3.5Quantum computing Quantum computingis a concept based on thequantum theoryof physics, which deals with nature at the quantum level. A quantum is the minimum amount of a physical entity that can be considered for computing. The idea behind quantum computing is to operate the computers on extre...
To inform information systems (IS) research, this Fundamental provides the fundamental concepts of quantum computing and depicts research opportunities. Therefore, we provide in our second section a brief overview of a quantum computer system and its three layers of a quantum computer: hardware, syste...
which has overcome several major technological blocks.9)_(compare)with conventional computers , Jiuzhang is currently just a "champion in one single area , " but (10)___(it)super-computing capacity has application potential in areas such as graph theory , machine learning and quantum chemistry ...
Throughout the review, we are assuming familiarity with the basics of quantum information theory and some elements of complexity theory. However, we provide a brief overview of these topics as well as other notions that are used in this review (such asmeasurement-based quantum computing) in the...
Using the QCC, we alsoshow that the seemingly different circuit, graph- (including cluster-) state,and adiabatic paradigms for quantum computing are in fact all manifestations ofa single, universal paradigm for all physical quantum computation.Gerald Gilbert...
Using this cluster state, we demonstrate the feasibility of one-way quantum computing through a universal set of one- and two-qubit operations. Finally, our implementation of Grover's search algorithm demonstrates that one-way quantum computation is ideally suited for such tasks. This is a ...
This is a tool developed by GQI that allows you to visualize the quantum computing resources needed to process 19 different algorithms with 8 different quantum computing configurations. It provides both the number of physical qubits required and the runtime. For more details about the algorithms and...
We develop a hybrid resource-efficient approach by combining classical and quantum computing, that not only allows the study of an SU(2) gauge theory with dynamical matter fields on present-day quantum hardware, but further lays out the premises for future quantum simulations that will address ...
By theory, in the model of one-qubit quantum computation, the input state is a completely mixed state except for a single clean qubit, and only a single output qubit is measured at the end of the computing. As the authors found, the proposed results weakens the complexity assumption ...
Quantum computing is computing beyond classical computing based on quantum phenomena such as superposition and entanglement. While quantum computing is sti