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  1. Federal Information Processing Standard (FIPS) 186-4, Digital Signature Standard (DSS), specifies three NIST-approved digital signature algorithms: DSA, RSA, and ECDSA.[1]
  2. DSS was put forth by the National Institute of Standards and Technology (NIST) in 1994, and has become the United States government standard for authentication of electronic documents.[2]
  3. DSS is specified in Federal Information Processing Standard (FIPS) 186.[2]
  4. Since 2013, the Federal Information Processing Standard (FIPS) 186 requires all departments and agencies of the United States government to use DSS to protect sensitive unclassified information.[3]
  5. DSS makes use of the digital signature algorithm (DSA) to generate digital signatures that are assigned both private and public keys.[3]
  6. DSS only provides us with the digital signature function and not with any encryption or key exchanging strategies.[4]
  7. The Digital Signature Standard is intended to be used in electronic funds transfer, software distribution, electronic mail, data storage and applications which require high data integrity assurance.[5]
  8. The Digital Signature Standard can be implemented in software, hardware or firmware.[5]
  9. The algorithm used behind the Digital Signature Standard is known as the Digital Signature Algorithm.[5]
  10. However, one key difference between encryption and signature operation in the Digital Signature Standard is that encryption is reversible, whereas the digital signature operation is not.[5]
  11. Standard It follows Digital Signature Standard (DSS).[6]
  12. This paper examines the requirements of signatures, outlines the technologies involved in creating digital signatures, and describes the components of the Digital Signature Standard (DSS).[7]
  13. The Digital Signature Algorithm (DSA) was published by the National Institute of Standards and Technology (NIST) in the Digital Signature Standard (DSS).[8]
  14. DSS was selected by NIST, in cooperation with the NSA to be the digital authentication standard of the U.S. government.[8]
  15. For the DSS signature suite, the signature section has the following required and optional fields.[8]
  16. DSS specifies DSA as the algorithm for digital signatures and SHA-x for hashing.[9]
  17. Specifications: Federal Information Processing Standard (FIPS) 186-2 Digital Signature Standard (affixed).[10]
  18. Digital Signature Standards (DSS) simplified.[11]
  19. Learn about the standards that ensure the security of digital signatures and the different types of digital signatures supported by DSS.[11]
  20. Digital Signature Standards (DSS) are specific algorithms used by applications that require a digital signature.[11]
  21. For a digital signature to be authentic, it must adhere to all DSS regulations.[11]
  22. Digital Signature Standard The National Institute of Standards and Technology (NIST) has published Federal Information Processing Standard FIPS 186, known as the Digital Signature Standard (DSS).[12]
  23. The DSS makes use of the Secure Hash Algorithm (SHA) described in Chapter 12 and presents a new digital signature technique, the Digital Signature Algorithm (DSA).[12]
  24. The DSS was originally proposed in 1991 and revised in 1993 in response to public feedback concerning the security of the scheme.[12]
  25. In this section, we discuss the original DSS algorithm.[12]
  26. In this module, I will be discussing what is Digital Signature Standard (DSS) is in Cryptography.[13]
  27. DSS or Digital Signature Standard was introduced by the National Institute of Standards and Technology (NIST) in 1994.[13]
  28. The Federal Information Processing Standard (FIPS) 186 specifies the DSS.[13]
  29. DSS employs SHA (Secure Hash Algorithm) to create digital signatures and offers a new digital signature mechanism known as the Digital Signature Algorithm.[13]
  30. The US Digital Signature Standard (DSS) was adopted on December 1, 1994.[14]
  31. In DSS, a digital signature algorithm (DSA) is proposed and it is a variation of the ElGamal signature scheme.[14]
  32. DSS (Digital Signature Standard) is the framework laid out by NIST (National Institute of Standards and Technology) for the signing of data prior to transfer.[15]
  33. DSS is only supported on the IBMzSeries 900.[16]
  34. Digital Signature Standard (DSS) public key algorithm is based on the difficulty of the discrete logarithm problem.[16]
  35. For DSS, p is at least 512 bits, and x is 160 bits.[16]
  36. DSS is defined in the NIST Federal Information Processing Standard (FIPS) 186 Digital Signature Standard.[16]
  37. The National Institute of Standards and Technology (NIST) has published Federal Information Processing Standard FIPS 186, known as the Digital Signature Standard (DSS).[17]
  38. The DSS uses an algorithm that is designed to provide only the digital signature function.[17]
  39. Figure 13.3 contrasts the DSS approach for generating digital signatures to that used with RSA.[17]
  40. The DSS approach also makes use of a hash function.[17]
  41. The Federal Information Processing Standard (FIPS) 186-4, also known as the Digital Signature Standard (DSS), is published by the United States National Institute of Standards and Technology.[18]
  42. DSS specifies the digital signature algorithms acceptable for federal government use.[18]
  43. All of the DSS compliant digital signature algorithms use the government approved Secure Hash Algorithm (SHA) hash functions.[18]
  44. The University has recently made the decision to establish DocuSign as our digital signature standard platform.[19]
  45. The Digital Signature Standard may be implemented in firmware, hardware, or software.[20]
  46. An algorithm is used in Digital Signature Standard and it’s referred to as Digital Signature Algorithm.[20]
  47. That being said, there is one key difference that is witnessed in encryption and signature operation within the Digital Signature Standard.[20]
  48. What this means is that the security of the Digital Signature Standard fundamentally depends on the level of secrecy of the signatory’s private keys.[20]
  49. In the original DSS, H was always SHA-1, but the stronger SHA-2 hash functions are approved for use in the current DSS.[21]
  50. In the original DSS, was always SHA-1, but the stronger SHA-2 hash functions are approved for use in the current DSS.[21]
  51. The original DSS constrained L to be a multiple of 64 between 512 and 1024 (inclusive).[21]
  52. The original DSS constrained to be a multiple of 64 between 512 and 1024 (inclusive).[21]

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  • [{'LOWER': 'dss'}]
  • [{'LOWER': 'digital'}, {'LOWER': 'signature'}, {'LOWER': 'standard'}]