타원곡선 secp256k1

메모

• https://www.lmfdb.org/EllipticCurve/Q/21168/ce/2

노트

말뭉치

1. Note that because secp256k1 is actually defined over the field Z p , its graph will in reality look like random scattered points, not anything like this.^[1]
2. Note that because secp256k1 is actually defined over the field Z, its graph will in reality look like random scattered points, not anything like this.^[1]
3. Currently Bitcoin uses secp256k1 with the ECDSA algorithm, though the same curve with the same public/private keys can be used in some other algorithms such as Schnorr.^[1]
4. secp256k1 was almost never used before Bitcoin became popular, but it is now gaining in popularity due to its several nice properties.^[1]
5. The main difference between secp256k1 and secp256r1 is that secp256k1 is a Koblitz curve which is defined in a characteristic 2 finite field, while secp256r1 is a prime field curve.^[2]
6. Secp256k1 curves are non-random while secp256r1 is pseudo-randomly structured.^[2]
7. Secp256k1 is a pure SECG curve, while secp256r1 is a so-called NIST curve.^[2]
8. Secp256k1 is the name of the elliptic curve used by Bitcoin to implement its public key cryptography.^[3]
9. When a user wishes to generate a public key using their private key, they multiply their private key, a large number, by the Generator Point, a defined point on the secp256k1 curve.^[3]
10. Because the y component of the equation is squared, secp256k1 is symmetric across the x-axis, and for each value of x, there are two values of y, one of which is odd while the other is even.^[3]
11. If it wasn’t for Satoshi Nakamoto, you probably would never have heard of the secp256k1 Elliptic Curve Cryptography (ECC) method.^[4]
12. Rust bindings for Pieter Wuille’s secp256k1 library, which is used for fast and accurate manipulation of ECDSA signatures on the secp256k1 curve.^[5]
13. In rust-secp256k1 , this is caught at compile-time; in fact, it is impossible to compile code that will trigger any assertion failures in the upstream library.^[5]
14. This library is intended to be the highest quality publicly available library for cryptography on the secp256k1 curve.^[6]
15. Use secp256k1's efficiently-computable endomorphism to split the P multiplicand into 2 half-sized ones.^[6]
16. The secp256k1 elliptic curve is specified in Standards for Efficient Cryptography 1 (SEC 1) and Standards for Efficient Cryptography 2 (SEC 2).^[7]
17. Bitcoin uses a specic Koblitz curve secp256k1 dened by the Standards for Efcient Cryptography Group (SECG).^[8]
18. I want to explore the different dened Koblitz curves from SECG and see why the specic curve secp256k1 was chosen by the creator of Bitcoin.^[8]
19. It is believed that because of security reasons the creator of Bitcoin preferred the non-random secp256k1 over the pseudo-randomly structured secp256r1.^[8]
20. This module provides native bindings to bitcoin-core/secp256k1.^[9]
21. randomBytes ( 32 ) let privKey do { privKey = randomBytes ( 32 ) } while ( ! secp256k1 .^[9]
22. privateKeyVerify ( privKey ) ) const pubKey = secp256k1 .^[9]
23. privateKeyVerify ( privKey ) ) return privKey } } const privKey = getPrivateKey ( ) const pubKey = secp256k1 .^[9]
24. This section describes the elliptic curve, E(0,7), also named as secp256k1, and the subgroup parameters, which are used in Bitcoin, Ethereum, and many other cryptocurrency apps.^[10]
25. By the way, the named curve, secp256k1, refers to the elliptic curve, E(0,7), and those subgroup parameters together as EC domain parameters.^[10]
26. This library provides secp256k1 bindings for Swift with Cocoapods, Carthage and Swift Package Manager on macOS and Linux.^[11]
27. After that you can use all secp256k1 functions as described in the official headers.^[11]
28. How to generate an EC key pair on the secp256k1 curve?^[12]
29. *; // Generate EC key pair on the secp256k1 curve ECKey ecJWK = new ECKeyGenerator(Curve.^[12]
30. SECP256k1 ) public_key = secret_key .^[13]
31. This project contains Haskell bindings for the secp256k1 library.^[14]
32. This procedure explains how to generate a pair of ECDSA keys with the P-256 (secp256k1) curve that you can use to sign and verify your JWTs.^[15]
33. This library wrap the secp256k1 EC(DSA) library into an OCaml library.^[16]
34. Bitcoin uses elliptic curve cryptography for its keys and signatures, but the specific secp256k1 curve used is rather unusual.^[17]
35. @staticmethod def new_random (): return Secp256k1PrivateKey ( secp256k1 .^[18]
36. catch_warnings (): # squelch secp256k1 warning warnings .^[18]
37. This paper develops an approach for arithmetic (point addition and doubling) on secp256k1 Koblitz curve over finite fields using one variable polynomial based on Euclidean division.^[19]
38. The resulting algorithm is tested on realistic secp256k1 Koblitz curve and is shown to be scalable to perform the computations.^[19]
39. Generate public keys from private keys for ed25519, secp256k1 and bls12-381.^[20]
40. The elliptic curve C is the secp256k1 curve.^[21]
41. For your information, Bitcoin Core developers are slowly moving away from OpenSSL towards their own implementation of secp256k1 crypto.^[21]
42. Create a point in the secp256k1 curve.^[22]
43. There is no check to confirm that the public key point passed into the derive function actually exists on the secp256k1 curve.^[23]
44. For the secp256k1 curve, the private key is 256-bit integer (32 bytes) and the compressed public key is 257-bit integer (~ 33 bytes).^[24]
45. Was secp256k1 chosen to have better interop with bitcoin and for reuse of bitcoin libraries (like pybitcointools)?^[25]
46. For secp256k1 specifically, a = 0 and b = 7, yielding the equation y^2 = x^3 + 7.^[26]
47. In summary, 74 coins use ECDSA and the secp256k1 curve, including Bitcoin, Ethereum, and 48 ERC20 tokens.^[27]
48. 8 coins use multiple signing algorithms and curves (often both ECDSA/secp256k1 and EdDSA/curve25519), such as Polkadot and Tezos.^[27]
49. Therefore, the selection of secp256k1 is likely an artefact of computer history and not a compelling reason to select secp256k1 in new designs.^[28]
50. generate ( curve = SECP256k1 ) public_key = secret_key .^[29]
51. We are working on some detailed estimates for the time required for a quantum computer to break ECC, and are using secp256k1 as an example.^[30]
52. If the answer depends on the curve, assume secp256k1.^[30]
53. The most widely adopted elliptic curve in the DLT space by far is secp256k1 and the hash function keccak-256.^[31]
54. Unfortunately, neither secp256k1 nor keccak-256, are endorsed in SP 800-186 and FIPS 186-5.^[31]
55. This is despite the fact that there are no significant security differences between for example the NIST endorsed secp256r1 and secp256k1 or the sha3-256 hash versus keccak-256.^[31]
56. Generally speaking, secp256k1 is very popular in the decentralized identity community for authentication purposes.^[31]
57. Most software packages which interact with these systems require Secp256k1 support.^[32]
58. The program defaults to the secp256k1 base point.^[33]
59. They mounted an attack on a small multiplicative subgroup of a group that is mapped to the group of points of Bitcoins elliptic curve secp256k1.^[34]
60. Denition 5 (The secp256k1 curve).^[34]
61. Secp256k1 was almost never used before Bitcoin became pop- ular, but it is now gaining in popularity due to several beneficial properties.^[35]
62. Most com- monly-used curves have random structure, but secp256k1 was constructed in a unique, non-random way which allows for especially efficient computation.^[35]
63. In this section, we propose a secure multiple elliptic curves digital signature algorithm (MECDSA), which can avoid any backdoors in the curve used by secp256k1.^[35]
64. 4.3.1 4.3.2 4.3.3 secp256k1 not quite a Barreto-Naerhig curve 5 Evaluation 5.1 Privacy . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .^[36]

소스

Spacy 패턴 목록

• [{'LOWER': 'secp256k1'}]