Torchhd is a Python library for Hyperdimensional Computing and Vector Symbolic Architectures
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Updated
Jun 19, 2025 - Python
Torchhd is a Python library for Hyperdimensional Computing and Vector Symbolic Architectures
Hyperdimensional Computing Library for building Vector-Symbolic Architectures in Python 3
Hyperdimensional computing with statistical guarantees: calibrated probabilities, conformal prediction sets, anomaly detection with a guaranteed false-positive rate
Boolean Hypervectors with various operators for experiments in hyperdimensional computing (HDC).
HDC-X: A Hyperdimensional Computing Framework for Efficient Classification on Low-Power Devices
Holographic vectors you can compute with. Bind structure, bundle sets, unbind components cross NumPy, PyTorch, and JAX.
Repository for HYPERDOA: Robust and Efficient DoA Estimation using Hyperdimensional Computing
Contributions to my area of research as a research assistant at ULL in Hyperdimensional Computing (HDC)
Sub-linear knowledge retrieval via quantum-inspired hyperdimensional folded space (0.88ms @ 100% accuracy)
Training-free behavioral anomaly detector for Mantle DeFi. HDC engine + Z.ai explainability. Zero false positives, on-chain proof.
HDCpy: An easy-to-use Python library for Hyperdimensional Computing (HDC) research.
Self‑healing, self‑learning, sovereign AI development engine Runs offline on a laptop or tablet. No cloud, no subscription, forever.
🦀 Kohaku — Neural episodic memory engine 🧠 using HDC hypervectors. Stores long-term context 📚 and retrieves via associative recall 🔗—a persistent memory layer beyond RAG for LLMs ✨
PRISM is a neural-free cognitive architecture for knowledge reasoning based on Vector Symbolic Architectures (VSA). Unlike large language models with billions of parameters, PRISM performs complex reasoning through algebraic operations on high-dimensional vectors.
Implementation of a multi-class maximum-margin hyperdimensional computing (HDC) classifier
Cognitive engine based on Hyperdimensional Computing (HDC) and Vector Symbolic Architectures (VSA) for deterministic reasoning in B^100,000 space.
Examples of MNIST classifier using hyperdimentional computing
PLATO room knowledge integration measurement - Phi computation for tile quality assessment
Repository for HYPERDOA: Robust and Efficient DoA Estimation using Hyperdimensional Computing
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