A unified polynomial selection method for the (tower) number field sieve algorithm

Sarkar, Palash; Singh, Shashank

doi:10.3934/amc.2019028

Cited by 4 publications

(3 citation statements)

References 35 publications

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“…In the latter case, the prefix letter M is added refering to the MNFS variant. Details about (M)(ex)TNFS and their variants are given in [5,29,30,37].…”

Section: Description Of the Variantsmentioning

confidence: 99%

“…We now look at polynomial selections with composite extension degree n = ηκ. The most general algorithms are the algorithms B, C and D presented in [35,37] that extend algorithm A to the composite case. Thus, the construction of the polynomials f 1 and f 2 follow very similar steps as the ones in algorithm A.…”

Section: Polynomial Selections For Extnfs and Mextnfsmentioning

confidence: 99%

See 1 more Smart Citation

Asymptotic Complexities of Discrete Logarithm Algorithms in Pairing-Relevant Finite Fields

Micheli

Gaudry

Pierrot

2020

Advances in Cryptology – CRYPTO 2020

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We study the discrete logarithm problem at the boundary case between small and medium characteristic finite fields, which is precisely the area where finite fields used in pairing-based cryptosystems live. In order to evaluate the security of pairing-based protocols, we thoroughly analyze the complexity of all the algorithms that coexist at this boundary case: the Quasi-Polynomial algorithms, the Number Field Sieve and its many variants, and the Function Field Sieve. We adapt the latter to the particular case where the extension degree is composite, and show how to lower the complexity by working in a shifted function field. All this study finally allows us to give precise values for the characteristic asymptotically achieving the highest security level for pairings. Surprisingly enough, there exist special characteristics that are as secure as general ones.

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“…In the latter case, the prefix letter M is added refering to the MNFS variant. Details about (M)(ex)TNFS and their variants are given in [5,29,30,37].…”

Section: Description Of the Variantsmentioning

confidence: 99%

Section: Polynomial Selections For Extnfs and Mextnfsmentioning

confidence: 99%

Asymptotic Complexities of Discrete Logarithm Algorithms in Pairing-Relevant Finite Fields

Micheli

Gaudry

Pierrot

2020

Advances in Cryptology – CRYPTO 2020

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“…When n has an appropriate size, this variant is faster 2 than NFS, with a complexity of L p n (1/3, (48/9) 1/3 ). Moreover, in [SS19], Sarkar and Singh presented a unified polynomial selection for TNFS and lowered its complexity in some cases. In [KB16, KJ17], when coupled with the multiple variant or special variant TNFS is called MexTNFS or SexTNFS, but in this article we simply denote it by MTNFS or STNFS.…”

Section: Introductionmentioning

confidence: 99%

Individual discrete logarithm with sublattice reduction

Al Aswad,

Pierrot

2023

Des. Codes Cryptogr.

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The Number Field Sieve and its numerous variants is the best algorithm to compute discrete logarithms in medium and large characteristic finite fields. When the extension degree n is composite and the characteristic p is of medium size, the Tower variant (TNFS) is asymptotically the most efficient one. Our work deals with the last main step, namely the individual logarithm step, that computes a smooth decomposition of a given target T in the finite field thanks to two distinct phases: an initial splitting step, and a descent tree. In this article, we improve on the current state-of-the-art Guillevic's algorithm dedicated to the initial splitting step for composite n. While still exploiting the proper subfields of the target finite field, we modify the lattice reduction subroutine that creates a lift in a number field of the target T . Our algorithm returns lifted elements with lower degrees and coefficients, resulting in lower norms in the number field. The lifted elements are not only much likely to be smooth because they have smaller norms, but it permits to set a smaller smoothness bound for the descent tree. Asymptotically, our algorithm is faster and works for a larger area of finite fields than Guillevic's algorithm, being now relevant even when the medium characteristic p is such that Lpn (1/3) ≤ p < Lpn (1/2). In practice, we conduct experiments on 500-bit to 2048-bit composite finite fields: Our method becomes more efficient as the largest non trivial divisor of n grows, being thus particularly adapted to even extension degrees.

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Constructing CM Fields for NFS to Accelerate DL Computation in Non-Prime Finite Fields

Zhu

Liu

2023

IEEE Trans. Inform. Theory

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A unified polynomial selection method for the (tower) number field sieve algorithm

Cited by 4 publications

References 35 publications

Asymptotic Complexities of Discrete Logarithm Algorithms in Pairing-Relevant Finite Fields

Asymptotic Complexities of Discrete Logarithm Algorithms in Pairing-Relevant Finite Fields

Individual discrete logarithm with sublattice reduction

Constructing CM Fields for NFS to Accelerate DL Computation in Non-Prime Finite Fields

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