Which statement describes the current availability of quantum computers

which statement describes the current availability of quantum computers? the solution site, which is interested in answering educational questions, as it provides an answer to your questions in all areas and undergraduate majors Students' activities and research and crossword puzzles The solution site is concerned with questions, answers and solutions for all study materials for all educational stages on the solution site, you can ask your doubts, curiosity, questions and whatever going on in your mind either related to studies or others. Experts and people from different fields will answer. Through the word "Ask a Question" in the solution site, you can ask any topic or any question or inquiry you want answered by teachersspecialized to solving questions and educational and academic activities that you ask Now let's answer your question which statement describes the current availability of quantum computers?

What is quantum computing, how is it being used, and what are the implications for higher education? Credit: Bartlomiej K. Wroblewski / Shutterstock.com © 2022 The limitations of contemporary supercomputers, as well as the ramifications for academics and institutions worldwide, are drawing attention in the scientific community. For example, researchers may use current technology to perform more complicated simulations, such as those that focus on chemistry and the reactive properties of each element. However, when the intricacy of these interactions increases, they become far more challenging for current supercomputers to manage. Due to the limited processing capability of these devices, finishing these sorts of computations is nearly impossible, which is forcing scientists to choose between speed and precision while doing these studies. To provide some context for the breadth of these experiments, let's start with the example of modeling a hydrogen atom. With just one proton and only one electron in hydrogen, a researcher could easily do the chemistry by hand or depend on a computer to complete the calculations. However, depending on the number of atoms and whether or not the electrons are entangled, this procedure becomes more difficult. To write out every conceivable result for an element such as thulium, which contains a staggering 69 electrons that are all twisted together, would take upwards of 20 trillion years. Obviously, this is an inordinate amount of time, and s...

February 19, 2021 By Lorenzo Pautasso, Anika Pflanzer, and In recent years there has been a rising interest in quantum computing, fueled by several breakthroughs on the technology side and a significant increase in investments. To gain a fuller view of the current quantum-computing landscape, we conducted quantitative research as well as a comprehensive survey of more than 300 technologists across industries. Using our findings from both research components, we assessed quantum computing through four lenses—general temperature, 1 industry, private equity, and use cases—to understand its evolution from hype to game changer. General temperature Our Quantum Computing Monitor research helped us assemble a dashboard overview of where industries are in their quantum-computing maturity across five categories: bystanders, beginners, learners, professionals, and legends (Exhibit 1). The pharma industry is at the learner level of quantum maturity, meaning it has already begun to hire quantum scientists to support possible use cases for quantum simulation in drug design, for instance. There are also massive implications for quantum technology in the financial-services industry—especially in security. Industry Although our survey results show that the adoption rate of quantum computing for industry in general is average (2.9 out of 5), technology, media, and telecom companies have made several breakthroughs over the past five years. Advances include achieving quantum supremacy, develo...

World Quantum Day is a bottom-up initiative of a worldwide network of scientists, engineers, educators, communicators, entrepreneurs, technologists, and their institutions. Its primary goal is to promote public understanding of what could be the next big thing in scientific research and its applications. HANGZHOU, CHINA - DECEMBER 17 2021: A researcher introduces the superconducting quantum computing ... [+] chips developed by Zhejiang University in Hangzhou in east Chinas Zhejiang province Friday, Dec. 17, 2021. (Photo credit should read LONG WEI/Future Publishing via Getty Images) Future Publishing via Getty Images Just like other next big things, the promise of quantum computing, communications, and sensing, generates venture capital funds, government involvement, large companies’ R&D investments, and many startups. Here’s a brief overview of where it’s going, where it is today, and how we got here. Five developers of quantum systems have announced plans to have fault-tolerant quantum computing hardware by 2030 and many industry observers anticipate that we will see a clear quantum advantage for a number of applications such as To get a sense of where quantum will be in the near future, I conducted over the last few days a survey of a number of experts, asking for their predictions regarding the most important quantum-related advance over the next five years. Here are the results: Doug Finke, Managing Editor, David Awschalom, Liew Family Professor in Molecular Engineeri...

Over the past several decades, quantum information science has emerged to seek answers to the question: can we gain some advantage by storing, transmitting and processing information encoded in systems that exhibit unique quantum properties? Today it is understood that the answer is yes, and many research groups around the world are working towards the highly ambitious technological goal of building a quantum computer, which would dramatically improve computational power for particular tasks. A number of physical systems, spanning much of modern physics, are being developed for quantum computation. However, it remains unclear which technology, if any, will ultimately prove successful. Here we describe the latest developments for each of the leading approaches and explain the major challenges for the future. Open Access articles citing this article. • • Andrei Isichenko • , Nitesh Chauhan • … Daniel J. Blumenthal Nature Communications Open Access 29 May 2023 • • Xina Wang • , Xufeng Jiao • … Jian-Wei Pan npj Quantum Information Open Access 14 April 2023 • • Md Ershadul Haque • , Manoranjan Paul • … Tanmoy Debnath Scientific Reports Open Access 13 March 2023 Access options • Nielsen, M. A. & Chuang, I. L. Quantum Computation and Quantum Information (Cambridge University Press, 2000) • Knill, E. Quantum computing with realistically noisy devices. Nature 434, 39–44 (2005) • DiVincenzo, D. P. The physical implementation of quantum computation. Fortschr. Phys. 48, 771–783 (2000)...

Índice Show • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • Which statement describes the current availability of quantum computers? a. They are currently only available on certain mobile devices. b. They are owned by a few companies, but available to many. c. They will be developed for home installation within the next decade. d. They are widely available and affordable in consumer retail stores. e. I don't know this yet. The Answer is B. They are owned by a few companies, but available to many. A quantum computer is a type of computer technology that performs information processing using qubits. This qubit system allows the use of transistors valued at 1 or 0 simultaneously. In contrast to classic computers or computers in general, which can only use one transistor, namely 1 or 0. Thus, it can be said that a quantum computer is a technology with a more sophisticated system than an ordinary computer. If ordinary computers are used to do light data processing, quantum computers can do more complicated jobs. Such as simulation and data analysis, testing the discovery of chemical drugs, to various affairs in all fields. Be it finance, military, intelligence, space design, nuclear fusion, polymer design, machine learning and artificial intelligence, to big data search and digital manufacturing. Learn more about quantum computing brainly.ph/question/29156109 #SPJ2 Let's look at example that shows how quantum computers can succeed where classical computers fai...

World Quantum Day is a bottom-up initiative of a worldwide network of scientists, engineers, educators, communicators, entrepreneurs, technologists, and their institutions. Its primary goal is to promote public understanding of what could be the next big thing in scientific research and its applications. HANGZHOU, CHINA - DECEMBER 17 2021: A researcher introduces the superconducting quantum computing ... [+] chips developed by Zhejiang University in Hangzhou in east Chinas Zhejiang province Friday, Dec. 17, 2021. (Photo credit should read LONG WEI/Future Publishing via Getty Images) Future Publishing via Getty Images Just like other next big things, the promise of quantum computing, communications, and sensing, generates venture capital funds, government involvement, large companies’ R&D investments, and many startups. Here’s a brief overview of where it’s going, where it is today, and how we got here. Five developers of quantum systems have announced plans to have fault-tolerant quantum computing hardware by 2030 and many industry observers anticipate that we will see a clear quantum advantage for a number of applications such as To get a sense of where quantum will be in the near future, I conducted over the last few days a survey of a number of experts, asking for their predictions regarding the most important quantum-related advance over the next five years. Here are the results: Doug Finke, Managing Editor, David Awschalom, Liew Family Professor in Molecular Engineeri...

February 19, 2021 By Lorenzo Pautasso, Anika Pflanzer, and In recent years there has been a rising interest in quantum computing, fueled by several breakthroughs on the technology side and a significant increase in investments. To gain a fuller view of the current quantum-computing landscape, we conducted quantitative research as well as a comprehensive survey of more than 300 technologists across industries. Using our findings from both research components, we assessed quantum computing through four lenses—general temperature, 1 industry, private equity, and use cases—to understand its evolution from hype to game changer. General temperature Our Quantum Computing Monitor research helped us assemble a dashboard overview of where industries are in their quantum-computing maturity across five categories: bystanders, beginners, learners, professionals, and legends (Exhibit 1). The pharma industry is at the learner level of quantum maturity, meaning it has already begun to hire quantum scientists to support possible use cases for quantum simulation in drug design, for instance. There are also massive implications for quantum technology in the financial-services industry—especially in security. Industry Although our survey results show that the adoption rate of quantum computing for industry in general is average (2.9 out of 5), technology, media, and telecom companies have made several breakthroughs over the past five years. Advances include achieving quantum supremacy, develo...

which statement describes the current availability of quantum computers? the solution site, which is interested in answering educational questions, as it provides an answer to your questions in all areas and undergraduate majors Students' activities and research and crossword puzzles The solution site is concerned with questions, answers and solutions for all study materials for all educational stages on the solution site, you can ask your doubts, curiosity, questions and whatever going on in your mind either related to studies or others. Experts and people from different fields will answer. Through the word "Ask a Question" in the solution site, you can ask any topic or any question or inquiry you want answered by teachersspecialized to solving questions and educational and academic activities that you ask Now let's answer your question which statement describes the current availability of quantum computers?

Índice Show • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • Which statement describes the current availability of quantum computers? a. They are currently only available on certain mobile devices. b. They are owned by a few companies, but available to many. c. They will be developed for home installation within the next decade. d. They are widely available and affordable in consumer retail stores. e. I don't know this yet. The Answer is B. They are owned by a few companies, but available to many. A quantum computer is a type of computer technology that performs information processing using qubits. This qubit system allows the use of transistors valued at 1 or 0 simultaneously. In contrast to classic computers or computers in general, which can only use one transistor, namely 1 or 0. Thus, it can be said that a quantum computer is a technology with a more sophisticated system than an ordinary computer. If ordinary computers are used to do light data processing, quantum computers can do more complicated jobs. Such as simulation and data analysis, testing the discovery of chemical drugs, to various affairs in all fields. Be it finance, military, intelligence, space design, nuclear fusion, polymer design, machine learning and artificial intelligence, to big data search and digital manufacturing. Learn more about quantum computing brainly.ph/question/29156109 #SPJ2 Let's look at example that shows how quantum computers can succeed where classical computers fai...