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Quantum Computing - yesterday, today, and tomorrow - Technology - Information Technology

AbstractThis paper digs into the fundamental issues of the slow but progressive breakthrough in embracing quantum computing and how its benefit and risk affects humanity. Drawing analysis from its probable practicality, while also exploring todays available technology.The aim of this idea is to observe the effectiveness of quantum computing and how it could impact on mankind tracing its history and looking into what awaits mankind in the future.Approaching this ideal from two major perspectives that form the basis for this paper, which are where we are and where we are going consequent upon which this research of impeccable sources were predicatedThe result invariably shows realistically the importance of quantum computing to all mankind when eventually fabricated in the future.

1. IntroductionQuantum computing may be coming closer to everyday use because of the discovery of a single electron's spin in an ordinary transistor. The success, by researcher Hong Wen Jiangand colleagues at the University of California, Los Angeles, could lead to major advances in communications, cryptography and supercomputing. Jiangs research reveals that an ordinary transistor, the kind used in aDesktop PC or cell phone can be adapted for practical quantum computing. Quantum computing exploits the properties of subatomic particles and the laws of quantum mechanics. Todays computers have bits in either a 1 or a 0 state. Qubits, however, can be in both states at the same time.CISC is a CPU design that enables the processor to handle more complex instructions from the software at the expense of speed. All Intel processors for PCs are CISC processors. Complex instruction set computing is one of the two main types of processor design in use today. It is slowly losing popul arity to RISC designs; currently all the fastest processors in the world are RISC. The most popular current CISC processor is the x86, but there are also still some 68xx, 65xx, and Z80s in use. CISC processor is designed to execute a relatively large number of different instructions, each taking a different amount of time to execute (depending on the complexity of the instruction). Contrast with RISC.Complex Instruction-Set Computer has CPU designed with a thorough set of assembly calls, systems and smaller binaries but generally slower execution of each individual instruction.2. CISC/RISC Speed and limitations One important assumption in circuit design is that all circuit elements are 'lumped'. This means that signal transmission time from one element to the other is insignificant. Meaning that the time it takes for the signal produced at one point on the circuit to transmit to the rest of the circuit is tiny compared to the times involved in circuit operation.Electrical si gnals travel at the speed of light, suppose a processor works at 1GHz. that is one billion clock cycles per second, also meaning that one clock cycle goes one billionth of a second, or a nanosecond. Light travels about 30cm in a nanosecond. As a result, the size of circuitry involved at such clock speeds will be much less than 30cm, therefore, the most circuit size is 3cm. bearing in mind that the actual CPU core size is less than 1cm on a side, which is still okay, but this is just for 1 GHz. Cases where the clock speed is increased to 100GHz, a cycle will be 0.01 nanoseconds, and signals will only transmit 3mm in this time. So, the CPU core will definitely need to be about 0.3mm in size. It will be very difficult to cram a CPU core into such a small space, which is still okay, but somewhere between 1 GHz and 100GHz, there will be a physical barrier. As smaller and smaller transistors are manufactured soon there may be physical limit as the numbers of electrons per transist ors will become one and this will bring to a close to the rule of electron.3. The benefits and capabilities of quantum computing in theory are: 1. Factor large integers in a time that is exponentially faster than any known classical algorithm.2. Run simulations of quantum mechanics.3. Break encrypted secret messages in seconds that classical computers cannot crack in a million years.4. Create unbreakable encryption systems to shield national security systems, financial transactions, secure Internet transactions and other systems based on present day encryption schemes.5. Advance cryptography to where messages can be sent and retrieved without encryption and without eavesdropping.6. Explore large and unsorted databases that had previously been virtually impenetrable using classical computers.7. Improve pharmaceutical research because a quantum computer can sift through many chemical substances and interactions in seconds.8. Create fraud-proof digital signatures.9. Predict wea ther patterns and identify causes of global warming.10. Improve the precision of atomic clocks and precisely pinpoint the location of the 7,000-plus satellites floating above Earth each day.11. Optimize spacecraft design.12. Enhance space network communication scheduling.13. Develop highly efficient algorithms for several related application domains such as scheduling, planning, pattern recognition and data compression.4. RisksAnd the risks are1. Cripple national security, defences, the Internet, email systems and other systems based on encryption schemes.2. Decode secret messages sent out by government employees in seconds versus the millions of years it would take a classical computer.3. Break many of the cryptographic systems (e.g., RSA, DSS, LUC, Diffie-Helman) used to protect secure Web pages, encrypted mail and many other types of data.4. Access bank accounts, credit card transactions, stock trades and classified information.5. Break cryptographic systems such as publi c key ciphers or other systems used to protect secure Web pages and email on the Internet.5. History of Quantum Computing The idea of quantum computing was first explored in the 1970's and early 1980's by physicists and computer scientists like Charles GH. Bennett of the IBM Thomas J. Watson Research Center, Paul A. Benioff of Argonne National Laboratory in Illinois, David Deutsch of the University of Oxford, and the late Richard P. Feynman of the California Institute of Technology (Caltech). This idea emerged as scientists were debating the fundamental limits of computation. They realized that if technology continued to go by Moore's Law, the continually shrinking size of circuitry packed onto silicon chips will get to a point where individual elements would be no larger than a few atoms. Then there was disagreement over the atomic scale the physical laws that rule the behaviour and properties of the circuit are inherently quantum mechanical in nature, not classical. Then c ame the question of whether a new type of computer could be invented based on the principles of quantum physics. Feynman was the first to provide an answer by producing an abstract model in 1982 that demonstrated how a quantum system could be used for computations. Besides he explained how such a machine could act as a simulator for quantum physics. Meaning that, a physicist may have the ability to conduct experiments in quantum physics in a quantum mechanical computer. In 1985, Deutsch discovered that Feynman's claim could lead to a general purpose quantum computer and published a crucial theoretical paper illustrating that any physical process, in principle, could be moulded perfectly by a quantum computer. So, a quantum computer would have capabilities far beyond those of any traditional classical computer. Immediately after Deutsch publication, the search began. Unfortunately, all that could be found were a few rather contrived mathematical problems, until Shor circulat ed in 1994 a preprint of a paper in which he set out a method for using quantum computers to crack an important problem in number theory, namely factorization. He showed how an ensemble of mathematical operations, designed specifically for a quantum computer, could be organized to enable a such a machine to factor huge numbers extremely rapidly, much faster than is possible on conventional computers. With this breakthrough, quantum computing transformed from a mere academic curiosity directly into a national and world interest.6. Conclusion & Future Outlook Right now, quantum computers and quantum information technology is still in its pioneering stage, and obstacles are being overcome that will provide the knowledge needed to drive quantum computers up in becoming the fastest computational machines in existence. This has not been without problems, but its nearing a stage now where researchers may have been equipped with tools required to assemble a computer robust enough t o adequately withstand the effects of de-coherence. With Quantum hardware, we are still full of hope though, except that progress so far suggest that it will only be a matter time before the physical and practical breakthrough comes around to test Shor's and other quantum algorithms. This breakthrough will permanently stamp out todays modern computer. Although Quantum computation has origin is in highly specialized fields of theoretical physics; however its future undoubtedly is in the profound effect it will bring to permanently shape and improve mankind.References:1. D. Deutsch, Proc. Roy. Soc. London, Ser. A 400, 97 (1985).2. R. P. Feynman, Int. J. Theor. Phys. 21, 467 (1982).3. J. Preskill, "Battling Decoherence: The Fault-Tolerant Quantum Computer," Physics Today, June (19994. R. Feynman, Int. J. Theor. Phys. 21, 467 (1982).5. D. Deutsch, Proc. R. Soc. London A 400, 97 (1985).6. P.W. Shor, in Proceedings of the 35th Annual Symposium on the Foundations of Computer Scienc e, edited by S. Goldwasser (IEEE Computer Society Press, Los Alamitos, CA), p. 124 (1994).7. A. Barenco, D. Deutsch, A. Ekert and R. Jozsa, Phys. Rev. Lett. 74, 4083 (1995) 8. Article by Yasar Safkan, Ph.D., Sofware Engineer, Noktalar A.S., Istanbul, TurkeyWebsites reference/html/flix_white_paper.html://://





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