Quantum Computing, have the prospective to transfigure computation by making certain types of obstinate problems solvable. A few large companies and small start-ups now access quantum computers composed of several tens of qubits among which some of them are even accessible to the public through the cloud.
Quantum computers process information in a different way than classical computers. Unlike traditional computers that operate on binary bits where information is processed in the form of zeroes or ones, quantum computer transmutes information via qubits (quantum bits) that can exist either as one or zero or both instantaneously.
Within just a few years, quantum information theory and quantum computing have developed from a partial subject to a full class with well-funded programs that takes place at quantum centers and institutes at leading universities.
There's a reason Google, Microsoft, IBM, and governments all over the world continue to invest heavily in quantum computing: they believe it will transform the world by solving issues that traditional computers can't solve.
Top 10 Quantum Computing Research Institutes across the world:
The University of Waterloo, a Canadian university went all-in offering quantum computing classes like cat adoption agencies, adoption applications, etc. the creator of BlackBerry, Mike Lazaridis, funded the institute. 296 researchers were employed in the quantum computing powerhouse. Since its founding, it has published more than 1500 research papers. One of the fortes of this institute is that how it engages excellence in academic research with an entrepreneurial initiative to materialize the technology.
According to this university, they are focusing on quantum computing research for its vast potentiality. As it has the potential to alter the areas of different sectors such as finance and security, healthcare, etc.
David Deutsch who owns the university first described universal quantum way back in 1985. The first work of NMR quantum computer was demonstrated at Oxford and the University of York and the university is still positioned among the top leading universities in quantum computing.
The mission of Harvard University is to help engineers and scientists to explore and identify new ways to transform quantum theory into a useful system and device. The community of researchers in the university has a keen interest in advancing engineering and science of quantum systems and applications.
MIT is a research leviathan institute. It has a high extended reach that focuses deeply on quantum computing and quantum information. The strength of the university's theoretical physics is now applied to quantum information and quantum computing. MIT researchers also explore areas like quantum algorithms, Quantum information theory, measurement and control, applications, and connections.
The university center was founded to engage together physicists, engineers, and computer scientists to research on basics of quantum physics and to construct devices based on quantum phenomena. The researchers and experts of quantum technology are implying their discoveries in sensing, communications, and computing.
The Berkeley Centre for Quantum Computation and Information involves researchers from the colleges of Engineering, Chemistry, and Physical Sciences. These researchers work on principal and fundamental issues in quantum devices, quantum cryptography, quantum information theory, quantum algorithms, quantum control, and the experimental realization of quantum computers.
The Joint Quantum Institute involves quantum scientists from the National Institute of Standards and Technology (NIST), the Department of Physics of the University of Maryland (UMD), and the Laboratory for Physical Sciences (LPS). Each of these institutions brings major theoretical and experimental research programs with a dedication to control and deploy the quantum system.
The Division of Quantum Physics and Quantum Information focuses on the field of quantum information and quantum optics. The division mainly directs towards fiber-based quantum communication, quantum memory, and quantum repeater, free-space quantum communication, quantum foundation, superconducting quantum computing, optical quantum computing, quantum simulation with ultracold atoms, quantum metrology, and related theories. Advanced experimental platforms are built by researchers to conduct cutting-edge research.
The Chicago Quantum Exchange is a center of researchers showing keen interest in industrial efforts and advancing academics in the engineering and science of quantum information and computing. The objective of the center is to promote the identification and exploration of quantum information and computing technologies and also the development of new applications. The predominant goal is to apply research innovations to develop radically new types of devices, materials, and computing techniques.
The University of Sydney quantum science group emphasizes directing to the most challenging problems of quantum computing and applying these insights to construct new technologies. The scientific searches of the university are engaged with deep industrial and entrepreneurial activities. The activities involved in the university range from quantum information and quantum computing, fundamental physics to technology development.
Join our WhatsApp Channel to get the latest news, exclusives and videos on WhatsApp
_____________
Disclaimer: Analytics Insight does not provide financial advice or guidance. Also note that the cryptocurrencies mentioned/listed on the website could potentially be scams, i.e. designed to induce you to invest financial resources that may be lost forever and not be recoverable once investments are made. You are responsible for conducting your own research (DYOR) before making any investments. Read more here.