Quantum Evolution Roadmap
Trace the history and future of quantum computing breakthroughs that are transforming our computational universe.
1982
Richard Feynman proposes the idea of quantum computing to simulate quantum systems.
1994
Peter Shor develops Shor's algorithm, demonstrating quantum advantage in prime factorization.
2007
First demonstrations of quantum error correction mark the beginning of fault-tolerant research.
2019
Google's Sycamore processor achieves quantum supremacy by completing a computation in 200 seconds.
2021
IBM introduces the 127-qubit Eagle processor, enabling more stable qubit systems with better coherence times.
2023
Commercial quantum processors begin tackling industrial optimization problems with hybrid algorithms.
2024
Quantum cryptography networks deploy across major cities for unhackable government-to-enterprise communications.
2025
Fault-tolerant quantum computers achieve commercial viability across pharmaceutical research and AI development.
2026+
Quantum internet protocols begin global deployment, connecting quantum resources across continents.
What's Next?
The future holds promising advancements in quantum hardware, error correction, and hybrid quantum-classical systems. We're actively exploring applications in quantum machine learning, secure communications, and large-scale simulations that will reshape industries like finance, healthcare, and materials science.
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