@inbook {IOPORT.05915101,
    author       = {Esmaeili Salehani, Yaser and Kircanski, Aleksandar and Youssef, Amr},
    title        = {Differential fault analysis of Sosemanuk.},
    year         = {2011},
    booktitle    = {Progress in cryptology -- AFRICACRYPT 2011. 4th international conference on cryptology in Africa, Dakar, Senegal, July 5--7, 2011. Proceedings},
    isbn         = {978-3-642-21968-9},
    pages        = {316-331},
    publisher    = {Berlin: Springer},
    doi          = {10.1007/978-3-642-21969-6_20},
    abstract     = {Summary: Sosemanuk is a software-based stream cipher which supports a variable key length of either 128 or 256 bits and 128-bit initial values. It has passed all three stages of the ECRYPT stream cipher project and is a member of the eSTREAM software portfolio. In this paper, we present a fault analysis attack on Sosemanuk. The fault model in which we analyze the cipher is the one in which the attacker is assumed to be able to fault a random inner state word but cannot control the exact location of injected faults. Our attack, which recovers the secret inner state of the cipher, requires around 6144 faults, work equivalent to around $2^{48}$ Sosemanuk iterations and a storage of around $2^{38.17}$ bytes.},
    identifier   = {05915101},
}