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593 results on '"Younes, Ahmed"'

1. Multi-strategy Based Quantum Cost Reduction of Quantum Boolean Circuits

Author

Ahmed, Taghreed, Younes, Ahmed, and Elkabani, and Islam

Subjects
Quantum Physics, Computer Science - Emerging Technologies
Abstract

The construction of quantum computers is based on the synthesis of low-cost quantum circuits. The quantum circuit of any Boolean function expressed in a Positive Polarity Reed-Muller $PPRM$ expansion can be synthesized using Multiple-Control Toffoli ($MCT$) gates. This paper proposes two algorithms to construct a quantum circuit for any Boolean function expressed in a Positive Polarity Reed-Muller $PPRM$ expansion. The Boolean function can be expressed with various algebraic forms, so there are different quantum circuits can be synthesized for the Boolean function based on its algebraic form. The proposed algorithms aim to map the $MCT$ gates into the $NCV$ gates for any quantum circuit by generating a simple algebraic form for the Boolean function. The first algorithm generates a special algebraic form for any Boolean function by rearrangement of terms of the Boolean function according to a predefined degree of term $d_{term}$, then synthesizes the corresponding quantum circuit. The second algorithm applies the decomposition methods to decompose $MCT$ circuit into its elementary gates followed by applying a set of simplification rules to simplify and optimize the synthesized quantum circuit. The proposed algorithms achieve a reduction in the quantum cost of synthesized quantum circuits when compared with relevant work in literature. The proposed algorithms synthesize quantum circuits that can applied on IBM quantum computer., Comment: Boolean Function, Algebraic Form, Quantum Circuits, Quantum Cost, Decomposition, Reorder Algorithm

Published
2024

3. The therapeutic value of Myrtus communis L.: an updated review

Author

Al-Snafi, Ali Esmail, Teibo, John Oluwafemi, Shaheen, Hazem M., Akinfe, Opeyemi Abigail, Teibo, Titilade Kehinde Ayandeyi, Emieseimokumo, Numonde, Elfiky, Mohamed M., Al-kuraishy, Hayder M., Al-Garbeeb, Ali I., Alexiou, Athanasios, Papadakis, Marios, Mahana, Hitham Alaa Mohammed, Younes, Ahmed Maher, Elbanna, Osama Ashraf, Qasem, Abd-elrahman Ali Radwan, Shahin, Ibrahim Yasser Ibrahim, and Batiha, Gaber El-Saber

Published
2024
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10. Preparation of quantum superposition using partial negation

Author

Anwer, Sara, Younes, Ahmed, Elkabani, Islam, and Elsayed, Ashraf

Subjects
Quantum Physics
Abstract

The preparation of a quantum superposition is the key to the success of many quantum algorithms and quantum machine learning techniques. The preparation of an incomplete or a non-uniform quantum superposition with certain properties is a non-trivial task. In this paper, an $n$-qubits variational quantum circuit using partial negation and controlled partial negation operators will be proposed to prepare an arbitrary quantum superposition. The proposed quantum circuit follows the symmetries of the unitary Lie group. The speed of the preparation process and the accuracy of the prepared superposition has a special importance to the success of any quantum algorithm. The proposed method can be used to prepare the required quantum superposition in $\mathcal{O}(n)$ steps and with high accuracy when compared with relevant methods in literature., Comment: 15 pages. This paper was supported financially by the Academy of Scientific Research and Technology (ASRT), Egypt, under initiatives of Science Up Faculty of Science Grant o 6558). (ASRT) is the 2nd affiliation of this research

Published
2021

13. Quantum Algorithm for Quantum State Discrimination via Partial Negation and Weak Measurement

Author

Rizk, Doha A. and Younes, Ahmed

Subjects
Quantum Physics
Abstract

The quantum state discrimination problem is to distinguish between non-orthogonal quantum states. This problem has many applications in quantum information theory, quantum communication and quantum cryptography. In this paper a quantum algorithm using weak measurement and partial negation will be proposed to solve the quantum state discrimination problem using a single copy of an unknown qubit. The usage of weak measurement makes it possible to reconstruct the qubit after measurement since the superposition will not be destroyed due to measurement. The proposed algorithm will be able to determine, with high probability of success, the state of the unknown qubit and whether it is encoded in the Hadamard or the computational basis by counting the outcome of the successive measurements on an auxiliary qubit.

Published
2021

18. A Quantum Algorithm for Testing Junta Variables and Learning Boolean Functions via Entanglement Measure

Author

El-Wazan, Khaled, Younes, Ahmed, and Doma, S. B.

Subjects
Quantum Physics
Abstract

Given a black-box representing an unknown Boolean function $f$ of $n$ variables, in this paper we propose a fast quantum algorithm to test whether or not a certain variable in the function $f$ is a junta variable. The proposed algorithm creates entanglement between the variable under test and an auxiliary qubit, where the entanglement is measured using concurrence measure to decide if the variable is junta. The paper shows applications to the proposed algorithm in learning and categorization of Boolean functions.

Published
2017

19. New Design of Reversible Full Adder/Subtractor using $R$ gate

Author

Montaser, Rasha, Younes, Ahmed, and Abdel-Aty, Mahmoud

Subjects
Quantum Physics, Computer Science - Emerging Technologies
Abstract

Quantum computers require quantum processors. An important part of the processor of any computer is the arithmetic unit, which performs binary addition, subtraction, division and multiplication, however multiplication can be performed using repeated addition, while division can be performed using repeated subtraction. In this paper we present two designs using the reversible $R^3$ gate to perform the quantum half adder/ subtractor and the quantum full adder/subtractor. The proposed half adder/subtractor design can be used to perform different logical operations, such as $AND$, $XOR$, $NAND$, $XNOR$, $NOT$ and copy of basis. The proposed design is compared with the other previous designs in terms of the number of gates used, the number of constant bits, the garbage bits, the quantum cost and the delay. The proposed designs are implemented and tested using GAP software.

Published
2017
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20. A Quantum Algorithm for Testing Juntas in Boolean Functions

Author

El-Wazan, Khaled, Younes, Ahmed, and Doma, S. B.

Subjects
Quantum Physics
Abstract

Given a Boolean function $f$ provided as a black-box with $n$ variables, this paper will propose a quantum algorithm for testing if a certain variable is junta or $\epsilon$-far from being junta. The proposed algorithm constructs another black-box using two copies of the provided black-box. The constructed black-box is used with the partial diffusion operator in an amplitude amplification technique to test whether the variable being tested is junta or not, using $\mathcal{O}(\sqrt{2^n})$ queries to the constructed black-box. The proposed algorithm considers a Boolean function of general form, contrary to relevant algorithms proposed by others.

Published
2017

22. Nanocomposite polymers and their applications for electromagnetic interference shielding

Author

Ali Abd Elaziz, Naira, primary, Shaban Hafez, Fatma, additional, Ashraf Muhammad Abdel Hamid, Aya, additional, Emad Eldin Mostafa, May, additional, Elsayed Ahmed, Tasneem, additional, Omar, Islam, additional, Zeid, Laila, additional, Younes, Ahmed, additional, Hamed, Rewida, additional, Nasser Zaghloul, Dalia, additional, Mohamed, Hend, additional, and Darwish, Mohamed, additional

Published
2024
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25. Dynamic Cost Ant Colony Algorithm for Optimize Distributed Database Query

Author

Mohsin, Sayed A., Darwish, Saad M., Younes, Ahmed, Kacprzyk, Janusz, Series Editor, Pal, Nikhil R., Advisory Editor, Bello Perez, Rafael, Advisory Editor, Corchado, Emilio S., Advisory Editor, Hagras, Hani, Advisory Editor, Kóczy, László T., Advisory Editor, Kreinovich, Vladik, Advisory Editor, Lin, Chin-Teng, Advisory Editor, Lu, Jie, Advisory Editor, Melin, Patricia, Advisory Editor, Nedjah, Nadia, Advisory Editor, Nguyen, Ngoc Thanh, Advisory Editor, Wang, Jun, Advisory Editor, Hassanien, Aboul-Ella, editor, Azar, Ahmad Taher, editor, Gaber, Tarek, editor, Oliva, Diego, editor, and Tolba, Fahmy M., editor

Published
2020
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31. Reading a Single Qubit System Using Weak Measurement with Variable Strength

Author

Younes, Ahmed

Subjects
Quantum Physics
Abstract

Acquiring information about an unknown qubit in a superposition of two states is essential in any computation process. Quantum measurement, or sharp measurement, is usually used to read the information contents of that unknown qubit system. Quantum measurement is an irreversible operation that makes the superposition collapses to one of the two possible states in a probabilistic way. In this paper, a quantum algorithm will be proposed to read the information in an unknown qubit without applying sharp measurement on that qubit. The proposed algorithm will use a quantum feedback control scheme by applying sharp measurement iteratively on an auxiliary qubit weakly entangled with the unknown qubit. The information contents of the unknown qubit can be read by counting the outcomes from the sharp measurement on the auxiliary qubit. Iterative measurements on the auxiliary qubit will make the amplitudes of the superposition move in a random walk manner where a weak measurement is applied on the unknown qubit which can be reversed when the random walk takes opposite steps to decrease the disturbance introduced to the system. The proposed algorithm will define the strength of the weak measurement so that it can be controlled by adding an arbitrary number of dummy qubits $\mu$ to the system. This will make the measurement process slowdown to an arbitrary scale so that the effect of the sharp measurement on the unknown qubit is reached after $O(\mu^2)$ measurements on the auxiliary qubit., Comment: 15 pages, 4 figures

Published
2016
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32. New Designs of Universal Reversible Gate Library

Author

Montaser, Rasha, Younes, Ahmed, and Abdel-Aty, Mahmoud

Subjects
Computer Science - Emerging Technologies
Abstract

We present new algorithms to synthesize exact universal reversible gate library for various types of gates and costs. We use the powerful algebraic software GAP for implementation and examination of our algorithms and the reversible logic synthesis problems have been reduced to group theory problems. It is shown that minimization of arbitrary cost functions of gates and orders of magnitude are faster than its previously counterparts for reversible logic synthesis. Experimental results show that a significant improvement over the previously proposed synthesis algorithm is obtained compared with the existing approaches to reversible logic synthesis.

Published
2015

35. A Polynomial Time Bounded-error Quantum Algorithm for Boolean Satisfiability

Author

Younes, Ahmed and Rowe, Jonathan E.

Subjects
Computer Science - Computational Complexity, Computer Science - Data Structures and Algorithms
Abstract

The aim of the paper is to answer a long-standing open problem on the relationship between NP and BQP. The paper shows that BQP contains NP by proposing a BQP quantum algorithm for the MAX-E3-SAT problem which is a fundamental NP-hard problem. Given an E3-CNF Boolean formula, the aim of the MAX-E3-SAT problem is to find the variable assignment that maximizes the number of satisfied clauses. The proposed algorithm runs in $O(m^2)$ for an E3-CNF Boolean formula with $m$ clauses and in the worst case runs in $O(n^6)$ for an E3-CNF Boolean formula with $n$ inputs. The proposed algorithm maximizes the set of satisfied clauses using a novel iterative partial negation and partial measurement technique. The algorithm is shown to achieve an arbitrary high probability of success of $1-\epsilon$ for small $\epsilon>0$ using a polynomial resources. In addition to solving the MAX-E3-SAT problem, the proposed algorithm can also be used to decide if an E3-CNF Boolean formula is satisfiable or not, which is an NP-complete problem, based on the maximum number of satisfied clauses., Comment: 15 pages, 5 figures. arXiv admin note: text overlap with arXiv:1505.06284

Published
2015

36. A Bounded-error Quantum Polynomial Time Algorithm for Two Graph Bisection Problems

Author

Younes, Ahmed

Subjects
Quantum Physics, Computer Science - Computational Complexity, Computer Science - Data Structures and Algorithms
Abstract

The aim of the paper is to propose a bounded-error quantum polynomial time (BQP) algorithm for the max-bisection and the min-bisection problems. The max-bisection and the min-bisection problems are fundamental NP-hard problems. Given a graph with even number of vertices, the aim of the max-bisection problem is to divide the vertices into two subsets of the same size to maximize the number of edges between the two subsets, while the aim of the min-bisection problem is to minimize the number of edges between the two subsets. The proposed algorithm runs in $O(m^2)$ for a graph with $m$ edges and in the worst case runs in $O(n^4)$ for a dense graph with $n$ vertices. The proposed algorithm targets a general graph by representing both problems as Boolean constraint satisfaction problems where the set of satisfied constraints are simultaneously maximized/minimized using a novel iterative partial negation and partial measurement technique. The algorithm is shown to achieve an arbitrary high probability of success of $1-\epsilon$ for small $\epsilon>0$ using a polynomial space resources., Comment: 17 Pages, 5 figures

Published
2015
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38. Impact of Neighborhood Urban Morphologies on Walkability Using Spatial Multi-Criteria Analysis.

Author

Ibrahim, Sara, Younes, Ahmed, and Abdel-Razek, Shahira Assem

Subjects
WALKABILITY, URBAN morphology, CITIES & towns, NEIGHBORHOODS, QUALITY of life
Abstract

With the increase in car domination, air pollution, traffic congestion, and urban sprawl, sustainable, livable, creative, and walkable cities are critical, now more than ever, for improving quality of life. The effect of neighborhood urban morphologies on walkability has received much attention in recent years. In this vein, the main research question is: how do different neighborhood urban morphologies impact the level of walkability in urban environments, and what are the essential elements impacting the walkability index? Thus, this research aims to determine the impact of urban morphology on walkability in the city of Alexandria, Egypt, as a case study by utilizing multi-spatial analysis. In particular, the study focused on assessing the walkability of four different study areas that vary according to their urban morphology: Kafr–Abdo, Smouha, Latin Quarter, and Roushdy areas. The analysis utilized GIS to calculate a number of indicators to reach the final walkability index for each study area. Results helped to identify the neighborhoods characterized by the lowest level of pedestrian walkability in relation to the area's urban morphology in an attempt to help decision-makers suggest the appropriate interventions for those areas. The aggregated index results showed that the highest walkability index was that of the gridiron morphology, followed by the linear morphology, with the radial and organic morphologies coming in behind them, respectively. The composite walkability index values were 0.364, 0.247, 0.232 and 0.225, respectively. The reason for this is mainly the presence of the commercial density, intersection density, street density, services density, BCR, and residential density. [ABSTRACT FROM AUTHOR]

Published
2024
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40. A Fast Quantum Algorithm for the Affine Boolean Function Identification

Author

Younes, Ahmed

Subjects
Quantum Physics
Abstract

Bernstein-Vazirani algorithm (the one-query algorithm) can identify a completely specified linear Boolean function using a single query to the oracle with certainty. The first aim of the paper is to show that if the provided Boolean function is affine, then one more query to the oracle (the two-query algorithm) is required to identify the affinity of the function with certainty. The second aim of the paper is to show that if the provided Boolean function is incompletely defined, then the one-query and the two-query algorithms can be used as bounded-error quantum polynomial algorithms to identify certain classes of incompletely defined linear and affine Boolean functions respectively with probability of success at least $2/3$., Comment: 12 pages, 3 figures

Published
2014

41. A Single Universal n-bit Gate for Reversible Circuit Synthesis

Author

Younes, Ahmed

Subjects
Quantum Physics, Computer Science - Emerging Technologies
Abstract

Many universal reversible libraries that contain more than one gate type have been proposed in the literature. Practical implementation of reversible circuits is much easier if a single gate type is used in the circuit construction. This paper proposes a reversible n-bit gate that is universal for reversible circuits synthesis. The proposed gate is extendable according to the size of the circuit. The paper shows that the size of the synthesized circuits using the proposed gate is comparable with the size of the synthesized circuits using the hybrid reversible libraries for 3-in/out reversible circuits., Comment: 13 pages, 4 tables and 11 figures

Published
2013

42. Tight Bounds on the Synthesis of 3-bit Reversible Circuits: NFT Library

Author

Younes, Ahmed

Subjects
Quantum Physics
Abstract

The reversible circuit synthesis problem can be reduced to permutation group. This allows Schreier-Sims Algorithm for the strong generating set-finding problem to be used to find tight bounds on the synthesis of 3-bit reversible circuits using the NFT library. The tight bounds include the maximum and minimum length of 3-bit reversible circuits, the maximum and minimum cost of 3-bit reversible circuits. The analysis shows better results than that found in the literature for the lower bound of the cost. The analysis also shows that there are 1960 universal reversible sub-libraries from the main NFT library., Comment: 18 pages. arXiv admin note: text overlap with arXiv:1101.4384

Published
2013

47. Detection and Elimination of Non-Trivial Reversible Identities

Author

Younes, Ahmed

Subjects
Quantum Physics
Abstract

Non-Trivial Reversible Identities (NTRIs) are reversible circuits that have equal inputs and outputs. NTRIs cannot be detected using optimization algorithms in the literature. Existence of NTRIs in a circuit will cause a slow down by increasing the number of gates and the quantum cost. NTRIs might arise due to integration between two or more optimal reversible circuits. In this paper, an algorithm that detects and removes NTRIs in polynomial time will be proposed. Experiments that show the bad effect of NTRIs and the enhancement using the proposed algorithm will be presented., Comment: 11 pages

Published
2011
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50. S1351 Efficacy and Safety of Variable Treatment Options in the Prevention of Hepatic Encephalopathy: A Systematic Review and Network Meta-Analysis

Author

Hammad, Mohamed, primary, Elghezewi, Abdelwahap, additional, Younes, Ahmed Abdulhadi H., additional, Alabid, Abdelwahhab, additional, Alabid, Abdulfatah, additional, Badi, Yasra, additional, Gamal, Mohamed Hasham, additional, Kamal, Ibrahim, additional, Ragab, Khaled Mohamed, additional, Fathallah, Ahmed Hashem, additional, Mohamed, Mujtaba, additional, Sherif, Ahmed, additional, Frandah, Wesam, additional, and Shaab, Anas, additional

Published
2023
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