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11 Repos

Awesome GitHub RepositoriesDimensionality Projection Plots

Visualizations that project high-dimensional data into lower-dimensional spaces to identify clusters.

Distinct from Three-Dimensional Visualizations: Distinct from 3D Visualizations by focusing on projection techniques like t-SNE or PCA rather than just 3D spatial rendering.

Explore 11 awesome GitHub repositories matching data & databases · Dimensionality Projection Plots. Refine with filters or upvote what's useful.

Awesome Dimensionality Projection Plots GitHub Repositories

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  • fossasia/visdomAvatar von fossasia

    fossasia/visdom

    10,268Auf GitHub ansehen↗

    Visdom is a tool for scientific experiment tracking and real-time data monitoring. It provides a programmatic interface for broadcasting live plots, rich media, and training metrics from scripts to an interactive web dashboard. The project specializes in high-dimensional data analysis, offering capabilities to project complex feature sets into 2D space using t-SNE and visualize PyTorch model embeddings. It organizes visualizations into named environments, allowing users to isolate different experimental runs and compare plots across these environments in a single view. The system covers a br

    Projects high-dimensional features into 2D space using t-SNE with interactive lasso selection for analysis.

    Python
    Auf GitHub ansehen↗10,268
  • morvanzhou/pytorch-tutorialAvatar von MorvanZhou

    MorvanZhou/PyTorch-Tutorial

    8,458Auf GitHub ansehen↗

    This project is a collection of PyTorch learning resources and educational guides designed to teach the construction and training of neural networks. It serves as a comprehensive deep learning tutorial covering various model architectures and practical implementation strategies. The resources provide specific guidance on implementing computer vision tasks, such as image classification and synthetic imagery generation, as well as reinforcement learning agents using value networks and experience replay. It also covers sequential data modeling through recurrent networks and generative modeling u

    Implements visualizations that project high-dimensional layer outputs into lower-dimensional spaces using T-SNE to identify clusters.

    Jupyter Notebookautoencoderbatchbatch-normalization
    Auf GitHub ansehen↗8,458
  • lmcinnes/umapAvatar von lmcinnes

    lmcinnes/umap

    8,215Auf GitHub ansehen↗

    This project is a manifold learning and non-linear dimensionality reduction library used to project high-dimensional data into lower-dimensional spaces while preserving topological structure. It functions as a parametric embedding framework and a topological data visualization library for identifying clusters and patterns within complex datasets. The library distinguishes itself through parametric neural mapping, which uses neural networks to learn functional mappings that allow for out-of-sample projections and the reconstruction of original data. It supports supervised and semi-supervised d

    Generates dimensionality projection plots to visually identify clusters and trends in complex datasets.

    Pythondimensionality-reductionmachine-learningtopological-data-analysis
    Auf GitHub ansehen↗8,215
  • hackerpoet/noneuclideanAvatar von HackerPoet

    HackerPoet/NonEuclidean

    6,430Auf GitHub ansehen↗

    NonEuclidean is a graphics framework and rendering engine designed to compute and display three-dimensional scenes using non-standard spatial rules and geometries. It serves as a visualization tool for exploring complex mathematical spaces where traditional Euclidean laws of distance and angle do not apply. The project implements custom rendering pipelines to visualize non-standard geometric projections and warped spatial logic. This includes the ability to map non-Euclidean coordinates to Poincaré disk or Klein models to render curved space on flat screens. The system utilizes dynamic metri

    Maps non-Euclidean coordinates to Poincaré disk or Klein models to render curved space on flat screens.

    C++
    Auf GitHub ansehen↗6,430
  • wepe/machinelearningAvatar von wepe

    wepe/MachineLearning

    5,714Auf GitHub ansehen↗

    Dieses Projekt ist eine Machine-Learning-Bibliothek, die eine Sammlung von Implementierungen für überwachte und unüberwachte Lernalgorithmen bereitstellt. Sie dient als Deep-Learning-Framework, als Sammlung statistischer Klassifikatoren und als Suite von Werkzeugen für unüberwachtes Lernen und Dimensionsreduktion. Die Bibliothek ermöglicht die Konstruktion neuronaler Netze, einschließlich Multi-Layer-Perzeptrons und Convolutional Networks für die Mustererkennung. Sie bietet zudem Werkzeuge zur Durchführung von Hauptkomponentenanalysen (PCA) und Manifold-Learning zur Visualisierung hochdimensionaler Datensätze sowie eine Suite von Clustering-Algorithmen, die unbeschriftete Daten durch iterative Partitionierung gruppieren. Das Projekt deckt ein breites Spektrum an prädiktiven Modellierungsfunktionen ab, einschließlich Klassifizierungs- und Regressionsaufgaben unter Verwendung von Entscheidungsbäumen, k-nächste-Nachbarn, Bayes-Klassifikatoren, Support Vector Machines und Ridge-Regression. Es enthält zudem Werkzeuge für Bildklassifizierungs-Workflows und die Analyse unbeschrifteter Daten.

    Projects high-dimensional data into low-dimensional space via manifold learning for visual analysis.

    Python
    Auf GitHub ansehen↗5,714
  • biolab/orange3Avatar von biolab

    biolab/orange3

    5,635Auf GitHub ansehen↗

    Orange3 is a visual data mining platform that provides an interactive canvas for building data analysis workflows without writing code. At its core, it offers a widget-based visual programming environment where users connect configurable components to perform data preprocessing, machine learning model training, statistical evaluation, and interactive visualization. The platform is built on NumPy-backed data tables with domain descriptors that define variable names, types, and roles, and includes a lazy SQL query proxy for working with database tables without loading all data into memory. The

    Ships a unique force-directed projection method for visualizing class separations in labeled data.

    Python
    Auf GitHub ansehen↗5,635
  • nyandwi/machine_learning_completeAvatar von Nyandwi

    Nyandwi/machine_learning_complete

    4,983Auf GitHub ansehen↗

    This is an interactive notebook-based course that teaches machine learning from Python fundamentals through deep learning and natural language processing. It uses real datasets and multiple frameworks within a structured, hands-on curriculum that combines concise explanations with executable code cells, built-in datasets, and embedded exercise checkpoints. Learning progresses through data preparation and exploration, classical machine learning workflows, computer vision with convolutional neural networks, and natural language processing with deep learning, all delivered as a cohesive progressi

    Projects complex datasets into two or three dimensions to visually identify patterns and clusters.

    Jupyter Notebookcomputer-visiondata-analysisdata-science
    Auf GitHub ansehen↗4,983
  • rust-ml/linfaAvatar von rust-ml

    rust-ml/linfa

    4,683Auf GitHub ansehen↗

    Linfa ist ein Framework für klassisches maschinelles Lernen und eine Suite für statistisches Lernen, die in Rust implementiert ist. Sie bietet eine Sammlung von Algorithmen für überwachtes und unüberwachtes Lernen, die sich auf traditionelle statistische Methoden wie Regression, Clustering und Entscheidungsbäume konzentriert. Das Toolkit zeichnet sich durch seine Fähigkeit aus, in WebAssembly kompiliert zu werden, was es analytischen Modellen ermöglicht, in Browserumgebungen ausgeführt zu werden. Es verwendet eine merkmalsbasierte Algorithmus-Schnittstelle, um den Prozess des Trainings und der Vorhersage über seine verschiedenen Modelle hinweg zu standardisieren. Die Bibliothek deckt ein breites Spektrum an Funktionen ab, einschließlich überwachter Klassifizierung und Regression kontinuierlicher Werte. Sie bietet unüberwachtes Clustering, Ensemble-Methoden für die Modellaggregation und Signalverarbeitung durch unabhängige Komponentenanalyse. Die Suite enthält zudem umfangreiche Datenvorverarbeitungstools für Merkmalsnormalisierung, Textvektorisierung und Dimensionsreduktion mittels PCA und t-SNE. Zusätzliche Dienstprogramme werden für die Datenverwaltung bereitgestellt, einschließlich CSV-Import und Generierung synthetischer Datensätze sowie Tools zur Modellevaluierung wie Konfusionsmatrizen und Kreuzvalidierungsmetriken.

    Projects high-dimensional data into lower-dimensional spaces using exact or Barnes-Hut t-SNE for cluster visualization.

    Rust
    Auf GitHub ansehen↗4,683
  • pair-code/litAvatar von PAIR-code

    PAIR-code/lit

    3,636Auf GitHub ansehen↗

    Lit is a machine learning interpretability framework and model debugging tool designed to analyze model behavior and performance. It serves as an interpretability dashboard for large language models and a general performance analyzer for text, image, and tabular datasets. The project distinguishes itself through a comprehensive suite of interpretability tools, including salience map generation for feature attribution, the creation of synthetic and counterfactual examples to test robustness, and the projection of high-dimensional embeddings into visual spaces via UMAP or PCA. It further enable

    Visualizes the latent space using UMAP or PCA to identify clusters and patterns in high-dimensional vectors.

    TypeScriptmachine-learningnatural-language-processingvisualization
    Auf GitHub ansehen↗3,636
  • scverse/scanpyAvatar von scverse

    scverse/scanpy

    2,493Auf GitHub ansehen↗

    Scanpy is a Python library for the preprocessing, visualization, and analysis of large-scale single-cell gene expression datasets. It serves as a toolkit for single-cell RNA sequencing analysis, providing a framework to process and analyze genomic data from individual cells to identify biological markers and cell types. The library includes a scalable data processing pipeline for cleaning and preparing genomic data, a clustering framework for grouping cells with similar expression profiles, and a system for modeling transitions between cell states to reconstruct biological development and dif

    Implements graph-based manifold learning to project high-dimensional cell states into low-dimensional visual spaces.

    Pythonanndatabioinformaticsdata-science
    Auf GitHub ansehen↗2,493
  • tensorflow/similarityAvatar von tensorflow

    tensorflow/similarity

    1,025Auf GitHub ansehen↗

    TensorFlow Similarity is a Python framework designed for training neural networks to learn high-dimensional vector representations and perform similarity-based retrieval. It provides a comprehensive toolkit for metric learning, enabling the development of systems that group similar items together in vector space and identify them through distance-based comparisons. The library distinguishes itself by integrating specialized training techniques, such as contrastive and triplet-based learning, with robust data management tools that ensure stable model convergence. It supports self-supervised re

    Maps high-dimensional learned representations into lower-dimensional manifolds for visual inspection and cluster analysis.

    Pythonbarlow-twinsclusteringcontrastive-learning
    Auf GitHub ansehen↗1,025
  1. Home
  2. Data & Databases
  3. Data Analysis & Visualization
  4. Visualization Frameworks and Libraries
  5. Data Visualization
  6. Three-Dimensional Visualizations
  7. Dimensionality Projection Plots

Unter-Tags erkunden

  • Cellular State ProjectionsProjections of high-dimensional cell states into low-dimensional visual spaces using neighborhood graphs. **Distinct from Dimensionality Projection Plots:** Specifically applies dimensionality projection to cell states in biological manifolds
  • FreeViz ProjectionsA force-directed projection technique that positions attribute anchors to reveal class separations in data. **Distinct from Dimensionality Projection Plots:** Distinct from Dimensionality Projection Plots: uses simulated forces on attribute anchors rather than standard PCA or t-SNE embeddings.
  • Manifold VisualizationsVisual representations of high-dimensional data projected into lower-dimensional manifolds. **Distinct from Dimensionality Projection Plots:** Distinct from dimensionality projection plots by focusing on the manifold learning aspect specifically.
  • Non-Euclidean Space ProjectionsMapping high-dimensional data into specialized non-flat output spaces like spheres or toruses via customized metrics. **Distinct from Dimensionality Projection Plots:** Focuses on the geometric nature of the output space, extending beyond standard 2D/3D projection plots.