Hi! I’m a passionate developer specializing in DevOps,
Data Science, and Quantum Computing.
I love tackling complex problems and turning ideas into innovative solutions.
Currently, I’m working on exciting projects through the
MIT Emerging Talent Program and looking forward to more impactful work.
- 🔧 DevOps: Building automated workflows and optimizing systems.
- 📊 Data Science: Transforming data into actionable insights.
- ⚛️ Quantum Computing: Exploring real-world applications and advancements in quantum technologies.
- 🖥️ IT Support: Years of experience in IT infrastructure and troubleshooting.
- 🌱 Contribute to impactful open-source projects.
- 🎓 Contribute to quantum computing projects and explore real-world applications in the field.
Here’s a simple Quantum Circuit for creating a Bell state. Can you modify it to entangle more qubits? 🧑💻
from qiskit import QuantumCircuit, Aer, execute
# Create a Quantum Circuit with 2 qubits and 2 classical bits
qc = QuantumCircuit(2, 2)
# Apply a Hadamard gate on the first qubit
qc.h(0)
# Apply a CNOT gate (control=0, target=1)
qc.cx(0, 1)
# Measure the qubits
qc.measure([0, 1], [0, 1])
# Run the circuit on a simulator
simulator = Aer.get_backend('qasm_simulator')
result = execute(qc, simulator, shots=1024).result()
counts = result.get_counts(qc)
print("Bell state measurement results:", counts)| ⚛️ | ⚛️ |
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