- initial_permutation() (sage.crypto.block_cipher.sdes.SimplifiedDES method)
- initial_state() (sage.crypto.stream_cipher.LFSRCipher method)
- integer_to_binary() (sage.crypto.block_cipher.miniaes.MiniAES method)
- integer_to_GF() (sage.crypto.block_cipher.miniaes.MiniAES method)
- interpolation_polynomial() (sage.crypto.mq.sbox.SBox method)
- inverse() (sage.crypto.classical_cipher.HillCipher method)
- (sage.crypto.classical_cipher.SubstitutionCipher method)
- (sage.crypto.classical_cipher.TranspositionCipher method)
- (sage.crypto.classical_cipher.VigenereCipher method)
- inverse_key() (sage.crypto.classical.AffineCryptosystem method)
- (sage.crypto.classical.HillCryptosystem method)
- (sage.crypto.classical.ShiftCryptosystem method)
- (sage.crypto.classical.SubstitutionCryptosystem method)
- (sage.crypto.classical.TranspositionCryptosystem method)
- (sage.crypto.classical.VigenereCryptosystem method)
- inversion_polynomials() (sage.crypto.mq.sr.SR_gf2 method)
- (sage.crypto.mq.sr.SR_gf2n method)
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- inversion_polynomials_single_sbox() (sage.crypto.mq.sr.SR_gf2 method)
- (sage.crypto.mq.sr.SR_gf2_2 method)
- is_balanced() (sage.crypto.boolean_function.BooleanFunction method)
- is_bent() (sage.crypto.boolean_function.BooleanFunction method)
- is_blum_prime() (in module sage.crypto.util)
- is_permutation() (sage.crypto.mq.sbox.SBox method)
- is_state_array() (sage.crypto.mq.sr.SR_generic method)
- is_symmetric() (sage.crypto.boolean_function.BooleanFunction method)
- is_vector() (sage.crypto.mq.sr.SR_gf2 method)
- (sage.crypto.mq.sr.SR_gf2n method)
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