4 Repos
Computational frameworks that utilize vector instructions to maximize throughput for cryptographic operations.
Distinct from SIMD-Accelerated Arithmetic: Distinct from SIMD-Accelerated Arithmetic: focuses on cryptographic hashing throughput rather than general mathematical arithmetic.
Explore 4 awesome GitHub repositories matching data & databases · Cryptographic Accelerators. Refine with filters or upvote what's useful.
John is a command-line security utility designed for password strength auditing and cryptographic hash recovery. It functions as a professional tool for identifying weak user credentials and recovering access to protected files, archives, and private keys across various operating systems, databases, and applications. The software distinguishes itself through a high-performance architecture that utilizes processor-level vector instructions to perform parallel cryptographic operations. It incorporates a rule-based mutation engine that transforms dictionary words into complex candidates based on
Utilizes processor-level vector instructions to perform multiple cryptographic operations in parallel for significantly increased throughput.
Thorium is a web browser built from the Chromium project, designed for high performance and expanded compatibility. It utilizes aggressive compiler optimizations and CPU-specific instruction sets, such as AVX2 and SIMD, to increase page rendering and JavaScript execution speeds. The project distinguishes itself by providing custom builds that enable modern web browsing on legacy versions of Windows and Linux. It further diverges from standard browser implementations by integrating Widevine DRM and native support for high-efficiency media formats, including HEVC and JPEG XL. Broad capabilitie
Leverages hardware-level instruction set extensions to accelerate the encryption and decryption of secure web pages.
Highway is a portable C++ library and hardware abstraction layer designed for writing single instruction multiple data (SIMD) code. It provides a unified interface that maps data-parallel logic to various CPU instruction sets, enabling the development of high-performance software that runs across different processor architectures without requiring architecture-specific assembly. The project features a dynamic instruction dispatcher that selects the most efficient CPU instruction set at runtime based on detected hardware. It also supports static target specialization and extensible mechanisms
Implements hardware-accelerated cryptographic primitives and carryless multiplication using SIMD vector instructions.
hashsigs-py is a hash-based signature library for Python used to generate and verify one-time digital signatures. It employs hash chains and seed-based key derivation to authenticate data and ensure message integrity. The library includes a high-performance compiled cryptography backend to accelerate signature computation and processing. For compatibility, it maintains a pure Python fallback implementation to ensure functionality when the compiled backend is unavailable. The project provides tools for digital key pair management, allowing for the deterministic generation of public and privat
Improves the speed of signature computation by replacing interpreted logic with a high-performance compiled implementation.