much smaller computational hardware however, most quantum systems are held back by large cooling systems that are necessary for the machines to operate. Thats where Quantum Brilliance comes in, billing itself as the Intel or Nvidia of quantum computing.

Weve written about Quantum Brilliance before, when the startup snagged $26 million in cash from a pool of funding, contributors of which included the Victorian government and Main Sequence (the venture capital spin-off of the CSIRO). What makes Quantum Brilliance so special is that the startup is compressing quantum computers, which are typically really big (almost room-sized) into modern PC-sized boxes, by using diamond-based devices instead of room-scale cooling systems.

And just recently, the startup achieved a breakthrough and world first the team managed to take a quantum computer outside of a lab environment, configure it to be robust enough to sit in the same room next to a supercomputer, and have the two systems share data and work in tandem towards solving a problem.

Heres why thats a big deal.

The key thing was running a first job where someone could access the supercomputer, and then the supercomputer goes: oh, this is something that has a quantum component. Im going to run stuff on the supercomputer, Im going to send that part of the job then to the quantum computer, get the result back, and then feed it back into subsequent supercomputing,' Quantum Brilliance CTO and co-founder Doctor Andrew Horsley told Gizmodo Australia.

Taking it out of the lab, and its not requiring extra infrastructure to run, you just plug it in and its working. Its not quite a quantum computer in your laptop, but its still a big demonstration for such an early stage of the tech that weve got it in whats really quite an unfriendly environment. A lot of noise fans, a lot of weird electromagnetic noise.

While quantum computers exploit what Horsley calls a physical phenomena that todays computers dont, that of quantum mechanics and the ability to harness quantum physics in processing data, he explained to me that quantum computers will not replace the computers of today entirely. Its more about replacing specific processes or enhancing them with faster, more powerful technology and thats what underlines this latest breakthrough.

We want to make quantum an everyday technology, Horsley said. Ultimately, you open up your laptop, and theres a Quantum Brilliance sticker on it, as well as whatever your CPU is.

Just for clarity, usually when you buy a new PC or laptop, itll come with a sticker (or stickers) somewhere on the casing, indicating your CPU or GPU. Its advertising, but in this context, its more important than that its Horsleys way of saying that your everyday computer may, one day, include a component that leverages quantum technology, because of this achievement.

What will that mean for the average user? Well, though we know quantum computers can offer much more computational power than modern computers, the reality is that we just dont know yet but we have a good idea.

So an example there is, at the moment, for a robot to understand human speech, its very hard. At the moment you can use big centralised computers, but to actually have it, to cram enough classical computers into a robot or a satellite, you actually dont have enough space to do that, Horsley said.

What quantum can do is give you enough computing density to cram it into the size, weight and power consumption budget of something at the edge. So, your laptop, a robot or a self-driving car, so that its actually smart enough to actually understand you and interface with you in a more natural way.

Horsleys analogy, coming back to the physical phenomena, is that its similar to when electricity was first harnessed and completely changed the world and how we did things in the 19th Century. The idea that quantum computing could make systems of all types smarter, faster and more powerful, even at the consumer level, is attractive, to say the least.

We wont know what the applications are right now. Its kind of like standing in the 1950s, imagining what youd do with a smartphone. But we can think about a few of these early ones, and its enough to get excited about, Horsley added.

Quantum Brilliances focus going forward is to keep compressing quantum technology and integrating it with modern computers, working with industry partners like the Pawsey Supercomputer Centre in Perth and Nvidia.

Horsley said the startup has a head start on making the tech smaller because of the earlier mentioned diamond-based cooling systems. Large helium-based or laser-assisted cooling systems arent necessary, allowing the tech to keep being scaled down which is a crucial point, because to make sure quantum computers function as optimally as possible, their environments need to be exceptionally controlled.

The startup is gearing up for a quantum future, where its everyday tech and this latest achievement is one of the first steps towards this vision.

This is showing that quantum computing can be made simple and robust enough that you can take it out of a lab and put it next to a supercomputer and have them naturally start talking to each other Its that first hello world moment that shows the progress that were making in understanding the software environment and developing robust hardware that we can start bringing quantum ultimately to consumers, Horsley said.

As written above, its still early days for quantum computing, but Im certainly warming to the idea of having a Quantum Inside sticker on the side of my PC.

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Meet the Aussie Startup That Wants to Be the Intel of Quantum Computing - Gizmodo Australia

CHICAGO, April 26, 2023 /PRNewswire/ --The global Quantum Cryptography Market size is estimated at USD 0.5 billion in 2023 and is projected to reach USD 3.0 billion by 2028, at a CAGR of 41.2% from 2023 to 2028, according to a new report by MarketsandMarkets. Factors such as increasing number of cyber threats and attacks; and digital transformation initiatives are positively driving the growth of Quantum Cryptography Market. However, lack of expertise and technical implementation challenges to hinder the market growth.

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Browse in-depth TOC on"Quantum Cryptography Market"204 - Tables34 - Figures223 - Pages

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By offering, Solution segment is expected to account for the largest share in 2023

Quantum computers threaten classical encryption methods and infrastructure security, entropy starvation allows for stealthy eavesdropping, and publicly exposed channels increase the risk for critical information exchanges. These solutions are vital in offering point-to-point security and storage networks for long-term data protection. In addition, the R&D platform is gaining traction among the scientific community, as the need for quantum-safe encryption is increasing to counter the threat of a quantum computer. The R&D platform comprises two stations, namely, the transmitter unit and the receiver unit. Each station consists of optical and electronic platforms, controlled by an external computer linked to the station through an Ethernet connector. With the R&D platform, users can experiment with different parameters and study various setups. It is well-documented in scientific publications and has been extensively tested and characterized. ID Quantique is a leading provider of R&D platforms for quantum cryptography.

By vertical, healthcare to account for highest CAGR in 2023

During COVID-19, healthcare facilities are more prone to becoming a target of cyberattacks. The healthcare sector has become the epicenter of this unexpected global pandemic. Increased investments by the government in the healthcare vertical to tackle COVID-19, and being prepared for future scenarios is expected to make the healthcare vertical adopt these solutions soon. Moreover, the use of quantum-safe encryption technology improves the proficiency of clinical and IT staff and provides real-time information access in case of emergencies. Additionally, the implementation of regulatory compliances, such as the Health Insurance Portability and Accountability Act of 1996 (HIPAA), is increasing the adoption rate of quantum cryptography among healthcare organizations and clinical staff. These compliance regulations also help secure sensitive data, protect identities by providing digital signatures, secure network gateways, and encrypting databases. Due to the rising use of this technology and increasing awareness about regulatory compliance, the adoption trend for quantum cryptography is expected to grow among developing countries.

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By Region, North America to grow at the highest CAGR in 2023

In the United States, the National Quantum Initiative Act was passed in 2018, which aims to accelerate the development of quantum technology, including quantum cryptography. This has resulted in increased funding for quantum research and establishing research centers such as the Quantum Information Science and Engineering Network (QISE-NET). Private companies such as IBM, Microsoft, and Google are also investing in quantum technology research, developing quantum computers and quantum communication networks. The Perimeter Institute for Theoretical Physics and the Institute for Quantum Computing at the University of Waterloo are leading the way in quantum cryptography research in Canada. The Canadian government has also invested in quantum technology research, including quantum cryptography, through the Quantum Computing Strategy. Overall, the scope of quantum cryptography in North America is broad, with significant investments being made in research and development and the establishment of centers of excellence in the field.

Major players operating in the Quantum Cryptography Market are ID Quantique (Switzerland), QuintessenceLabs (Australia), Toshiba (Japan), QuantumCTek (China), Magiq Technologies (US), Crypta Labs (UK), Qasky (China), Qubitekk (US), ISARA (Canada), Nucrypt (US), Quantum Xchange (US), qutools (Germany), QNu Labs (India), Post Quantum (UK), IBM (US), HPE (US), NEC (Japan), Crypto Quantique (UK), Qrypt (US), KETS Quantum Security (UK), PQShield (UK), QuBalt (Germany), VeriQloud (France), SSH Communication Security (Finland), QuantLR (Israel), and QuSecure (US) are the key market players.

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Quantum Cryptography Market worth $3.0 billion by 2028 - Exclusive Report by MarketsandMarkets - Yahoo Finance