Searched for: author%3A%22Sarkar%2C+A.%22
(1 - 10 of 10)
document
Sarkar, A. (author)
As bigger quantum processors with hundreds of qubits become increasingly available, the potential for quantum computing to solve problems intractable for classical computers is becoming more tangible. Designing efficient quantum algorithms and software in tandem is key to achieving quantum advantage. Quantum software engineering is...
journal article 2024
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Bach, Bao Gia (author), Kundu, Akash (author), Acharya, Tamal (author), Sarkar, A. (author)
This work applies concepts from algorithmic probability to Boolean and quantum combinatorial logic circuits. The relations among the statistical, algorithmic, computational, and circuit complexities of states are reviewed. Thereafter, the probability of states in the circuit model of computation is defined. Classical and quantum gate sets are...
journal article 2023
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Sarkar, A. (author), Al-Ars, Z. (author), Bertels, K.L.M. (author)
In this research, we extend the universal reinforcement learning agent models of artificial general intelligence to quantum environments. The utility function of a classical exploratory stochastic Knowledge Seeking Agent, KL-KSA, is generalized to distance measures from quantum information theory on density matrices. Quantum process...
conference paper 2023
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Sarkar, A. (author)
Efforts to realize a sufficiently large controllable quantum processor are actively being pursued globally. These quantum devices are programmed by specifying the manipulation of quantum information via quantum algorithms. This doctoral research provides an application perspective to the design requirements of a quantum accelerator architecture....
doctoral thesis 2022
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Krol, A.M. (author), Sarkar, A. (author), Ashraf, I. (author), Al-Ars, Z. (author), Bertels, K.L.M. (author)
Unitary decomposition is a widely used method to map quantum algorithms to an arbitrary set of quantum gates. Efficient implementation of this decomposition allows for the translation of bigger unitary gates into elementary quantum operations, which is key to executing these algorithms on existing quantum computers. The decomposition can be used...
journal article 2022
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Sarkar, A. (author), Al-Ars, Z. (author), Almudever, Carmen G. (author), Bertels, K.L.M. (author)
With small-scale quantum processors transitioning from experimental physics labs to industrial products, these processors in a few years are expected to scale up and be more robust for efficiently computing important algorithms in various fields. In this paper, we propose a quantum algorithm to address the challenging field of data processing...
journal article 2021
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Sarkar, A. (author), Al-Ars, Z. (author), Bertels, K.L.M. (author)
Inferring algorithmic structure in data is essential for discovering causal generative models. In this research, we present a quantum computing framework using the circuit model, for estimating algorithmic information metrics. The canonical computation model of the Turing machine is restricted in time and space resources, to make the target...
journal article 2021
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Sarkar, A. (author), Al-Ars, Z. (author), Bertels, K.L.M. (author)
In this article, we present QuASeR, a reference-free DNA sequence reconstruction implementation via de novo assembly on both gate-based and quantum annealing platforms. This is the first time this important application in bioinformatics is modeled using quantum computation. Each one of the four steps of the implementation (TSP, QUBO,...
journal article 2021
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Bhatt, V. (author), Sarkar, A. (author), Kumar, R. (author), Basu, S. (author), Agarwal, V.K. (author)
journal article 2004
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Sarkar, A. (author)
journal article 2000
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