Quantum Computing Frontier in Computing Technology

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Introduction

Quantum computing is a sort of processing that uses the aggregate features of quantum fluctuations to accomplish computations, for instance, superposition, interruption, and coupling. Quantum computing is a field of research that focuses on the creation of computer-based technology aspects linked to quantum-theoretical concepts. On the quantum scale, quantum physics describes the essence and movement of matter and energy. To execute certain complex functions, quantum computing employs a mixture of bits. These processes are performed at far improved productivity than their traditional equivalents. A quantum computer might employ multiple basic components, including electron or photon, so that each component is assigned a value or polarization. The emergence of quantum computers represents a significant advancement in computing power, with enormous advantageous properties for certain application scenarios.

Quantum Computing

Concerning the opinion in terms of the major benefit of quantum computing, it is obligatory to emphasize the presence of comparative advantage. Due to the fact that processes covered by quantum mechanics and computing have no standard equivalent, identical outcomes cannot be obtained using regular or traditional computers (Gyongyosi and Imre 51). Quantum computing systems’ experimentally beneficial revelations have already been proved, and various investigations are currently continuing (Gyongyosi and Imre 51). Quantum computers, when used appropriately, are extremely quick and accurate. They can conduct computations that would require a substantial amount of time for modern supercomputers. This feature is, in general, termed quantum superiority or excellence by specialists. Simulations with quantum computers are especially promising for analyzing or modeling immensely complicated operations with massive volumes of data. Quantum computers might enable scientists to comprehend the interactions of specific particles, components, and activities in living cells in greater depth. Most importantly, there is anticipation that quantum computers will significantly advance artificial intelligence. Potentially, they can securely take over various jobs, for example, data assessment or planning.

To my mind, considering a specific fact regarding the selected technology that surprised me most, it is feasible to highlight the presence of drawbacks and security issues despite of the development. Existing quantum computers are mostly assumed to be prototypes, which are in overall huge, intricate, and costly. At the same moment, they continue to face plenty of early-stage issues that their engineers have yet to completely solve in order to avoid or minimize risks. An ambiguity of several qubits at the same time is presented as challenging as preserving the requisite state for quantum processes (Henriet et al. 3). In contrast, system designers and software engineers are dealing with an error margin that is currently estimated as far too excessive. In fact, if quantum computers were flawless at a certain stage, they would have more strengths than weaknesses. All present encryption systems would be rendered worthless from one moment to the subsequent due to their unmatched computational power.

Conclusion

To summarize, quantum computing is a type of processing that use the collective properties of quantum fluctuations to perform calculations such as superposition, stoppage, and coupling. As there is no conventional equivalence for the processes covered by quantum physics and computing, identical results cannot be reached using ordinary or traditional computers. Existing quantum computers are mainly thought to be prototypes, which are massive, complicated, and expensive in general. Concerning a prediction of a future for the selected technology, it is possible to state that, in my opinion, quantum computing is entering the forefront as a solution and methodology to address complicated issues. While in the experimental and research stages, quantum computing possesses the potential to alter the manner computing is executed and how rapidly it is handled.

Works Cited

Gyongyosi, Laszlo, and Sandor Imre. “A Survey on Quantum Computing Technology.” Computer Science Review, vol. 31, 2019, pp. 51–71.

Henriet, Loïc, et al. “Quantum Computing with Neutral Atoms.” Quantum, vol. 4, no. 327, 2020, pp. 1-34.

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