Algoritem

Kriptovalute:

2,117

Menjalnice:

10

Tržna kapitalizacija:

$2,243,771,578,670

Obseg 24 h:

$34,180,051,536

BLAKE-256

Uvrstitev #47

$363,835,033

1

0

Zmagovalci (undefined)%

24H

Izgubljeni (undefined)%

Uvrstitev

47

Sredstva

1

Tržna kapitalizacija

$363,835,033

Obseg 24 h

$2,058,163

Zmagovalci

1

Pregled
Sredstva

$363,835,033

Tržna kapitalizacija

$2,058,163

Obseg

47

Uvrstitev

1

Zmagovalci

0

Izgubljeni

N/A

Sprememba 24 h

N/A

Sprememba 7 dni

1H

-0.880

%

1D

0

%

1T

0

%

1M

-14.40

%

2M

10.01

%

3M

60.84

%

6M

76.20

%

1L

46.50

%

O nas BLAKE-256

BLAKE-256 is an influential cryptographic hash function, celebrated for its speed, security, and simplicity. It emerged as part of the BLAKE family of cryptographic algorithms that have been developed over the years to optimize data security. These hash functions are built on the HAIFA structure and incorporate primitive operations of the ChaCha stream cipher, a component highly regarded for its efficiency and security.

The '256' in BLAKE-256 refers to the length of the hash output, which is 256 bits. This length provides a high level of security, making it significantly challenging for any potential adversary to generate the same hash output (collision resistance) or determine the original input based on the hash output (preimage and second preimage resistance).

One defining characteristic of BLAKE-256 is its speed. In the context of rapidly evolving digital environments where large volumes of data need to be processed swiftly, speed is of paramount importance. BLAKE-256 shines in this aspect, providing excellent performance across various computing platforms, from low-capacity embedded systems to high-performance multi-core servers.

Furthermore, BLAKE-256 also offers strong resistance against various cryptanalytic attacks. The security of a hash function is assessed based on its ability to withstand collision, preimage, and second preimage attacks. BLAKE-256 has been designed to resist all these attacks, enhancing its reliability in cryptographic applications.

Another pivotal strength of BLAKE-256 lies in its simplicity. The algorithm is designed to be easy to implement in code, reducing potential error incidence. Simpler designs often translate to fewer vulnerabilities, and this holds true for BLAKE-256. It strikes a careful balance between speed, security, and simplicity, making it an exemplary choice for many applications in cryptography.

In summary, the BLAKE-256 hash function represents a significant stride in cryptography, providing a robust, efficient, and straightforward tool for maintaining data integrity and security in various applications. Its exceptional balance of key qualities propels its widespread usage and influence in the field.