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Number: The foundation of modern digital security
Ciphers are now indispensable in the digital world. They form the foundation of all modern security mechanisms – from protecting personal data on smartphones, encrypting emails, to securing online payments. Especially in the field of cryptocurrencies, advanced ciphers play a crucial role in maintaining the integrity of decentralized networks.
What is a cipher and how does it work?
At its core, a cipher is a mathematical algorithm that transforms understandable information – the plaintext – into an unreadable format called ciphertext. This process is called encryption. Only someone with the necessary key can convert the ciphertext back into its original, readable form. This reverse process is called decryption.
The special thing about a cipher is that it operates according to precise rules and uses a cryptographic key. The key determines how the transformation from plaintext to ciphertext occurs and vice versa.
Two central types: Symmetric and asymmetric ciphers
In modern cryptography, there are two different key systems. Symmetric ciphers use the same key for encryption and decryption. This means: the sender and receiver must know the same secret key.
Asymmetric ciphers work differently. They use a key pair – a public key for encryption and a private key for decryption. This two-key system significantly increases security, especially in online communication and electronic transactions, because the public key can be shared without compromising security.
A look into the history of encryption
The history of ciphers goes back centuries. The Roman general Julius Caesar already used a simple substitution cipher – now known as the Caesar cipher – to protect military messages. The principle was simple: each letter was shifted by a fixed number of positions in the alphabet.
These primitive methods, while easy to crack by today’s standards, laid the conceptual groundwork for the highly advanced encryption techniques we know today.
Why modern ciphers are so robust
The development of ciphers has led to increasingly complex algorithms. These modern encryption methods are designed to withstand advanced cryptanalytic attacks. They provide the reliability and robustness required in the digital age.
Particularly, cryptocurrencies rely on these advanced ciphers to secure their decentralized networks and guarantee the authenticity of transactions.