Can someone please read over this and correct any errors? Thanks in advance Prac
ID: 3809443 • Letter: C
Question
Can someone please read over this and correct any errors? Thanks in advance
Practical Quantum Computers
Every day, every year, and every minute there are more inventions coming to the surface. We, as humans, are inventing numerous effective inventions to utilize in our everyday personal and business lives. Practical Quantum Computers are a newer invention that is now surfacing. “Advances at Google, Intel, and several research groups indicate that computers with previously unimaginable power are finally within reach.” (Juskalian, Russ) Also, according to Juskalian this invention should be completely available within the next four to five years.
A Quantum Computer is, any device for computation that makes direct use of idiosyncratically quantum power-driven singularities, such as superposition and entanglement, to perform operations on needed data. Normal computers measure data in bits, whereas a quantum computer measures data by qubits (Quantum bits). The basic principle of practical quantum computation is that the quantum properties of elements can be utilized to represent and structure data. Quantum mechanisms can also be formulated and built to perform operations with this data.
Research in both practical and theoretical areas continue at a very frantic pace. Many national government and military funding agencies support practical quantum computing research. They utilize this funding to develop quantum computers for both civilian use and national security purposes. One way that they plan to use this great invention is for cryptanalysis, among many other in depth reasons.
There are many different advantages to the potential production of Practical Quantum Computers. These computers will be able to solve certain problems much faster than any other conventional computers. “Quantum computers will be particularly suited to factoring large numbers (making it easy to crack many of today’s encryption techniques and probably providing uncrack able replacements), solving complex optimization problems, and executing machine-learning algorithms.” (Juskalian, Russ) To sum up the advantages of practical quantum computing it provides a much more powerful base, it is faster, the basis is smaller, it provides improvements to science, and lastly it can improve on practical personal electronics.
While everything comes with advantages there are always disadvantages that follow. The technology that is required to build Quantum Computers is very extensive. This is sometimes out of our reach and the technology is still up and coming. The reason that the technology isn’t always available is that the consistent electron is damaged as soon as it is affected by its environment and that electron is very much essential for the functioning of these quantum computers. The reach for this problem is still continuing the effort applied to identify a solution for this problem hasn’t had much positive progress.
Overall, Practical Quantum Computers are still up and coming but eventually will be a huge part of many workforces. Experiments have been carried out in which quantum computational operations were executed on a very small number of quantum bits, but there are still a ways to go. These computers would have a positive impact on many companies and be able to solve certain problems much quicker than any other process. These computers will bring many advantages along with few disadvantages to the computational world as we know it. Overall, Quantum Computers will revolutionize the field of computing in the next decade.
Explanation / Answer
Advancing the technological inventions in every moment in the universe and these inventions leads our routine personnel and business life. After some experimental advancement on the fundamental physical nature of information, Bennett and Fredkin's ideas of reversible computation introduced, it leads to the suggestions of Benioff and Feynman as to the possibility of a new type of essentially Quantum Computers. If we can build such devices Deutsch showed that quantum parallelism leads to new algorithms and new complexity classes. The fundamental basis of quantum computation is Landauer’s observation that all information ultimately physical. The writer Juskalian, Russ noted down this invention operatively available within next five years.
The Quantum Computer device uses the idiosyncratically quantum power-driven singularities, such as superposition and entanglement, to perform operations on needed data. Normal computers measure data in bits, whereas a quantum computer measures data by qubits (Quantum bits). Realizing a qubit as the polarization state of a photon is appealing because photons are relatively free of the decoherence that plagues other quantum systems. Polarization rotations (one-qubit gates) can easily be done using ‘waveplates’ made of birefringent materials. The basic principle of practical quantum computation is that the quantum properties of elements can be utilized to represent and structure data. Quantum mechanisms can also be formulated and built to perform operations with this data. The fundamental of quantum computing uses the devices such as reversible logic gates, qubits and quantum registers. The key quantum property of entanglement described with due homage to Einstein and Bell.
The technological research continues for the enhancement of Quantum Computer and several national government and military funding agencies support practical quantum computing research. They utilize this funding to develop quantum computers for both civilian and national security purposes. The research teams aim this vast enhancement for cryptanalysis and many other uses.
The Quantum Computers have extensively high advantages and reliability of computations extremely faster than any other conventional computers. “Quantum computers will be particularly suited to factoring large numbers (making it easy to crack many of today’s encryption techniques and probably providing unbreakable replacements), solving complex optimization problems, and executing machine-learning algorithms” noted by Juskalian, Russ. Summing up these advantages of practical Quantum Computing provides much more powerful base, faster, smaller and also it provides improvements to science, and lastly it can improve on applied personal electronics.
Every technological enhancement advances with advantages and some disadvantages as well, this technology to develop Quantum Computers highly extensive and sometimes out of reach us, and it still coming up. The reason that this technology, the consistent electron damaged as soon as it affected by the environment and that electron very much essential for the functioning of this quantum computers. The reach for this problem still continuing the effort applied to identify a solution for this problem hasn’t had much positive progress.
Overall, Practical Quantum Computers are still coming up but eventually will be a huge part of many workforces. Experiments have been carried out in which quantum computational operations were executed on a very small number of quantum bits, but there are still a ways to go. These computers would have a positive impact on many companies and be able to solve certain problems much quicker than any other process. These computers will bring many advantages along with few disadvantages to the computational world as we know it. Overall, Quantum Computers will revolutionize the field of computing in the next decade.