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Enabling Quantum Cryptography Using Quantum Computer Programming.
紀錄類型:
書目-語言資料,手稿 : Monograph/item
正題名/作者:
Enabling Quantum Cryptography Using Quantum Computer Programming./
作者:
Mullamuri, Bhanu.
面頁冊數:
1 online resource (103 pages)
附註:
Source: Masters Abstracts International, Volume: 83-06.
Contained By:
Masters Abstracts International83-06.
標題:
Computer science. -
電子資源:
click for full text (PQDT)
ISBN:
9798496568432
Enabling Quantum Cryptography Using Quantum Computer Programming.
Mullamuri, Bhanu.
Enabling Quantum Cryptography Using Quantum Computer Programming.
- 1 online resource (103 pages)
Source: Masters Abstracts International, Volume: 83-06.
Thesis (M.S.)--Southern University and Agricultural and Mechanical College, 2021.
Includes bibliographical references
Quantum computation technology is emerging as an application to the field of quantum physics which mainly relies on quantum superposition, entanglements, and no-cloning theorem. The distinguishing feature of quantum computation technology is that its outcomes are multi-fold faster than their classical equivalents. Quantum programming languages are the means of communicating and executing ideas on quantum computers. They are essential to programming quantum computers physically available. However, their requirement is not limited to the specified application. They can also be utilized for the development of new and advanced quantum algorithms that can only be executed on future quantum devices which means that it is used to create quantum algorithms in advance of the development of quantum hardware. These languages are used for handling physical quantum devices, teaching quantum computing principles, verifying quantum algorithms, and also for the estimation of the costs associated with the execution of these algorithms on future quantum hardware.Because the security of electronic transactions is so important, numerous cryptographic protocols have been developed that rely on distributed keys between the intended participants. The security of these protocols is determined by complex mathematical models and lengthy keys. However, these keys can be broken easily. With the advent of quantum technology, the security of information has seen a new paradigm. In this thesis, using the IBM quantum experience platform, the quantum circuits were designed aiming at the realization of quantum cheque concept as well as secure quantum key distribution (BB84 algorithm). The corresponding Qiskit programming code has been understood. The execution of these circuits on a practical quantum computer accessed through the IBM QX online platform showed an increase in the probability of their realization with increasing the number of runs. Furthermore, the high probability for information security when communicated between two persons is realized without leaking the encryption key information to the third party.
Electronic reproduction.
Ann Arbor, Mich. :
ProQuest,
2024
Mode of access: World Wide Web
ISBN: 9798496568432Subjects--Topical Terms:
573171
Computer science.
Subjects--Index Terms:
Quantum cryptographyIndex Terms--Genre/Form:
554714
Electronic books.
Enabling Quantum Cryptography Using Quantum Computer Programming.
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Enabling Quantum Cryptography Using Quantum Computer Programming.
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Quantum computation technology is emerging as an application to the field of quantum physics which mainly relies on quantum superposition, entanglements, and no-cloning theorem. The distinguishing feature of quantum computation technology is that its outcomes are multi-fold faster than their classical equivalents. Quantum programming languages are the means of communicating and executing ideas on quantum computers. They are essential to programming quantum computers physically available. However, their requirement is not limited to the specified application. They can also be utilized for the development of new and advanced quantum algorithms that can only be executed on future quantum devices which means that it is used to create quantum algorithms in advance of the development of quantum hardware. These languages are used for handling physical quantum devices, teaching quantum computing principles, verifying quantum algorithms, and also for the estimation of the costs associated with the execution of these algorithms on future quantum hardware.Because the security of electronic transactions is so important, numerous cryptographic protocols have been developed that rely on distributed keys between the intended participants. The security of these protocols is determined by complex mathematical models and lengthy keys. However, these keys can be broken easily. With the advent of quantum technology, the security of information has seen a new paradigm. In this thesis, using the IBM quantum experience platform, the quantum circuits were designed aiming at the realization of quantum cheque concept as well as secure quantum key distribution (BB84 algorithm). The corresponding Qiskit programming code has been understood. The execution of these circuits on a practical quantum computer accessed through the IBM QX online platform showed an increase in the probability of their realization with increasing the number of runs. Furthermore, the high probability for information security when communicated between two persons is realized without leaking the encryption key information to the third party.
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