Quantum Research Lab

Exploring quantum phenomena through computational simulations and algorithmic modeling.

Quantum Research Pillars

Our research spans three core domains: Quantum Entanglement Modeling, Quantum Algorithm Development, and Quantum Hardware Simulation. Each project is designed to push the boundaries of what's computationally possible.

Quantum Entanglement

Developing high-fidelity simulations of entangled particle systems using tensor network methods. Visualize non-local correlations in 3D interactive spaces.

Explore Entanglement ➜

Quantum Algorithms

Creating new quantum algorithms that exploit superposition and interference for problems in optimization, cryptography, and chemistry.

View Algorithms ➜

Quantum Hardware

Building realistic simulations of quantum processors and qubit architectures. Test error correction and noise mitigation techniques.

Simulate Hardware ➜

Quantum Impact

Applying quantum simulations to real-world problems in drug discovery, materials science, and complex system optimization.

View Applications ➜

Quantum Simulation Sandbox

Test quantum circuit designs in our interactive simulation environment.

Circuit Builder

Design and test quantum circuits using our drag-and-drop interface

Quantum Emulator

Run simulations with up to 20 qubits using statevector representation

Error Modeling

Introduce noise and decoherence to test fault tolerance

Ready to simulate

Select a quantum circuit to begin

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Simulation paused · 0 qubits active
Start Experimenting ➤