CRYPTUDENT

イランは、西側の制裁を回避し、収益を増やすために、ホルムズ海峡を通過する油槽船に対して最大200万ドルの暗号通貨または中国元の料金を課しています。
イスラム革命防衛隊（IRGC）は、通過の安全のために、1バレルあたり約1ドルの料金を徴収するこれらの支払いを強制しています。
イランの暗号船料金に関する重要な詳細
対象とコスト: 料金は油槽船と貨物船を対象としており、1隻あたりの平均料金は約200万ドルです。
支払い方法: イランは、米ドルベースの金融システムを回避するために、ビットコインやその他の暗号通貨（ステーブルコインを含む）での支払いを受け付けています。

We’re diving deep into the massive announcement from Google that has sent shockwaves through the entire blockchain ecosystem. Did their latest breakthrough in Quantum Computing actually crack Bitcoin’s encryption, or is there more to the story?
Based on the latest reports as of March 31, 2026, Google has not actually cracked Bitcoin's encryption, but it has released research indicating that the threat from quantum computing is arriving significantly faster than previously estimated.
The "shockwave" is caused by a new white paper from Google Quantum AI, which suggests that a cryptographically relevant quantum computer (CRQC) could theoretically break Bitcoin's encryption in minutes rather than decades, using a 20-fold reduction in quantum resources than previously thought.
Here is the deep dive into the story:
1. The Breakthrough: What Did Google Say?
Faster Timeline: Google researchers, along with collaborators from the Ethereum Foundation and others, published research showing that a quantum computer could crack the elliptic curve cryptography (ECC-256) used in Bitcoin and Ethereum using fewer than 500,000 physical qubits. Previously, it was believed that millions, or even billions, of qubits would be required.
The 9-Minute Threat: The research suggests that in a theoretical scenario, a quantum computer could derive a private key from a public key within 9–12 minutes, fitting within Bitcoin's 10-minute block time.
"At-Rest" Vulnerability: The real danger is to dormant or older Bitcoin wallets (such as those from the Satoshi era, holding over 1.7 million BTC) that have their public keys exposed, making them vulnerable to "at-rest" attacks.
2029 Deadline: Google has set a 2029 target for its own post-quantum cryptography (PQC) migration, urging the blockchain industry to accelerate their transition to quantum-safe systems by this deadline.
2. Is It Really Over for Bitcoin? (The Other Side of the Story)
No Immediate Attack: Experts emphasize that no quantum computer currently exists with the 500,000+ stable, error-corrected qubits needed to execute this attack. Google's most advanced chip, "Willow," has 105 qubits, which is far below the required capacity.
Theoretical vs. Practical: The 9-minute claim assumes a "primed" machine that has already precomputed half the algorithm. A full, real-time attack on an active transaction is still incredibly difficult.
Bitcoin Can Adapt: Bitcoin is designed to upgrade. Proposals like BIP-360 (Pay-to-Merkle-Root) are already in discussion to eliminate the exposure of public keys, effectively neutralizing the "at-rest" attack vector long before a working quantum computer arrives.
3. The "Store Now, Decrypt Later" Threat
The most immediate risk mentioned is not that a hacker will empty a wallet today, but that malicious actors are currently "harvesting" encrypted Bitcoin data. They are storing this data with the intention of decrypting it when quantum computers become powerful enough in the next 5–10 years.
Summary
Google's announcement is a long-term warning, not an immediate crisis. It shifts the perspective on quantum threats from "science fiction" to "urgent engineering problem."
The consensus is that Bitcoin needs to implement post-quantum cryptographic upgrades within the next 3-7 years to remain secure. If it does not, a significant portion of its total supply—mostly in old, inactive, or "dormant" wallets—could become vulnerable.
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