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38 repositorios

Awesome GitHub RepositoriesComplex Problem Solving

Capabilities for solving intricate logical and coding challenges through advanced reasoning processes.

Distinct from Algorithmic Problem Solving: None of the candidates cover general AI-driven complex problem solving; others are narrow algorithmic patterns or educational guides.

Explore 38 awesome GitHub repositories matching artificial intelligence & ml · Complex Problem Solving. Refine with filters or upvote what's useful.

Awesome Complex Problem Solving GitHub Repositories

Encuentra los mejores repositorios con IA.Buscaremos los repositorios que mejor coincidan usando IA.
  • deepseek-ai/deepseek-r1Avatar de deepseek-ai

    deepseek-ai/DeepSeek-R1

    91,996Ver en GitHub↗

    DeepSeek-R1 is an open-weights large language model focused on advanced reasoning. It uses chain-of-thought processing and internal monologues to solve complex mathematical and logical problems by breaking tasks into sequential, verifiable thought processes. The model is developed using reinforcement learning to optimize reasoning patterns and verify logical steps. It employs a distillation process to transfer these high-performance logic capabilities from a large teacher model into smaller, computationally efficient versions. The training framework incorporates group relative policy optimiz

    Provides advanced reasoning capabilities for solving intricate logical and mathematical challenges.

    Ver en GitHub↗91,996
  • qwenlm/qwen2.5Avatar de QwenLM

    QwenLM/Qwen2.5

    27,307Ver en GitHub↗

    Qwen2.5 is a suite of large language model foundation models designed for natural language generation, code production, and complex mathematical reasoning. The project encompasses a multilingual language model capable of processing dozens of languages and a specialized code generation model for technical problem solving and debugging. The framework is distinguished by its long context capabilities, enabling the analysis of massive inputs ranging from 256K up to 1 million tokens. It further functions as an agentic framework, utilizing standardized templates and parsers to execute autonomous wo

    Solves intricate logical, mathematical, and scientific challenges through advanced reasoning processes.

    Python
    Ver en GitHub↗27,307
  • claude-code-best/claude-codeAvatar de claude-code-best

    claude-code-best/claude-code

    20,272Ver en GitHub↗

    Claude Code is a command-line interface and multi-agent orchestration framework designed for autonomous software engineering. It enables AI agents to perform codebase modifications, debugging, and Git workflow management while coordinating multiple specialized agents to decompose and execute complex engineering tasks in parallel. The system distinguishes itself through a high degree of isolation and safety, utilizing Git worktrees to create independent working directories for concurrent agents and implementing a tiered permission system that combines user rules, project policies, and OS-level

    Implements capabilities for solving intricate logical and coding challenges through advanced reasoning processes.

    TypeScript
    Ver en GitHub↗20,272
  • openai/gpt-ossAvatar de openai

    openai/gpt-oss

    20,191Ver en GitHub↗

    gpt-oss is an open-weight large language model and reasoning engine designed for complex reasoning and agentic workflows. It functions as an AI agent framework and model serving API, allowing for local deployment and the hosting of standardized interfaces to expose model completions and internal reasoning processes. The project distinguishes itself as a quantized inference engine, utilizing tensor parallelism and weight quantization to run high-parameter models on limited hardware. It features a reasoning model that employs chain-of-thought processing to solve multi-step logical tasks. The s

    Solves intricate logical problems through advanced reasoning processes and chain-of-thought processing.

    Python
    Ver en GitHub↗20,191
  • qwenlm/qwen2.5-vlAvatar de QwenLM

    QwenLM/Qwen2.5-VL

    19,480Ver en GitHub↗

    Qwen2.5-VL es un transformador multimodal autorregresivo diseñado para procesar secuencias intercaladas de tokens de texto y visuales. Integra incrustaciones de características visuales en un espacio de modelo de lenguaje compartido para realizar razonamiento intermodal y generar respuestas coherentes o código de diseño estructurado. El proyecto se distingue por el mapeo de visión-lenguaje-acción, lo que le permite percibir interfaces visuales y traducir esa percepción en comandos accionables para operar pantallas digitales y hardware robótico. Emplea codificación de imagen de resolución dinámica y indexación de video de fotogramas temporales para manejar diversos tamaños de imagen y secuencias visuales de larga duración. El modelo cubre una amplia superficie de capacidades, incluyendo reconocimiento óptico de caracteres multilingüe para la digitalización de documentos, conexión espacial para localizar objetos a través de cuadros delimitadores y el análisis de contenido de video de larga duración. También admite razonamiento matemático multimodal para resolver problemas utilizando gráficos y diagramas, y extiende su comprensión a una longitud de contexto de un millón de tokens.

    Solves complex quantitative and science problems by reasoning over visual charts and diagrams.

    Jupyter Notebook
    Ver en GitHub↗19,480
  • qwenlm/qwen2-vlAvatar de QwenLM

    QwenLM/Qwen2-VL

    19,404Ver en GitHub↗

    Qwen2-VL is a multimodal large language model and vision language model designed to process and reason across text, images, and video content. It functions as a visual reasoning engine and a visual agent framework, capable of interpreting visual data to perform object detection, document parsing, and spatial reasoning. The model is distinguished by its ability to act as a video understanding model, processing hour-long videos with second-level indexing and event recall. It further differentiates itself through a visual agent capability that interacts with software interfaces and robotic hardw

    Solves mathematical problems and interprets data from charts and tables using iterative visual analysis.

    Jupyter Notebook
    Ver en GitHub↗19,404
  • tanweai/puaAvatar de tanweai

    tanweai/pua

    18,283Ver en GitHub↗

    PUA is an agentic workflow orchestrator and behavioral governance tool designed to enhance the reliability and autonomy of AI coding assistants. It functions as a prompting framework and extension that implements strict engineering standards and verification requirements to prevent hallucinations and premature task completion. The project distinguishes itself through high-agency enforcement mechanisms, including escalating prompt pressure and failure-driven recovery loops that automatically pivot problem-solving strategies after repeated errors. It utilizes a diagnosis-first workflow that man

    Triggers advanced persistence and iterative reasoning to solve complex coding challenges when initial attempts fail.

    TypeScriptagencyagentpip
    Ver en GitHub↗18,283
  • thudm/chatglm3Avatar de THUDM

    THUDM/ChatGLM3

    13,676Ver en GitHub↗

    ChatGLM3 is an open-weights large language model designed for bilingual conversational interactions in English and Chinese. It functions as a tool-augmented system capable of calling external functions and executing internal code to resolve complex tasks. The model utilizes four-bit quantization to reduce memory requirements, enabling inference on consumer hardware and diverse processing units including GPUs and CPUs. It features an expanded context window for processing and summarizing long documents and includes a supervised fine-tuning pipeline for adapting the model to specialized domains

    Solves intricate logical and mathematical challenges through advanced reasoning and internal code execution.

    Python
    Ver en GitHub↗13,676
  • moonshotai/kimi-k2Avatar de MoonshotAI

    MoonshotAI/Kimi-K2

    10,401Ver en GitHub↗

    Kimi-K2 is a conversational AI engine and reasoning framework designed for text generation, advanced problem solving, and coding tasks. It functions as a tool-augmented language model capable of producing human-like chat responses through a compatible model interface. The system utilizes a reasoning-optimized architecture that separates standard conversational flow from deep logical processing. This allows the model to execute autonomous tasks by invoking external functions and calling APIs to retrieve real-time data. The project supports structured JSON output parsing for function-call inte

    Provides advanced reasoning capabilities for solving complex logical and coding tasks.

    Ver en GitHub↗10,401
  • opengvlab/internvlAvatar de OpenGVLab

    OpenGVLab/InternVL

    10,061Ver en GitHub↗

    InternVL is a vision-language model framework that fuses a visual encoder with a large language model to translate image features into textual tokens for reasoning. It provides a system for multimodal inference and dialogue, enabling the processing of images and text to answer questions or generate descriptions. The project is distinguished by its high-resolution image processing, which uses dynamic tiling to maintain detail for images up to 4K resolution, and its chain-of-thought visual reasoning for solving complex mathematical and spatial problems. It also supports temporal frame sampling

    Applies chain-of-thought reasoning to solve complex quantitative problems based on visual and textual inputs.

    Pythongptgpt-4ogpt-4v
    Ver en GitHub↗10,061
  • nlpxucan/wizardlmAvatar de nlpxucan

    nlpxucan/WizardLM

    9,486Ver en GitHub↗

    WizardLM is a large language model and instruction-tuning framework designed to execute sophisticated coding, mathematical, and conversational tasks. It functions as an AI system for mathematical reasoning and code generation, as well as a synthetic dataset generator used to train other language models. The project is distinguished by its evolutionary instruction tuning, which uses a method to rewrite simple instructions into complex tasks. This process expands training dataset difficulty and produces a high volume of open-domain tasks across various difficulty levels. The system covers capa

    Computes mathematical results and applies reasoning through standard and chain-of-thought prompting.

    Python
    Ver en GitHub↗9,486
  • danielmiessler/personal_ai_infrastructureAvatar de danielmiessler

    danielmiessler/Personal_AI_Infrastructure

    8,901Ver en GitHub↗

    This project is a comprehensive AI infrastructure that combines an LLM agent orchestration framework, an autonomous research system, and a local AI environment. It centers on the creation of a personal knowledge graph and a programmatic prompt engineering library to provide long-term memory and optimized reasoning for artificial intelligence tasks. The system is distinguished by its ability to compose multi-agent teams using specialized personas and deterministic skills to execute complex workflows. It features an autonomous research pipeline capable of deep investigations and adversarial ana

    Applies systems thinking and cognitive frameworks like root cause analysis to deconstruct complex problems.

    TypeScriptaiaugmentationhumans
    Ver en GitHub↗8,901
  • aimacode/aima-pythonAvatar de aimacode

    aimacode/aima-python

    8,675Ver en GitHub↗

    This project is a Python collection of algorithms and data structures that implement the concepts from the Artificial Intelligence: A Modern Approach textbook. It serves as an educational resource for learning core artificial intelligence concepts through the implementation of classic algorithms for searching, logic, and problem solving. The repository functions as an automated reasoning toolset for managing knowledge bases, a game theory engine for calculating optimal moves in competitive games, and a search and optimization library. It provides specialized frameworks for deriving logical co

    Provides capabilities for solving complex problems through reasoning processes like simulated annealing and genetic algorithms.

    Jupyter Notebook
    Ver en GitHub↗8,675
  • openbmb/xagentAvatar de OpenBMB

    OpenBMB/XAgent

    8,529Ver en GitHub↗

    XAgent is an autonomous agent system that decomposes complex goals into sequential subtasks for execution via a planner and actor model. It functions as a collaboration framework that integrates human-in-the-loop workflows, allowing users to provide real-time guidance and missing information during the automation process. The system features a containerized tool sandbox to isolate the execution of shells and browsers, ensuring system safety and consistency. It includes a state-based execution recorder that captures snapshots of agent runs to enable the exact reproduction of specific task sequ

    Autonomously decomposes high-level goals into sequential subtasks to solve complex challenges.

    Python
    Ver en GitHub↗8,529
  • davidkimai/context-engineeringAvatar de davidkimai

    davidkimai/Context-Engineering

    8,431Ver en GitHub↗

    Context-Engineering is a prompt engineering framework and cognitive architecture for large language models. It provides a set of patterns and methodologies for designing structured prompts and modular reasoning flows that decompose complex tasks into specialized, step-by-step problem solving templates. The project distinguishes itself through stateful prompt management and context window optimization. It maintains persistent memory across multiple interaction turns by compressing conversation history into compact internal state cells and employs techniques to maximize information density per

    Implements a cognitive architecture using modular reasoning structures to decompose complex problems.

    Python
    Ver en GitHub↗8,431
  • paddlepaddle/larkAvatar de PaddlePaddle

    PaddlePaddle/LARK

    7,717Ver en GitHub↗

    LARK is a development toolkit for training, fine-tuning, and deploying large language models and multimodal models based on PaddlePaddle. It functions as a comprehensive framework that includes an LLM training orchestrator, an inference server, and a multimodal model framework for processing text, image, and video inputs. The project features a retrieval-augmented generation system for building conversational applications that integrate web search and private knowledge bases. It provides specific capabilities for multimodal reasoning and complex logic, enabling the extraction of structured da

    Enables solving challenging math, logic, and visual puzzles by applying deep thinking processes to arrive at accurate answers.

    Python
    Ver en GitHub↗7,717
  • paddlepaddle/ernieAvatar de PaddlePaddle

    PaddlePaddle/ERNIE

    7,717Ver en GitHub↗

    ERNIE is a development toolkit for training, fine-tuning, and deploying large language models built on the PaddlePaddle deep learning platform. It provides a comprehensive suite of core components, including an inference server for vision and language models, a training and fine-tuning toolkit, and a framework for building retrieval-augmented generation systems using private knowledge bases. The project features multimodal AI models capable of reasoning across text, images, and video to perform complex visual understanding and information extraction. It distinguishes itself through specialize

    Solves complex multimodal reasoning puzzles and mathematical visual tasks by combining visual perception with a thinking mode.

    Pythonernieernie-45ernie-45-vl
    Ver en GitHub↗7,717
  • sharingsource/logicstack-leetcodeAvatar de SharingSource

    SharingSource/LogicStack-LeetCode

    7,495Ver en GitHub↗

    LogicStack-LeetCode is a curated repository of solved algorithm problems and data structure implementations, primarily drawn from the LeetCode platform. Its core identity is a structured collection of solutions designed to support technical interview preparation and competitive programming practice, with each solution accompanied by complexity analyses to help engineers understand performance trade-offs. The repository distinguishes itself through its breadth of coverage across fundamental algorithmic patterns and data structures. It includes implementations for array manipulation, string pro

    Ships solutions for computational geometry challenges including fence installation and boomerang detection.

    algorithminterview-practiceinterview-questions
    Ver en GitHub↗7,495
  • norvig/paip-lispAvatar de norvig

    norvig/paip-lisp

    7,465Ver en GitHub↗

    This project is a comprehensive Lisp AI implementation library that provides reference implementations for various artificial intelligence paradigms and symbolic algorithms. It functions as a multi-purpose toolkit containing a logic programming engine, a natural language processing suite, and a symbolic mathematics toolkit. The library is distinguished by its diverse architectural frameworks, including a Prolog-style execution engine that uses unification and goal-driven backtracking, and a system for simulating human decision-making through expert system shells and certainty factors. It also

    Implements general problem solving by searching through a state space using a goal-driven approach.

    Common Lisp
    Ver en GitHub↗7,465
  • internlm/internlmAvatar de InternLM

    InternLM/InternLM

    7,224Ver en GitHub↗

    InternLM is a large language model and a comprehensive suite of weights designed for text generation and complex reasoning. It functions as an inference engine for serving responses, a fine-tuning framework for adjusting model weights, and a platform for building autonomous AI agents. The system is capable of processing long-context input sequences up to one million tokens for document analysis. It employs chain-of-thought reasoning to solve knowledge-intensive tasks by generating intermediate logic steps before producing a final answer. The project covers model weight optimization through s

    Solves intricate logical and knowledge-intensive challenges using advanced long chain-of-thought reasoning.

    Pythonchatbotchinesefine-tuning-llm
    Ver en GitHub↗7,224
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  • Cognitive FrameworksMental models and reasoning patterns used to deconstruct complex problems and improve decision quality. **Distinct from Complex Problem Solving:** Focuses on the cognitive mental models used for analysis rather than the AI's general problem-solving capacity
  • Deep Learning Problem SolvingApplying neural network architectures to solve complex data challenges. **Distinct from Complex Problem Solving:** Distinct from general complex problem solving: focuses specifically on deep learning applications for image and language tasks.
  • Geometric Problem SolvingSolves computational geometry challenges like fence installation, square validation, boomerang detection, and visible point counting with complexity analysis. **Distinct from Complex Problem Solving:** Distinct from Complex Problem Solving: focuses specifically on computational geometry problems, not general complex problem solving.
  • Goal-Based SolversAI solvers that achieve objectives by identifying and satisfying necessary preconditions and updating system state. **Distinct from Complex Problem Solving:** Specializes in goal-oriented state transition logic rather than general reasoning for coding challenges.
  • Multimodal Educational SolvingCapabilities for solving complex educational problems by combining text and image reasoning. **Distinct from Complex Problem Solving:** Specializes complex problem solving by integrating visual and textual reasoning specifically for educational contexts.
  • Non-linear Problem Solvers1 sub-etiquetaAlgorithms and methods for finding separating hyperplanes in high-dimensional space using kernel functions. **Distinct from Complex Problem Solving:** Focuses specifically on kernel-based mathematical solutions for non-linear data patterns rather than general AI reasoning.
  • Systematized Debugging ProcessesStructured recovery cycles for AI agents incorporating pattern analysis and source auditing. **Distinct from Complex Problem Solving:** Focuses on the structured recovery process for agents rather than general complex logical reasoning.
  • Tree Search Problem SolversBreaking down complex reasoning tasks into intermediate steps, generating candidate thoughts at each step, and selecting optimal paths through tree search algorithms. **Distinct from Complex Problem Solving:** Distinct from Complex Problem Solving: uses tree search algorithms to select optimal reasoning paths, not general complex problem solving.
  • Visual Mathematical Reasoning1 sub-etiquetaSolving quantitative and mathematical problems presented in visual formats using chain-of-thought processing. **Distinct from Complex Problem Solving:** Distinct from Complex Problem Solving: focuses specifically on the intersection of visual perception and mathematical computation.