Results 71 to 80 of about 597 (176)
Thread-level and data-level parallel architectures have become the design of choice in many of today’s energy-efficient computing systems. However, these architectures put substantially higher requirements on the memory subsystem than scalar ...
Abdullah Al Hasib +3 more
doaj +1 more source
FPGA implementation of BIKE for quantum-resistant TLS
The recent advances in quantum computers impose the adoption of post-quantum cryptosystems into secure communication protocols. This work proposes two FPGA-based, client- and server-side hardware architectures to support the integration of the BIKE ...
Galimberti, Andrea +4 more
core +1 more source
Tailorable codes for lattice-based KEMs with applications to compact ML-KEM instantiations
Compared to elliptic curve cryptography, a primary drawback of latticebased schemes is the larger size of their public keys and ciphertexts. A common procedure for compressing these objects consists essentially of dropping some of their least ...
Thales B. Paiva +5 more
doaj +1 more source
Quantum cutting simulation acceleration optimization based on SIMD parallelism
Quantum computing is a cutting-edge topic that has attracted much attention in the current computing field. Quantum cutting is a highly promising computing framework proposed to break through the current hardware limitations and increase the number of ...
Wang Yingshi, Shao Pengyu, Jiang Jinhu
doaj +1 more source
Cryptography based on elliptic curves is endowed with efficient methods for public-key cryptography. Recent research has shown the superiority of the Montgomery and Edwards curves over the Weierstrass curves as they require fewer arithmetic operations ...
Armando Faz Hernandez, Julio López
doaj +1 more source
This work presents the first hardware realisation of the Syndrome-Decodingin-the-Head (SDitH) signature scheme, which is a candidate in the NIST PQC process for standardising post-quantum secure digital signature schemes.
Sanjay Deshpande +3 more
doaj +1 more source
SPHGen: A Program Generator for Fast Polynomial Hash Functions
Universal hash functions are a widely-used, fundamental building block in constructing more complex cryptographic schemes. This makes achieving high efficiency, both at the design and implementation level, an utmost priority.
Tommaso Pegolotti +3 more
doaj +1 more source
Number Theoretic Transform (NTT) has been widely used in accelerating computations in lattice-based cryptography. However, attackers can potentially launch power analysis targeting the NTT because it is one of the most time-consuming parts of the ...
Tianrun Yu +5 more
doaj +1 more source
SlidingConv: Domain-Specific Description of Sliding Discrete Cosine Transform Convolution for Halide
Filtering is a fundamental tool in image processing, and its acceleration affects many applications. Therefore, various algorithmic and hardware accelerations have been proposed for filtering.
Yamato Kanetaka +3 more
doaj +1 more source
SIMD-Constrained Lookup Table for Accelerating Variable-Weighted Convolution on x86/64 CPUs
Convolution is the inner product of the neighborhood signal and weights and plays a fundamental role in image processing; thus, acceleration of convolution is essential.
Yuki Naganawa +5 more
doaj +1 more source

