Quantum Circuit Benchmarking on IBM Brisbane: Performance Insights from Superconducting Qubit Models
J. Thirunirai Selvam, S. Saravana Veni
TL;DR
This paper evaluates the performance of superconducting qubits on IBM Brisbane for quantum communication, focusing on gate implementation, entanglement, and simulation of quantum models under realistic noise conditions.
Contribution
It demonstrates the practical viability of superconducting qubits for quantum communication and complex quantum simulations on IBM's quantum hardware.
Findings
Successful implementation of quantum gates and entangled states under realistic conditions
Simulation of Jaynes Cummings and Ising models on superconducting qubits
Insights into noise effects on quantum communication protocols
Abstract
This paper investigates quantum communication using superconducting qubits, emphasizing the simulation and control of quantum systems via IBM Brisbane quantum processor. We focus on implementing fundamental quantum gates and analyzing the evolution of entangled states, which are essential for secure and reliable information transfer. The study highlights the role of entanglement as a critical resource in quantum communication, enabling secure connectivity across quantum networks. Simulations incorporate realistic conditions, including decoherence and noise, to assess the practical viability of entangled state operations. Additionally, we explore the extension of these systems to simulate key quantum models such as the Jaynes Cummings and longitudinal Ising models, offering insight into complex interactions in superconducting architectures. The findings advance quantum information…
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