To understand the future of secure communication, one must first understand the limitations of current cryptographic methods.
要理解安全通信的未来,首先必须理解当前密码学方法的局限性。
The intersection of cryptography and complexity theory is where some of the most fascinating problems in computer science reside.
密码学和复杂性理论的交叉点是计算机科学中一些最迷人问题的所在。
Privacy is not just a right, but a necessity for the functioning of a free society.
隐私不仅是一种权利,而且是自由社会运作的必要条件。
The beauty of theoretical computer science lies in its ability to abstract and solve problems that seem insurmountable.
理论计算机科学的美在于它能够抽象并解决看似不可逾越的问题。
In the realm of secure computation, we strive to achieve the impossible: to compute with data we cannot see.
在安全计算的领域,我们努力实现不可能的事情:用我们看不到的数据进行计算。
The challenge in cryptography is not just to create unbreakable codes, but to create systems that remain secure even as technology evolves.
密码学中的挑战不仅仅是创建不可破解的代码,还包括创建即使技术发展也能保持安全的系统。
Security in the digital world is not just about keeping secrets, but also about ensuring integrity and availability.
数字世界中的安全不仅仅是保守秘密,还包括确保完整性和可用性。
The power of randomness in algorithms is often underestimated.
Zero-knowledge proofs are a way to prove that you know something without revealing what it is.
零知识证明是一种证明你知道某事而不透露它是什么的方法。
The essence of cryptography is to allow communication in the presence of adversaries.
密码学的本质是允许在存在对手的情况下进行通信。