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Awesome GitHub RepositoriesDeep Learning Execution

Computational execution of tensors through graph-based frameworks for neural network inference.

Distinct from Graph-Based Computational Execution: Focuses on the execution of deep learning models specifically, rather than general mathematical graph computation.

Explore 9 awesome GitHub repositories matching scientific & mathematical computing · Deep Learning Execution. Refine with filters or upvote what's useful.

Awesome Deep Learning Execution GitHub Repositories

اعثر على أفضل المستودعات باستخدام الذكاء الاصطناعي.سنبحث عن أفضل المستودعات المطابقة باستخدام الذكاء الاصطناعي.
  • matterport/mask_rcnnالصورة الرمزية لـ matterport

    matterport/Mask_RCNN

    25,564عرض على GitHub↗

    This project is a TensorFlow and Keras implementation of the Mask R-CNN architecture. It provides a framework for performing simultaneous object detection and instance segmentation, transforming raw images into segmented masks and bounding boxes for individual object identification. The toolset enables custom computer vision training through fine-tuning pre-trained weights and integrating user-provided datasets. It includes capabilities for distributed GPU training to accelerate the optimization of large vision models. The framework covers model evaluation using standard precision metrics an

    Executes deep learning operations through a TensorFlow computational graph to optimize tensor flow across CPU and GPU hardware.

    Pythoninstance-segmentationkerasmask-rcnn
    عرض على GitHub↗25,564
  • tensorflow/magentaالصورة الرمزية لـ tensorflow

    tensorflow/magenta

    19,797عرض على GitHub↗

    Magenta is an AI creative suite and TensorFlow generative art framework used to train and deploy models for the production of artistic media. It functions as a generative music library and a deep learning art generator, providing tools to automate the creation of original musical compositions and visual artwork. The project covers AI music composition and generative visual art through neural art generation and machine learning creativity. It enables the training of generative models to produce original songs, images, and drawings based on learned patterns.

    Runs deep learning models using a graph-based computational framework to process tensors for media generation.

    Python
    عرض على GitHub↗19,797
  • dusty-nv/jetson-inferenceالصورة الرمزية لـ dusty-nv

    dusty-nv/jetson-inference

    8,734عرض على GitHub↗

    jetson-inference is a set of libraries and tools for executing optimized deep learning models on embedded GPU hardware. Its primary purpose is to enable real-time computer vision and AI inference at the edge with low latency and high throughput. The project distinguishes itself through high-performance streaming analytics and the ability to execute concurrent AI pipelines on auto-grade silicon. It provides specialized support for multi-sensor stream processing, utilizing zero-copy data transport to load camera frames directly into GPU memory. The codebase covers a broad surface of capabiliti

    Executes differentiable operations like convolution and pooling on sparse voxel data for spatial intelligence.

    C++caffecomputer-visiondeep-learning
    عرض على GitHub↗8,734
  • 1adrianb/face-alignmentالصورة الرمزية لـ 1adrianb

    1adrianb/face-alignment

    7,518عرض على GitHub↗

    This is a PyTorch-based computer vision library for detecting 2D and 3D facial landmark coordinates. It functions as a facial landmark detector and reconstruction tool, utilizing deep learning to identify precise geometric points on human faces from image datasets. The library allows for the selection of specific detection backends to balance accuracy and processing speed. It supports the integration of precomputed bounding box files, which enables the system to bypass the initial detection phase and proceed directly to landmark extraction. The toolkit includes capabilities for batch image p

    Utilizes PyTorch tensor-based computational graphs to perform forward passes for facial feature regression.

    Python
    عرض على GitHub↗7,518
  • open-mmlab/mmdetection3dالصورة الرمزية لـ open-mmlab

    open-mmlab/mmdetection3d

    6,273عرض على GitHub↗

    MMDetection3D is an open-source toolbox for 3D perception, providing a unified framework for detecting and segmenting objects in three-dimensional environments. It supports a range of core tasks including monocular 3D object detection from single camera images, LiDAR-based 3D object detection from raw point clouds, and multi-modal fusion that combines camera images with LiDAR data. The toolbox also covers point cloud semantic segmentation, assigning class labels to every point in a scan for scene understanding. The project distinguishes itself through a config-driven pipeline that orchestrate

    Accelerates 3D point cloud processing using sparse convolutional libraries like spconv and MinkowskiEngine.

    Python3d-object-detectionobject-detectionpoint-cloud
    عرض على GitHub↗6,273
  • nvidia/warpالصورة الرمزية لـ NVIDIA

    NVIDIA/warp

    6,233عرض على GitHub↗

    Warp is a Python framework that JIT-compiles Python functions into CUDA kernels for GPU-accelerated parallel computation, with built-in automatic differentiation and multi-framework array interoperability. At its core, it provides a GPU kernel compilation system that enables writing and executing custom GPU kernels directly from Python, while supporting automatic gradient computation through those kernels for integration with machine learning pipelines. The framework also includes tile-based cooperative computing, where thread blocks partition into tiles for shared-memory and tensor-core opera

    Constructs a sparse grid with power-of-two voxel scales for adaptive resolution in finite element simulations.

    Pythoncudadifferentiable-programminggpu
    عرض على GitHub↗6,233
  • plaidml/plaidmlالصورة الرمزية لـ plaidml

    plaidml/plaidml

    4,573عرض على GitHub↗

    PlaidML هو إطار عمل لمترجم التعلم العميق وبيئة تشغيل عبر المنصات مصمم لتنفيذ نماذج التعلم الآلي على مجموعة واسعة من أهداف العتاد. يعمل كمحرك موتر (tensor engine) مستقل عن العتاد يقوم بترجمة نماذج الموتر إلى كود قابل للتنفيذ، مما يسمح بتشغيل شبكات التعلم العميق عبر أجهزة حوسبة مختلفة دون الحاجة إلى تبعيات تعريف محددة. يتيح النظام تنفيذ النماذج على عتاد مخصص أو محدود باستخدام مواصفات JSON لتعريف عتاد الجهاز. يستخدم لغة خاصة بالمجال (DSL) لوصف حسابات الموتر ويوفر طبقة وسطى لدمج أطر عمل التعلم الآلي المختلفة مع المترجم الموجه للعتاد. يدعم المحرك مجموعة من عمليات الموتر، بما في ذلك انقباضات الموتر مع قيود الفهرس، والالتفافات متعددة الأبعاد مع خطوات وحشوات قابلة للتكوين، والعمليات العنصرية باستخدام البث (broadcasting). كما يتضمن مجموعة اختبار لقياس سرعة التنفيذ والكفاءة عبر مكونات وبيئات عتاد مختلفة.

    Executes tensor networks and deep learning models across diverse hardware targets to verify correctness and performance.

    C++
    عرض على GitHub↗4,573
  • microsoft/trellis.2الصورة الرمزية لـ microsoft

    microsoft/TRELLIS.2

    3,910عرض على GitHub↗

    TRELLIS.2 is a generative image-to-3D system that creates high-resolution 3D assets with physically based rendering materials from 2D images. It utilizes a sparse voxel representation to handle complex topologies and internal structures without relying on iso-surface fields. The project features a structured latent space representation that maps geometry and texture attributes to maintain visual fidelity. It employs an optimization-free geometry reconstruction process to decode latent representations directly into voxel grids and includes a PBR texture generator for synthesizing base color, r

    Transforms textured surface meshes into sparse volumetric grids and back without using optimization or rendering.

    Python
    عرض على GitHub↗3,910
  • divamgupta/stable-diffusion-tensorflowالصورة الرمزية لـ divamgupta

    divamgupta/stable-diffusion-tensorflow

    1,611عرض على GitHub↗

    This project provides a TensorFlow implementation of the Stable Diffusion model, serving as a generative engine for creating and modifying visual content. It functions as a machine learning architecture that translates natural language descriptions into high-quality images by iteratively refining noise within a compressed latent space. The system enables a variety of generative tasks, including text-to-image synthesis, image inpainting to fill missing or masked regions, and image editing to transform existing visuals based on text prompts. Beyond static imagery, the framework supports the gen

    Executes deep learning operations through static computational graphs for optimized inference.

    Python
    عرض على GitHub↗1,611
  1. Home
  2. Scientific & Mathematical Computing
  3. Data Modeling and Processing
  4. Computational Graphs
  5. Graph-Based Computational Execution
  6. Deep Learning Execution

استكشف الوسوم الفرعية

  • Mesh-Voxel TransformationsStructural conversion between surface meshes and sparse volumetric grids. **Distinct from Sparse Voxel Operations:** Focuses on the conversion process between representations rather than differentiable operations on voxel data.
  • Sparse Voxel Operations1 وسم فرعيDifferentiable operations executed on sparse voxel data for spatial intelligence. **Distinct from Deep Learning Execution:** Specifically targets sparse voxel data rather than general tensor graph execution