"Random benchmarking on variation quantum teleportation protocol"

"This dataset contains comprehensive experimental results from quantum circuit executions performed on IBM Quantum hardware, specifically targeting the evaluation of quantum teleportation protocol performance under varying circuit complexities and payload sizes.Dataset DetailsFile: 3_experiment_results.csvTotal Records: 292 experimental runsData Collection Period: May 1, 2025Quantum Backend: IBM Sherbrooke quantum processorExperimental DesignThe dataset encompasses two distinct experimental protocols:Fixed Payload Experiments (161 records)Systematic evaluation of quantum circuits with payload sizes ranging from 1-10 qubitsCircuit depths varying from 11 - 43 layersFocus on understanding payload size impact on teleportation fidelityTarget Depth Experiments (131 records)Controlled studies targeting specific circuit depthsEvaluation of depth-dependent quantum coherence effectsCircuit complexity analysis with varying gate compositionsKey Measured ParametersCircuit Characteristics:circuit_depth: Number of quantum gate layers (range: 8-43)circuit_width: Number of qubits used (range: 4-13)circuit_size: Total number of operations (range: 13-181)payload_size: Number of qubits in teleported state (range: 1-5)circuit_count_ops: Detailed gate composition (H, CNOT, X, Y, Z, S, S\u2020, CZ gates)Performance Metrics:success_rate: Quantum teleportation fidelity (range: 0.024-0.874)job_execution_duration: Hardware execution timecounts: Complete measurement outcome histogramsHardware Metadata:IBM job IDs for result reproducibilityExecution timestamps and durationsBackend-specific calibration flagsResearch ApplicationsThis dataset enables investigation of:Quantum Error Scaling: How decoherence affects multi-qubit teleportationCircuit Optimization: Identifying optimal depth-payload trade-offsHardware Characterization: IBM quantum processor performance profilingProtocol Validation: Quantum communication protocol benchmarkingData Quality and ReproducibilityComplete Provenance: All experiments include IBM job IDs for independent verificationHardware Timestamps: Precise execution timing for temporal analysisError Handling: All experiments completed successfully with full measurement dataStatistical Rigor: Multiple validation approaches and diagnostic testingTechnical SpecificationsData Format: CSV with JSON-encoded measurement dictionariesHardware Platform: IBM Quantum Network, Sherbrooke backendMeasurement Protocol: Full computational basis measurement with 4096 shots per circuitThis dataset provides a comprehensive foundation for quantum computing research, particularly in quantum communication protocols, error characterization, and hardware performance analysis. The accompanying analysis scripts offer immediate access to publication-quality visualizations and statistical models, making this dataset suitable for both fundamental research and practical quantum system optimization studies."