Cryptography: Difference between revisions
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==Trust== | ==Trust== | ||
* In computer science, trust refers to the generation of authorities or user access/privileges through cryptography. | |||
* [[Zero Trust]] (ZT) is a cybersecurity paradigm concerned with moving defenses from static, network-based perimeters to a focus on users, assets, and resources.<ref>[https://csrc.nist.gov/publications/detail/sp/800-207/final SP 800-207, NIST]</ref> | * [[Zero Trust]] (ZT) is a cybersecurity paradigm concerned with moving defenses from static, network-based perimeters to a focus on users, assets, and resources.<ref>[https://csrc.nist.gov/publications/detail/sp/800-207/final SP 800-207, NIST]</ref> | ||
* [[Cryptocurrency|Cryptocurrencies]] use proof of work (PoW) to achieve trust. | |||
* Trusted certificates create secure connections to a server via the Internet. | |||
* [[Trusted Notifiers]] | |||
==Keys== | |||
* public keys | |||
==Cryptographic Technologies== | ==Cryptographic Technologies== | ||
Revision as of 13:57, 10 August 2021
Cryptography is the process of converting ordinary text into unintelligible text and vice-versa. It is used to store and transmit data so that only those intended can read and process it. Cryptography protects data from theft or alteration and authenticates users.[1]
Trust
- In computer science, trust refers to the generation of authorities or user access/privileges through cryptography.
- Zero Trust (ZT) is a cybersecurity paradigm concerned with moving defenses from static, network-based perimeters to a focus on users, assets, and resources.[2]
- Cryptocurrencies use proof of work (PoW) to achieve trust.
- Trusted certificates create secure connections to a server via the Internet.
- Trusted Notifiers
Keys
- public keys