QUBIT – FPGA based stand for physical simulations of qubit states
QUBIT – FPGA based stand for physical simulations of qubit states - electronic modules for the
control and simulation of quantum systems, based on massively parallel real-time FPGA circuits,
enabling the emulation of quantum environments.
Our proposed system emulates the behavior of a virtual qubit in real time, graphically displaying the
Bloch sphere representing its current state. The user can manipulate the qubit's state vector using
specific input digital pulses, while the emulated qubit continuously generates output digital signals
proportional to its current state. This allows for continuous observation and real-time monitoring of
qubit parameters such as phase and superposition.
Additionally, the input and output digital pulses of the emulator can be constantly monitored, for
example, using the included oscilloscope.
Scientific Publications:
Why do FPGA-based physical circuit emulators outperform software simulations of physical circuits realized on processors?
Thanks to the fact that QUBIT – FPGA based stand for physical simulations of qubit states is built on FPGA, it takes advantage of a processor simulation, which is a series of sequential operations describing the behavior of a physical circuit over time. In this approach, parallel phenomena are computed sequentially, meaning that we DO NOT obtain a real-time representation of the simulated circuit! Additionally, it is not possible to interact with the simulated circuit in true real-time.
Details in the attached file.
