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In this increasingly internet-connected world where nearly all things from culture to career are driven by the world wide web, virtual private networks (VPNs) have become an indispensable tool to keep individuals and organizations safe when accessing apps and content online.

As a VPN provider, its more important than ever for your business to constantly innovate and improve your services to stay ahead of the ever-growing number of cyberthreats especially now that data has become the single most valuable commodity for todays businesses.

As more and more people adopt the pandemic-driven remote lifestyle, where both work and play require near-constant access to online services and resources from remote locations, demand for reliable, secure, and scalable VPN services will continue to rise. In fact, a third of all internet users today use a VPN to help protect their personal data. That number will only go up as the VPN marketplace is expected to top $107.5 billion by 2027.

With opportunities abounding for VPN providers who can meet this surging demand quickly, efficiently, and cost-effectively, this is an ideal time to expand your footprint and acquire more customers.

As you grow your VPN business, however, you might run into the following challenges:

Zenlayer has nearly a decade of experience helping companies grow and expand beyond their borders. From small businesses to multinational enterprises, Zenlayers advanced suite of compute and networking services have been paving their way to new customers, increased revenue, and improved operational efficiencies.

Additionally, Zenlayer can help your business overcome challenges while growing your VPN business include:

Check out the following article to learn more about how Zenlayer can support VPN providers. For more information about Zenlayer, please visit http://www.zenlayer.com. And follow Zenlayer on LinkedIn and Twitter.

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Overcoming VPN Infrastructure Challenges: A Zenlayer Perspective - JSA

Sportiqo will also launch a host of digital campaigns with Uthappa in the near future

by exchange4media Staff Published - Mar 21, 2023 5:00 PM | 2 min read

Sportiqo, a blockchain-based fantasy sports platform has announced ace Indian cricketer Robin Uthappa as their brand ambassador. Sportiqo marked the beginning of its operations in India in the month of February and so far, amassed 32,000 active users owing to its beta launch.

The stylish batter from Karnataka, Robin is a generational talent, wanted by every cricket league in the world. Uthappa was a part of the Indian squad which won the ICC World T20 in 2007. He is known for his masterful batting performances and his great impact on his teams success.

Speaking on the association, Robin Uthappa said, Sportiqo is the perfect platform where I am able to find a cohesive link between sports and technology. The stock market is something that is often portrayed as being meant for a particular segment of the audience but with Sportiqo sports fans across age groups would not only be able to learn how the stock markets work but at the same time be able to use their sporting knowledge and skills to do it in a fun and engaging manner.

He further added, Making the youth learn about investing and trading using cricket is a great idea. India needs creative options to improve the financial literacy of the masses and I am glad that Sportiqo is addressing that gap. I am proud to be associated with the platform.

We are delighted to welcome Robin Uthappa to the Sportiqo family as our new brand ambassador. He is one of the most exciting cricketers of his era. said Anindya Kar, Chief Product Officer and Co-Founder of Sportiqo. With his disruptive and instinctively innovative approach to his sport, Robin Uthappa embodies the same pioneering spirit that will drive Sportiqo to keep pushing boundaries in the sector.

Sportiqo will also launch a host of digital campaigns with Robin Uthappa in the near future.

Sportiqo has so far, raised $1.25 million (Rs. 10 crores) in the pre-seed round from angel investors with a focus on user acquisition in its first phase post-launch. The cricket stock market platform is already live for the ILT20 League, Pakistan Super League (PSL) and additionally, in the coming time, Sportiqo will add a portfolio of other sports and leagues as well such as the English Premier League and the Indian Premier League among others.

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Robin Uthappa named brand ambassador of fantasy sports platform Sportiqo - Exchange4Media

If quantum computers are going to become a commercial thing sometime down the road and theres a lot of money and time going into the effort to make them viable for use by HPC organizations and enterprises its increasingly likely that it will be in combination with classical computers. Essentially the workloads that can be done through quantum computer will run on quantum computers; the rest will stay on high-end classical supercomputers.

The systems will be tightly integrated to not only quickly and efficiently move the applications between them but also to address everything from quantum error correction to calibration control to hybrid algorithms. In many ways it becomes an acceleration issue, which is at the core of Nvidias DNA.

We have the shared perspective of quantum machines at Nvidia and I think with most of the community that quantum is never going to be quantum-only, Tim Costa, director of HPC and quantum at Nvidia, tells The Next Platform. We mean it in two ways. The first is that applications will continue to run large portions of what they do on CPUs as they do today, on GPUs as they do today, for the parts of applications best suited to those. But as quantum processors become more and more capable, some algorithms that can transformatively be accelerated by a quantum processor will move over to a quantum processor. But all these units need to be working together.

Right now, quantum is a research play. Commercialization is coming, though, Costa says. To run a useful quantum computer, the classical computing side needs to be at a petascale level, in part because such a quantum computer will need to be fault-tolerant, which is going to require hundreds of thousands of perfect logical quantum bits, or qubits, Costa says. Also, it will take more than a dozen parameters to calibrate per qubit independently.

Leaders in the field have been turning to AI methods and graph neural networks to do that work, which are obviously very well-suited to accelerate computing, he says. All that is to say that what we need to be able to do is to really couple large-scale GPU-accelerated supercomputing to quantum computing to both accelerate applications in a transformative manner but also to actually run those quantum computers.

At GTC 2023 this week, unveiled DGX Quantum, a system powered by Nvidias AI- and HPC-focused Grace-Hopper Superchip and CUDA Quantum open-source programming model and including startup Quantum Machines OPX+ quantum control platform to work in a quantum-classical environment. The co-designed system more easily connects Nvidias GPUs to a quantum computer to do error correction at extremely high speeds, Nvidia founder and CEO Jensen Huang said during his GTC keynote.

Error correction over a large number of qubits is necessary for recovering data from quantum noise and decoherence, Huang said.

The Grace-Hopper system an integration of Nvidias Grace CPU and Hopper GPU is connected to OPX+ via PCIe interconnect, enabling a sub-microsecond latency between GPUs and quantum processing units (QPUs) on the quantum system. Reducing latency between the classical and quantum systems is key Costa says. Some groups are looking at Ethernet, but the overall roundtrip between the quantum and classical is slower or as fast than whats needed to do quantum error correction, which leaves no time for actual compute, Costa says.

You can move the data back and forth, but youve done nothing with it in time, he says. Not particularly useful. With this system, we were able to get it down to 400 nanoseconds, which is two orders of magnitude better than Ethernet.

Grace-Hopper is about speed and scale, with Nvidia saying it delivers up to 10 times higher performance for complex workloads handling terabytes of data. OPX+ is aimed at accelerating the performance of QPUs and quantum algorithms and, like Grace-Hopper, can be scaled depending on need.

This is scalable in both directions, Costa says. You can add more OPX+ when you have to control more qubits on a larger quantum system [and] you can add more Grace-Hopper nodes in order to scale up your GPU compute. You can also couple this system to your existing and very accelerated supercomputing infrastructure. It can also be that gateway to what youve already built in terms of adding quantum acceleration to your system.

The power needed in the classical computing part of this hybrid environment is important to ensure the quantum computing side can do what it needs to do. The problem of error correction for qubits is complex, but there is a lot of work that needs to be done simply to prepare for the quantum system.

If you have a million qubits and 12 parameters to independently optimize per qubit, thats going to take a heck of a lot of horsepower as well, Costa says. There is that classical compute requirement. I dont know that I think itll be exascale per QPU, that feels pretty large, but it is significant. Its a great opportunity for Nvidia here, which is one of the reasons were chasing it in this collaboration.

Its also important to remember that quantum computers are meant to solve problems that cant be solved now with classical systems, Itamar Sivan, co-founder and CEO of Quantum Machines, tells The Next Platform.

Youre saying, Well, it sounds quite crazy. We need so much classical compute power to just drive a single quantum processor. It sounds unreasonable, Sivan says. But on the other hand, this goes back to what were here to do. Quantum computers are not meant to take problems that were solving today and then solve them faster.

Nvidia also released CUDA Quantum for building quantum applications in C++ and Python that initially went into private release in July 2022 under the name QODA and is now open source. They rebranded it after getting tired of explaining what QODA was, Costa says. Its again for hybrid classical-quantum environments to enable integration and program of QPUs, GPUs, and CPUs in a single system.

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Preparing For Upcoming Hybrid Classical-Quantum Compute - The Next Platform

Today, when researchers set out to design new drugs for diseases like cancer or Alzheimers, they know the process will be slow and sporadic at best. Traditional approaches to scientific research face bottlenecks arising from the process, cost, and complexity of the work, along with the amount of time it takes for classical computers to analyze massive amounts of data.

But what if instead of attempting to discover and design new drugs and medicines using simple binary digits, we could use something that dramatically changes how we analyze data and what can be discovered from it? Something that could bring new therapies and cures much faster to patients in need.

Technological advances lead to conceptual leaps in knowledge and the discovery of previously unimagined new paradigms. Thats one of the promises of quantum computing, a rapidly emerging technology that harnesses the laws of quantum mechanics to explore problems that are too complex for classical computers to solve. Quantum computers hold the potential to run vast simulations to design better drugs and treatments at breathtaking speeds.

When most Americans learn about technologies like quantum computing, they probably assume that it comes from Silicon Valley. After all, were accustomed to innovation taking the form of digital apps and platforms designed by programmers who work in front of a keyboard. That model has produced countless advancements in recent yearsbut it isnt the only way groundbreaking progress can be made.

The truth is that many of our most vital breakthroughs in health and medicine have emerged not from the coasts, but from the heartlandwhere, for more than a century, Cleveland Clinic has stood at the forefront of innovation. From discovering serotonin in the 1940s and pioneering bypass surgery in the 1960s to identifying how the microbiome benefits human health in the past decade, Cleveland Clinic teams of researchers and clinicians have investigated the problems of our patients and innovated solutions.

These discoveries have impacted health care. But they have come with a steep cost: Time. On average, it takes more than 15 years for a scientific discovery in a biomedical research lab to become a tangible therapy or diagnostic test available to patients. Not to mention, this process can take up to $100 million. With emerging technologies such as quantum computing, artificial intelligence, and cloud, we can change this. What once took decades could now be achieved in months and can become more affordable and less time-intensive for research teams.

Thats why IBM is partnering with Cleveland Clinic to introduce the first quantum computer ever deployed on site in the private sectorand the first in the world dedicated to biomedical and health research. Unveiled this week at its permanent home on Cleveland Clinics campus in Ohio, IBM Quantum System One is part of a groundbreaking effort to significantly speed up the pace of scientific breakthroughs.

For researchers at Cleveland Clinic, it means the chance to develop more precise, targeted, and effective medicinesand more accurately predict which patients will encounter life-threatening and chronic diseases.

For people across the country, it means the potential to make major leaps forward in the fight against complex diseasesand a new technology platform that can serve as a model for every region to make breakthroughs of their own.

For Clevelanders and Northeast Ohioans, it means well-paying jobs in cutting-edge fields. It strengthens the citys position as a globally recognized hub of innovation. And it sends a clear message to the nation and the world that the American heartland is a place where the future is being written.

We dont yet know precisely which breakthroughs quantum computing will help us achieveand which medicines, models, vaccines, and therapies they could make possible.

But we do know that by working to dramatically reduce the time it takes to investigate the most complex mysteries of human health, this effort will close the gap between imagination and discoverybetween the impossible and the possible. Quantum and other advanced computing technologies will help us expedite progress toward new treatments and cures for our patients.

We are grateful to the city of Cleveland, the state of Ohio, and all of the local, state, and national leaders who have made this work possible by investing in pioneering research and in our scientific infrastructure.

We are excited to embark on this journey of discoverydelivering more jobs to the heartland, more opportunities to the nation, and more medical breakthroughs to the world.

Serpil Erzurum, M.D., is Cleveland Clinics chief research and academic officer. Daro Gil is IBMs SVP and director of research.

The opinions expressed in Fortune.com commentary pieces are solely the views of their authors and do not necessarily reflect the opinions and beliefs ofFortune.

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IBM and Cleveland Clinic are deploying the first on-site quantum computer in health care as tech promises to accelerate scientific breakthroughs -...

D-Wave Quantum Inc is being warned by the New York Stock Exchange that it no longer complies with the regulations that govern listed businesses because its share price has been sitting under $1 for 30 trading days.

The Notice of Non-Compliance specifically Section 802.01C of the Exchange's Listed Company Manual hit the business's desk on March 15, the quantum company confirmed late yesterday.

This does not mean common stock in D-Wave Quantum will be delisted immediately. The business said it had told the NYSE that it "intends to cure the stock price deficiency and to return to compliance."

In a statement it adds that it has six months following the NYSE notice to "regain compliance" but its stock will need to be priced at higher than at least $1 for a 30-day trading period.

If D-Wave Quantum decides the actions it needs to take require shareholder approval, it'll need to tell the NYSE.

"The company intends to consider available alternatives, including but not limited to a reverse stock split, that are subject to shareholder approval," D-Wave says.

Founded in 1999, D-Wave has built itself around a type of quantum computer called a quantum annealing system but more recently started to develop its own quantum gate tech. It has developed five generations of systems so far. Customers include VM, Lockheed Martin and Accenture.

Revenue for the nine months ended 30 September 2022 was $4.8 million, up 24 percent year-on-year, and it recorded a net loss of $37.9 million versus a net loss of $17.7 million, not helped by surging operating expenses.

D-Wave was listed on the NYSE last year after merging with DPCM Capital, a special purpose acquisition company, and is the second such business trying to build a quantum computer to fall foul of stock market regulations.

Startup Rigetti confirmed in February that it was facing a delisting from the Nasdaq because its share price had fallen below the $1 mark, meaning it too was out of compliance with the rules. Rigetti revealed at the time it was also chopping one in four staff to cut costs and had revised its roadmap. The company will also has until July 24 to get back in compliance. Its stock price was $0.64 yesterday, up from $0.53 on Wednesday last week.

Industry experts believe development of a full-blown quantum computer is still way off in the distance.

"Quantum is a peak hype segment and is likely to remain so for the foreseeable future," Gartner VP analyst for Quantum Technologies, AI Infrastructures, and Supercomputing Chirag Dekate told us in February.

"The quantum segment is also highly fragmented with an estimated 600+ startups and some established companies currently operating in the space. This level of market activity is unusual and unsustainable for a market segment that currently does not deliver business value," he added.

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D-Wave hello to another quantum pioneer warned over possible delisting - The Register