{"passport":{"unfragile":{"@version":"1.0","version":"2026-05","artifact":{"id":"smithery_manasp21-psianimator-mcp","slug":"manasp21-psianimator-mcp","name":"PsiAnimator Quantum Simulation Server","type":"mcp","url":"https://github.com/username/PsiAnimator-MCP","page_url":"https://unfragile.ai/manasp21-psianimator-mcp","categories":["mcp-servers","testing-quality"],"tags":["mcp","model-context-protocol","smithery:manasp21/psianimator-mcp"],"pricing":{"model":"open_source","free":true,"starting_price":null},"status":"active","verified":false},"capabilities":[{"id":"smithery_manasp21-psianimator-mcp__cap_0","uri":"capability://image.visual.quantum.state.visualization","name":"quantum state visualization","description":"This capability allows users to visualize complex quantum states using advanced mathematical animations. It employs a combination of real-time rendering techniques and quantum state management algorithms to create high-fidelity representations of quantum phenomena. The integration with mathematical animation libraries ensures that the visualizations are not only accurate but also educationally effective, enabling users to grasp intricate concepts in quantum physics.","intents":["How can I visualize quantum states for my research?","I need to create educational materials that illustrate quantum phenomena.","What tools can help me present quantum mechanics concepts visually?"],"best_for":["educators and researchers in quantum physics"],"limitations":["Requires significant computational resources for high-resolution animations."],"requires":["Python 3.8+","OpenGL compatible graphics card"],"input_types":["quantum state data","mathematical expressions"],"output_types":["animated visualizations","interactive graphics"],"categories":["image-visual","education-tools"],"confidence":0.5,"matches":0,"success_rate":0},{"id":"smithery_manasp21-psianimator-mcp__cap_1","uri":"capability://data.processing.analysis.quantum.time.evolution.simulation","name":"quantum time evolution simulation","description":"This capability simulates the time evolution of quantum systems using numerical methods like the Runge-Kutta algorithm. It integrates with a backend that handles quantum state calculations and allows users to specify initial conditions and parameters through a user-friendly interface. The simulation results can be visualized in real-time, providing immediate feedback on the dynamics of the quantum system.","intents":["How can I simulate the time evolution of a quantum system?","I want to analyze the behavior of quantum states over time.","What tools are available for simulating quantum dynamics?"],"best_for":["quantum physicists and computational scientists"],"limitations":["Limited to non-relativistic quantum systems; relativistic effects are not accounted for."],"requires":["Python 3.8+","NumPy library"],"input_types":["initial quantum state","evolution parameters"],"output_types":["time-evolved quantum states","data arrays"],"categories":["data-processing-analysis","simulation-tools"],"confidence":0.5,"matches":0,"success_rate":0},{"id":"smithery_manasp21-psianimator-mcp__cap_2","uri":"capability://planning.reasoning.interactive.quantum.measurement.tools","name":"interactive quantum measurement tools","description":"This capability provides tools for simulating quantum measurements, allowing users to interactively define measurement operators and observe their effects on quantum states. It leverages a modular design that connects measurement operations to the quantum state management system, enabling real-time updates and visual feedback. This interactivity enhances user engagement and understanding of quantum measurement concepts.","intents":["How can I simulate quantum measurements in my research?","I need interactive tools to demonstrate quantum measurement principles.","What features help visualize the impact of measurements on quantum states?"],"best_for":["students and educators in quantum mechanics"],"limitations":["Complex measurement scenarios may require advanced setup and understanding."],"requires":["Python 3.8+","Matplotlib for visualization"],"input_types":["measurement operators","quantum states"],"output_types":["measurement outcomes","visual feedback"],"categories":["planning-reasoning","education-tools"],"confidence":0.5,"matches":0,"success_rate":0},{"id":"smithery_manasp21-psianimator-mcp__cap_3","uri":"capability://automation.workflow.quantum.computing.workflow.integration","name":"quantum computing workflow integration","description":"This capability enables users to create and manage workflows that integrate quantum simulations with classical computing tasks. It uses a model-context-protocol (MCP) architecture to facilitate seamless communication between quantum and classical components, allowing for hybrid algorithms and enhanced computational efficiency. Users can define workflows through a graphical interface, making it accessible for non-experts.","intents":["How can I integrate quantum simulations with classical algorithms?","I want to automate workflows that involve both quantum and classical computations.","What tools can help me manage hybrid quantum-classical workflows?"],"best_for":["research teams working on quantum algorithms"],"limitations":["May require custom integration for specific classical components."],"requires":["Python 3.8+","Access to quantum computing resources"],"input_types":["workflow definitions","quantum and classical tasks"],"output_types":["execution results","workflow logs"],"categories":["automation-workflow","integration-tools"],"confidence":0.5,"matches":0,"success_rate":0},{"id":"smithery_manasp21-psianimator-mcp__cap_4","uri":"capability://text.generation.language.quantum.educational.content.creation","name":"quantum educational content creation","description":"This capability allows users to generate educational content, including animations and simulations, tailored for teaching quantum physics. It leverages templates and customizable parameters to create publication-quality materials that can be used in classrooms or research presentations. The integration with visualization tools ensures that the content is both informative and engaging.","intents":["How can I create educational materials for quantum physics?","I need tools to generate animations for my lectures.","What features help me produce high-quality quantum simulations for teaching?"],"best_for":["educators and content creators in physics"],"limitations":["Requires knowledge of quantum concepts to create effective content."],"requires":["Python 3.8+","Access to visualization libraries"],"input_types":["content templates","simulation parameters"],"output_types":["educational animations","presentation materials"],"categories":["text-generation-language","education-tools"],"confidence":0.5,"matches":0,"success_rate":0}],"trust":{"score":33,"verified":false,"data_access_risk":"moderate","permissions":["Python 3.8+","OpenGL compatible graphics card","NumPy library","Matplotlib for visualization","Access to quantum computing resources","Access to visualization libraries"],"failure_modes":["Requires significant computational resources for high-resolution animations.","Limited to non-relativistic quantum systems; relativistic effects are not accounted for.","Complex measurement scenarios may require advanced setup and understanding.","May require custom integration for specific classical components.","Requires knowledge of quantum concepts to create effective content.","builder identity is not verified yet","no observed match outcomes yet"],"rank_breakdown":{"adoption":0.05,"quality":0.45,"ecosystem":0.5900000000000001,"match_graph":0.25,"freshness":0.5,"weights":{"adoption":0.25,"quality":0.25,"ecosystem":0.15,"match_graph":0.23,"freshness":0.12}},"observed_outcomes":{"matches":0,"success_rate":0,"avg_confidence":0,"top_intents":[],"last_matched_at":null},"maintenance":{"status":"active","updated_at":"2026-05-24T12:16:27.441Z","last_scraped_at":"2026-05-03T15:19:33.056Z","last_commit":null},"community":{"stars":null,"forks":null,"weekly_downloads":null,"model_downloads":null,"model_likes":null}},"distribution":{"claim_url":"https://unfragile.ai/submit?claim=manasp21-psianimator-mcp","compare_url":"https://unfragile.ai/compare?artifact=manasp21-psianimator-mcp"}},"signature":"vN4eVSPnVciA+YQcB9tThzC9XANzh3hI1isd/jTakx8QiLDBggKoVlWXx0Rf2Xsp4c2f1pvE/96dJBt3XZ3hDQ==","signedAt":"2026-06-22T03:16:58.452Z","signedBy":"unfragile.ai","version":1},"_links":{"self":"https://unfragile.ai/api/v1/passport/manasp21-psianimator-mcp","artifact":"https://unfragile.ai/manasp21-psianimator-mcp","verify":"https://unfragile.ai/api/v1/verify?slug=manasp21-psianimator-mcp","publicKey":"https://unfragile.ai/api/v1/trust-passport-public-key","spec":"https://unfragile.ai/trust","schema":"https://unfragile.ai/schema.json","docs":"https://unfragile.ai/docs"}}