抗量子性：随着 Hedera Hashgraph 实施抗量子安全协议，数字安全实践发生了巨大转变

Hedera Hashgraph 实现了区块链技术的重大飞跃，实施了抗量子安全协议，标志着数字安全实践的巨大转变。

Hedera Hashgraph's recent integration of quantum-resistant protocols is a groundbreaking step in securing blockchain technology against the advancing capabilities of quantum computing. However, this move also highlights the wider impact of quantum computing on global security practices, which requires further attention.

Hedera Hashgraph 最近集成了抗量子协议，这是确保区块链技术免受量子计算先进能力影响的突破性一步。不过，此举也凸显了量子计算对全球安全实践的更广泛影响，值得进一步关注。

As quantum computing technology evolves, it poses a significant threat to existing encryption standards, which are essential for safeguarding sensitive information worldwide. This includes everything from cryptocurrency wallets and blockchain networks to financial data, government records, and personal privacy. Without quantum-resistant measures in place, a vast array of sensitive data could become vulnerable to decryption.

随着量子计算技术的发展，它对现有的加密标准构成了重大威胁，而现有的加密标准对于保护全球敏感信息至关重要。这包括从加密货币钱包和区块链网络到财务数据、政府记录和个人隐私的一切。如果没有适当的抗量子措施，大量敏感数据可能容易被解密。

To put the urgency into perspective, while Hedera Hashgraph is making strides in quantum resistance, many other aspects of global security are lagging behind. For instance, the encryption used to protect email communications is still vulnerable to quantum attacks. This means that even as cryptocurrencies and blockchains are secured against future quantum threats, other critical channels for data exchange remain exposed.

从紧迫性来看，虽然 Hedera Hashgraph 在量子抗性方面取得了长足进步，但全球安全的许多其他方面却落后了。例如，用于保护电子邮件通信的加密仍然容易受到量子攻击。这意味着，即使加密货币和区块链能够抵御未来的量子威胁，其他关键的数据交换渠道仍然暴露在外。

Moreover, the implications extend beyond just technology. Nations and corporations that fail to prepare their data ecosystems for quantum computing might leave themselves vulnerable to cyber attacks and data breaches, potentially impacting everything from national security to the stability of financial markets.

此外，其影响不仅仅限于技术。未能为量子计算准备好数据生态系统的国家和企业可能会容易遭受网络攻击和数据泄露，从而可能影响从国家安全到金融市场稳定的各个方面。

In light of these disparities, a collective effort is needed to secure the world's data infrastructure against the threats posed by quantum computing. This includes government initiatives, industry collaborations, and widespread education on the subject.

鉴于这些差异，需要集体努力来保护世界数据基础设施免受量子计算带来的威胁。这包括政府举措、行业合作以及有关该主题的广泛教育。

Here are some additional intriguing facts about quantum technologies and their relation to cryptography:

以下是有关量子技术及其与密码学关系的一些额外有趣的事实：

1. Quantum Computers Are Surprisingly Fast: While still in early stages of development, quantum computers can theoretically solve complex problems in seconds that would take classical computers thousands of years to complete. This includes breaking the encryption codes that currently safeguard sensitive information across the globe.

1. 量子计算机的速度快得惊人：虽然仍处于发展的早期阶段，但量子计算机理论上可以在几秒钟内解决传统计算机需要数千年才能完成的复杂问题。这包括破解目前保护全球敏感信息的加密代码。

2. Quantum Supremacy Is Approaching Quickly: Google, IBM, and other industry leaders are actively developing quantum computers, with significant progress reported in recent years. Quantum Supremacy—the point at which quantum computers can out-perform the most advanced classical computers—is on the horizon.

2、量子霸权正在迅速临近：谷歌、IBM等行业领先者正在积极开发量子计算机，近年来取得了重大进展。量子霸权——量子计算机能够超越最先进的经典计算机的临界点——即将到来。

3. Quantum Computing vs Blockchain Technology: Blockchains are designed to be secure against classical threats, but the traditional encryption they use can be easily unraveled by quantum processes. This has driven developers to create new types of encryption algorithms and technologies that are resistant to quantum attacks.

3. 量子计算与区块链技术：区块链的设计目的是抵御经典威胁，但它们使用的传统加密很容易被量子过程破解。这促使开发人员创建能够抵抗量子攻击的新型加密算法和技术。

As quantum computing capabilities advance, it is crucial to integrate quantum-resistant measures into critical infrastructure and applications to safeguard sensitive data from new types of cyber threats. At the same time, a broader conversation on the ethical use and regulation of quantum technologies is necessary to navigate this rapidly evolving landscape responsibly.

随着量子计算能力的进步，将抗量子措施集成到关键基础设施和应用程序中以保护敏感数据免受新型网络威胁至关重要。与此同时，有必要就量子技术的道德使用和监管进行更广泛的对话，以负责任地驾驭这一快速发展的格局。