还有什么能比使用单光子、粒子束分离器、量子粒子、光纤和物理物体来推导不可破解密钥的安全技术更酷呢?在DARPA的资助下,美国国家标准与技术研究所(NIST)已经成功测试了一种每秒1.25Gbps、使用量子加密的多节点有源网络。量子加密,正式名称为量子密钥分发(QKD),被认为是地球上第一种真正不可破解和不受窃听的加密技术。当然,AES 256在实践中是不可破解的今天,但它仍然在数学上可破解,它当然可以被利用。另一方面,量子密钥分配完全不依赖于数学,相反,它依赖于基本物理定律,使它绝对不可能被破解或破解!量子密码学确实是用词不当;它与加密任何东西无关,而是与以一种安全的方式交换密码密钥有关。这就是为什么这个领域的大多数科学家喜欢将其称为量子密钥分配。QKD本质上是对称的,这意味着双方共享一个用于加密和解密的公共密钥,通常称为共享密钥。就像今天的预共享密钥实现一样。 QKD is protected from intrusion because as soon as you try and observe the quantum particles the particles will change state due to the rules of quantum physics. Now the end system knows you were there. Oops Check out Google’s Tech Talk on QKD to get a very well done deep dive: http://www.youtube.com/watch?v=CKkqUR7FY0o Here is article from NIST describing their 1.25Gbps breakthrough: http://w3.antd.nist.gov/qin/recordKey.shtml Have you heard of QKD before? It has been around since the early 1990’s but it is really only recently that it has started to enter the realm of practicality. Sure it is still a ways off but it is getting closer. Imagine being able to send encrypted data that you knew without a doubt was utterly and completely secure. Game changer? Absolutely!
在此陈述的观点和信息是我的个人观点,而不是我的雇主。
Jamey Heary报道。 信用卡扒窃:小偷如何在你不知道的情况下偷走你的信用卡信息 思科进入拥挤的AV和DLP客户市场 思科新的ASA代码允许您在任何地方安全地携带思科IP电话 思科的目标是赛门铁克和McAfee的新防病毒客户端 谷歌的Chrome引发了安全问题,尝起来就像>的凤爪去 杰米的博客 浏览更多有关安全性的文章。*
*
*
*
*