Mission Control

Command center for your quantum journey. Select a module to begin simulation.

⚛️

The Qubit

Understand the fundamental properties of quantum information.

|0⟩

MEASURE

TOOLBOX

First Contact

Learn the basic controls of the quantum lab.

The QubitENGAGE ->

OUTPUT0

Classical Foundations

Before understanding Qubits, we must master Bits and Logic Gates.

The QubitENGAGE ->

Superconductivity

Eliminate electrical resistance to protect quantum information.

The QubitENGAGE ->

ENERGY DIAGRAM

|0⟩

|1⟩

ΔE=5.0GHz

|2⟩

ΔE=5.0GHz

PULSE ENERGY

4.0 GHz

The Transmon

Isolate the qubit using a Josephson Junction.

The QubitENGAGE ->

Qubit Architectures

Explore Charge, Flux, and Transmon qubit designs.

The QubitENGAGE ->

The Quantum State

Enter the world of probability vectors on the Bloch Sphere.

The QubitENGAGE ->

Maintaining Coherence

Keep the system isolated from the universe to prevent collapse.

The QubitENGAGE ->

💻

Quantum Computer

Combine qubits and gates to perform computation.

State: |0⟩ (Basis)

Hadamard Gate

The gateway to quantum superposition.

Quantum ComputerENGAGE ->

Q0 (Control)

|0⟩

OFF

→

CNOT ACTIVE

→

Q1 (Target)

|0⟩

UNCHANGED

CNOT Gate

Multi-qubit logic: Controlled-NOT.

Quantum ComputerENGAGE ->

The Composer

Combine H and CNOT to create Entanglement.

Quantum ComputerENGAGE ->

🔬

Other Modalities

Explore alternative hardware approaches beyond superconductors.

Trapped Ions

Use lasers to trap individual atoms. High stability, slow speed.

Other ModalitiesENGAGE ->

DET

Photonic Computing

Route light at room temperature. Fast, but lossy.

Other ModalitiesENGAGE ->

Topological Qubits

Braid particles to create error-protected knots.

Other ModalitiesENGAGE ->

Quantum Dots

Trap electrons in semiconductor crystals.

Other ModalitiesENGAGE ->

Quantum Annealing

Find the global minimum energy state.

Other ModalitiesENGAGE ->

REQUEST #1

Client A: "I need to integrate quantum memory directly onto a silicon chip using standard manufacturing processes."

Hardware Lab

Match client needs to the correct quantum modality.

Other ModalitiesENGAGE ->

🌐

SDK Ecosystem

Real-world application and development tools.

main.py

from qiskit import QuantumCircuit, Aer, execute

# 1. Initialize a Quantum Circuit with 1 qubit and 1 classical bit
qc = QuantumCircuit(1, 1)

# 2. Apply Hadamard Gate to put qubit in Superposition
qc.h(0)

# 3. Measure the qubit
qc.measure(0, 0)

# 4. Execute on Simulator
backend = Aer.get_backend('qasm_simulator')
job = execute(qc, backend, shots=1000)
result = job.result()

# 5. Print Results
print(result.get_counts(qc))

Intro to Qiskit

Program quantum hardware using Python and Qiskit SDK.

SDK EcosystemENGAGE ->

Be the First
to Try advanced games

The Qubit

First Contact

Classical Foundations

Superconductivity

The Transmon

Qubit Architectures

The Quantum State

Maintaining Coherence

Quantum Computer

Hadamard Gate

CNOT Gate

The Composer

Other Modalities

Trapped Ions

Photonic Computing

Topological Qubits

Quantum Dots

Quantum Annealing

Hardware Lab

SDK Ecosystem

Intro to Qiskit

Be the Firstto Try advanced games

Be the First
to Try advanced games