quantum-error-correction

這是什麼？

🎯 模擬器提示

📚 術語表

LogicalQubit

以多個物理量子位元編碼的糾錯量子位

PhysicalQubit

單一硬體量子位元（可能會出現錯誤）

Syndrome

不洩漏資料的錯誤簽名

Stabilizer

操作員保持碼字不變

CodeDistance

將一個碼字轉換為另一碼字的最小錯誤

Threshold

錯誤率低於該值時 QEC 隨著規模的擴大而提高

SurfaceCode

領先的二維拓樸糾錯碼

FaultTolerant

錯誤不會失控地級聯

MagicState

支援通用計算的特殊狀態

Decoherence

量子資訊遺失到環境中

🏆 關鍵人物

Peter Shor

第一個量子糾錯碼 (1995)

Andrew Steane

Steane代碼、CSS代碼

Alexei Kitaev

表面程式碼、拓樸方法

John Preskill

閾值定理，NISQ時代概念

Barbara Terhal

拓樸碼研究

💬 給學習者的話

{'encouragement': "You're learning the technology that will transform quantum computing from laboratory curiosity to practical tool. Without error correction, quantum computers can't do anything useful.", 'reminder': "The 2024 Google Willow breakthrough proved that error correction actually works at scale. We've crossed a crucial threshold - now it's engineering, not physics, that limits us.", 'action': 'Build error correcting codes in the simulator. Inject errors and watch them get corrected. See how larger codes suppress errors better.', 'dream': 'A quantum engineer from Kenya might optimize surface code decoders. A physicist from Nigeria might discover new codes with lower overhead. The quantum computing revolution needs global talent.', 'wiaVision': 'WIA Pin Code believes understanding quantum error correction should be accessible to everyone. The future of quantum computing depends on this technology - everyone should understand it.'}