Name
Gushanskiy Sergei Mikhailovich
Scholastic degree
•
Academic rank
associated professor
Honorary rank
—
Organization, job position
South Federal University
Web site url
—
Articles count: 3
This article describes the basics of performance, as
well as the structural and functional component of
the development and implementation of SQC. In
accordance with this, a computational structure of
the simulator of a quantum calculator has been
derived, taking into account all the available
features of constructing a simulator of a quantum
computing device. Also, a software implementation
of the derived universal computational structure of
SQC that satisfies and operates according to the
principles of this scheme is implemented
This article discusses the principles of quantum
computing simulation using hardware approach. We
describe a general mathematical model of a quantum
computer; we show the method of mathematical
modeling of quantum computation with optimization
and a scheme of a hardware processing core in a
quantum computing accelerator. The article gives a
method of assessment of increasing productivity in the
simulation of quantum computations using computing
hardware core. The problems associated with the
parallelization of computations on a hardware
accelerator, simulating quantum computing were
analyzed. The work lists the results of comparison of
software and hardware simulation, as well as the
dependence of the temporal evaluation of the number
of qubits and parallel ALU in the computer-hardware
accelerator
This article discusses an economic game called
"The struggle for markets". We have generated a
mathematical model of quantum realization of this
game. For clarity, the algorithms are derived for
soft and hard quantum games for assessing the
impact of the degree of entanglement to work and
the result of the algorithm. There are step-by-step
instructions for the sequence of actions and
operations to create a quantum model of the game.
The aim is to assess the influence of the degree of
entanglement on work algorithms. Also, we
investigate the influence of quantum entanglement
on the win for two or more players. The article
gives a comparison with classical results