QUANTUM INFINITE TRAINING AND EDUCATION FACILITY CENTER
SKILL YOURSELF FOR QUANTUM ERA!
World's most extensive Quantum Learning Experience
200+ Lessons, Quizes, Real time Quantum Simulation, Assessments...
Fascinated by Quantum Computing and it's science fiction like capabilities? Then you arrived at the right place, this course is designed for you!
Quantum Computing is the intersection of computer science, mathematics and quantum physics which utilizes the phenomena of quantum mechanics to perform computations which classical computers cannot perform. Quantum computers are faster than classical computers and provides significant speedup in different kinds of algorithms such as searching data elements or breaking RSA encryption systems!
It is expected that the Quantum Computing industry is going to grow at a rapid rate from around USD 500 million in 2021 to nearly USD 1800 million (1.8 billion!) by 2026. Various industries such as banking, finance, space technology, defense, healthcare, pharmaceuticals, chemicals, energy, power, transportation, logistics, academia and government are going to do well out of this cutting-edge technology.
Several countries such as USA, China, Japan, UK, France, Germany, Spain, South Korea, India and Canada are investing large amounts of finances in the field of quantum computing due to its promising potential which is also going to create more jobs in this field. There is a huge talent deficit in the field of quantum computing and therefore much efforts and investments (in billions) have been put by various industries working on quantum computing through education and research. Some of the prominent players in quantum computing includes - IBM, Microsoft, Google, Intel, D-Wave, Xanadu Quantum Technologies, Rigetti Computing, Zapata Computing, Honeywell, IonQ, Cambridge Quantum, Oxford Quantum Circuits and many more!
Just as Deep Learning, Machine Learning, Data Science or Artificial Intelligence became popular a few years back due to the availability of data sets and technology (GPUs and TPUs), in a very similar manner, the field quantum computing is witnessing rapid growth and is going to have a major impact in your lives through the release of products or services by industries. This is the time to make yourself future proof and remain ahead of others!
QUANTUM FOR ALL
The Quantum Computing Revolution Is Upon Us
Why Now!
According to Moore's Law, number of transistors on a microchip doubles every two years.Experts agree that computers should reach the physical limits of Moore's Law at some point in the 2020s.
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By 2030, the number of quantum computers worldwide could be between 2,000 and 5,000.
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Google's Sycamore computer attained quantum supremacy when it generated a random set of numbers which the fastest supercomputer in the world would take ten thousand years to produce.
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Gartner predicts that by 2023, 20% of organizations will be budgeting for quantum computing projects, compared to less than 1% today
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By 2023, 90% of enterprise quantum computing investments will engage quantum consulting organizations to help shape problems that can leverage quantum algorithms.
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More than 130 Fortune 500 companies, academic institutions, startups, and national research labs are working with IBM to advance quantum computing through the IBM Q Network. Over 260,000 registered users are involved in the IBM Quantum Experience and it routinely executes more than 1 billion hardware circuits per day on real hardware and simulators using Qiskit.
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Goldman Sachs announced recently that it is working on a quantum computing algorithm to improve its financial instruments.
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Revenue impact. When fault-tolerant systems are achieved in a single industry— financial services, for example— quantum computing could drive more than USD 10 billion of revenue in the first year of adoption
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Gartner recommends that organizations interested in quantum computing leverage quantum computing as a service (QCaaS) to minimize risk and contain costs. By 2023, 95% of organizations researching quantum computing strategies will utilize QCaaS.
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The quantum computing market is valued at $472 million in 2021 and is expected to reach $1.7 billion by 2026,at a CAGR of 30.2 percent, according to a Markets and Markets report. Banking and financial services are the two major sectors fuelling the growth of this market.
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The global quantum effort is continually rising with worldwide investments in quantum research and quantum technology reaching almost $25 billion.
Building The Quantum Workforce Of The Future
Ever since Richard Feynman first theorized a practical quantum computer in 1982, the field has been marked by a wide diversity of opinions – on hardware approaches, scientific theory, the best path to commercialization and more. But one issue has everyone united: There’s a shortage of quantum computing talent. This shortage has a significant impact on the future of the industry. A trained, well-rounded quantum workforce is key to realizing the full practical value of quantum computing. And yet, pundits describe time and again the difficulty in recruiting talent. There isn’t a direct pipeline from universities, and there’s fierce competition for the limited workforce that is available. Currently, most quantum scientists are trained as generalists, despite the highly specialized tasks they perform on the job, such as designing quantum computer shielding systems or building quantum processors.
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Economics Times points out that 20-33% out of the 1.5 million jobless engineers in India are passing out every year to run the risk of not getting a job at all.
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A survey from BurningGlass Technologies notes that the demand for quantum skills is expected to grow 135% in the next five years.
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There are close to 1 million engineering graduates and students. We have totally 3 million studying science and maths. We have 4.3 million IT employees in India. We have close to 8 million STEM (Science, Technology, Engineering, and Mathematics) graduates across the world. 2.6 million are in India and 4.3 million in China.
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India has totally 3500 engineering colleges, 3400 polytechnics and 200 schools of planning and architecture and around 10000 science colleges.
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Today a lot of the quantum computing software is open source, for example, Qiskit which is Python based. This means developers can easily pick up these languages and build them according to the needs of the industry domain and ecosystem of which they are a part. These Quantum models developed are used in real-world cases in automotive, finance, chemicals, medical, optimization and machine learning.
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D-Wave, builders of a quantum annealing computer that carried forward much of the early research in the area, this year added constrained quadratic model solvers to hybrid tooling for problems that run across classical and quantum systems;
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Rigetti Computing is working with Riverlane and Astex Pharmaceuticals to pair Rigetti’s quantum processors with cloud-based classical computing resources that, in effect, test quantum algorithms for drug discovery on a hybrid platform that mixes classical and quantum processing;
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IBM said it would partner with European electric utility company E.ON to develop workflow solutions for future decentralized electrical grids using the open-source Qiskit quantum computing SDK and the IBM Cloud; and,
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Sandbox, at Alphabet, has reportedly launched APIs that let developers use Google Tensor Processing Units to simulate quantum computing workloads.
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