when i generate RSA key pairs by OpenSSL, it seems like private key (private exponent) is always less than public key (modulus). Is it by RSA design?

  • 2
    This question appears to be off-topic because it is about RSA keys and doesn't contain a programming question. – Duncan Jones Oct 17 '14 at 11:58

It's not a requirement, but there is no reason for it to be larger than the modulus:

The private exponent d is calculated from the public exponent e and modulus n to satisfy:

ed ≡ 1 mod φ(n)

Now, if we assume that d > φ(n), then we can define d' = d mod φ(n), and not only is d' < φ(n), but the above relation still holds, i.e.:

ed' ≡ 1 mod φ(n)

Thus d' is also a valid private exponent, and since φ(n) < n, d' must also be less than n.

Since a larger private exponent requires more storage, and (at least in the naïve implementation) makes decryption slower, the smallest possible private exponent is the most suitable.


No it is not important to the cryption itself. (Check wikipedia how rsa works). Maybe its implemented this way but its no must for the algo

  • wiki says that private exponent d "is the multiplicative inverse of e (modulo φ(n))". Does it say anything to non-math-professor? - No. Can you prove mathematically that formula d⋅e ≡ 1 (mod φ(n)) does not mean what i asked about? – 10101010 Oct 17 '14 at 11:44
  • It should mean something, we did it in 10th class :o i dont understand your actual problem – Etixpp Oct 17 '14 at 11:46

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