TY - JOUR
T1 - Guaranteeing the diversity of number generators
AU - Shamir, Adi
AU - Tsaban, Boaz
PY - 2001/12/15
Y1 - 2001/12/15
N2 - A major problem in using iterative number generators of the form xi = f(xi-1) is that they can enter unexpectedly short cycles. This is hard to analyze when the generator is designed, hard to detect in real time when the generator is used, and can have devastating cryptanalytic implications. In this paper we define a measure of security, called sequence diversity, which generalizes the notion of cycle-length for noniterative generators. We then introduce the class of counter-assisted generators and show how to turn any iterative generator (even a bad one designed or seeded by an adversary) into a counter-assisted generator with a provably high diversity, without reducing the quality of generators which are already cryptographically strong.
AB - A major problem in using iterative number generators of the form xi = f(xi-1) is that they can enter unexpectedly short cycles. This is hard to analyze when the generator is designed, hard to detect in real time when the generator is used, and can have devastating cryptanalytic implications. In this paper we define a measure of security, called sequence diversity, which generalizes the notion of cycle-length for noniterative generators. We then introduce the class of counter-assisted generators and show how to turn any iterative generator (even a bad one designed or seeded by an adversary) into a counter-assisted generator with a provably high diversity, without reducing the quality of generators which are already cryptographically strong.
KW - Cryptography
KW - Cycle length
KW - Pseudorandomness
UR - http://www.scopus.com/inward/record.url?scp=0035895130&partnerID=8YFLogxK
U2 - 10.1006/inco.2001.3045
DO - 10.1006/inco.2001.3045
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AN - SCOPUS:0035895130
SN - 0890-5401
VL - 171
SP - 350
EP - 363
JO - Information and Computation
JF - Information and Computation
IS - 2
ER -