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A free curriculum from first principles to quantum algorithms. Or join our research team building quantum software and hardware in Hanoi.
In December 2024, Google's Willow chip achieved below-threshold error correction — a benchmark researchers chased for 30 years. By October 2025, it demonstrated a 13,000× speedup over the world's fastest supercomputer. Quantum equity funding hit $3.77 billion in just nine months of 2025. This is not the future. It is the present, and Vietnam is not in the room.
McKinsey projects a $100 billion quantum market within a decade.
The pharma quantum computing market alone is expected to grow from $156 million in 2026 to $2.15 billion by 2036. The bottleneck is not demand. It is people who understand the technology.
Google's Willow chip achieved 13,000× speedup over Frontier — published in Nature, October 2025.
Below-threshold error correction was demonstrated for the first time: adding more physical qubits actually reduced logical error rates. IBM, Microsoft, and Quantinuum are racing to scale.
$3.77 billion in quantum equity funding in the first 9 months of 2025 — nearly triple all of 2024.
PsiQuantum closed a $1 billion Series E. Quantinuum raised $800 million. Global public funding crossed $10 billion. The money is moving.
Japan committed $7.4 billion. The US authorized $1.8 billion more. China launched a $15 billion program.
South Korea pledged $2.3 billion by 2035. The UK committed £2.5 billion. The EU Quantum Flagship runs through 2028. Nations are treating quantum as a sovereign priority.
Zero quantum computing degrees in Vietnam.
While other nations build programs and pour billions into quantum infrastructure, we are starting from first principles. That is both the problem and the opportunity.
HSBC used IBM's quantum computer to improve bond trading accuracy in 2025. JPMorgan, BMW, and Amgen are already quantum customers.
Shor's algorithm can break RSA. Grover's can search the impossible. These are not abstract ideas. They are tools that will reshape finance, pharma, defense, and every industry you can name.
Transmon qubits
The most widely deployed qubit type, used by IBM, Google, and Rigetti. Fast gates, lithographic fabrication, and cryogenic operation.
Operating temp
~15 mK
Gate time
~10–100 ns
Atomic qubits
Individual ions suspended in electromagnetic traps. Highest gate fidelities, all-to-all connectivity, and long coherence times.
Coherence
~1–10 min
Gate time
~1–100 μs
Rydberg arrays
Atoms held in optical tweezers and entangled via Rydberg interactions. Highly reconfigurable and rapidly scaling.
Coherence
~1–10 s
Gate time
~1 μs
Light-based qubits
Quantum information encoded in photons. Operates at room temperature and is naturally suited to networking.
Operating temp
Room temp
Gate time
~ps–ns
Two paths. One lab. Whether you are here to learn or already know what you want, there is a door for you.
If quantum mechanics hasn't profoundly shocked you, you haven't understood it yet.
Niels Bohr
1885 – 1962