ECDSA

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Summary #

ref Elliptic Curve Digital Signature , or ECDSA, is one of the more complex encryption algorithms. Keys are generated via that are smaller than the average keys generated by digital signing algorithms. Elliptic curve cryptography is a form of public key cryptography which is based on the algebraic structure of elliptic curves over finite fields. Elliptic curve cryptography is mainly used for the creation of pseudo-random numbers, digital signatures, and more. A digital signature is an authentication method used where a public key pair and a digital certificate are used as a signature to verify the identity of a recipient or sender of information.

What is ECDSA? #

ECDSA does the same thing as any other digital signing signature, but more efficiently. This is due to ECDSA’s use of smaller keys to create the same level of security as any other digital signature algorithm. ECDSA is used to create ECDSA certificates, which is a type of electronic document used for authentication of the owner of the certificate. Certificates contain information about the key used to create the certificate, information about the owner of the certificate, and the signature of the issuer of the certificate, who is a verified trusted entity. This trusted issuer is normally a certificate authority which also has a signed certificate, which can be traced back through the chain of trust to the original issuing certificate authority.

More efficient than .

How it works? #

ref. The way ECDSA works is an elliptic curve is that an elliptic curve is analyzed, and a point on the curve is selected. That point is multiplied by another number, thus creating a new point on the curve. The new point on the curve is very difficult to find, even with the original point at your disposal. The complexity of ECDSA means that ECDSA is more secure against current methods of encryption cracking encryptions. Along with being more secure against current attack methods, ECDSA also offers a variety of other benefits as well.