| name | building-neural-networks |
| description | This skill allows AI assistant to construct and configure neural network architectures using the neural-network-builder plugin. it should be used when the user requests the creation of a new neural network, modification of an existing one, or assistance... Use when appropriate context detected. Trigger with relevant phrases based on skill purpose. |
| allowed-tools | Read, Write, Edit, Grep, Glob, Bash(cmd:*) |
| version | 1.0.0 |
| author | Jeremy Longshore <jeremy@intentsolutions.io> |
| license | MIT |
Neural Network Builder
This skill provides automated assistance for neural network builder tasks.
Overview
This skill empowers Claude to design and implement neural networks tailored to specific tasks. It leverages the neural-network-builder plugin to automate the process of defining network architectures, configuring layers, and setting training parameters. This ensures efficient and accurate creation of neural network models.
How It Works
- Analyzing Requirements: Claude analyzes the user's request to understand the desired neural network architecture, task, and performance goals.
- Generating Configuration: Based on the analysis, Claude generates the appropriate configuration for the neural-network-builder plugin, specifying the layers, activation functions, and other relevant parameters.
- Executing Build: Claude executes the
build-nncommand, triggering the neural-network-builder plugin to construct the neural network based on the generated configuration.
When to Use This Skill
This skill activates when you need to:
- Create a new neural network architecture for a specific machine learning task.
- Modify an existing neural network's layers, parameters, or training process.
- Design a neural network using specific layer types, such as convolutional, recurrent, or transformer layers.
Examples
Example 1: Image Classification
User request: "Build a convolutional neural network for image classification with three convolutional layers and two fully connected layers."
The skill will:
- Analyze the request and determine the required CNN architecture.
- Generate the configuration for the
build-nncommand, specifying the layer types, filter sizes, and activation functions.
Example 2: Text Generation
User request: "Define an RNN architecture for text generation with LSTM cells and an embedding layer."
The skill will:
- Analyze the request and determine the required RNN architecture.
- Generate the configuration for the
build-nncommand, specifying the LSTM cell parameters, embedding dimension, and output layer.
Best Practices
- Layer Selection: Choose appropriate layer types (e.g., convolutional, recurrent, transformer) based on the task and data characteristics.
- Parameter Tuning: Experiment with different parameter values (e.g., learning rate, batch size, number of layers) to optimize performance.
- Regularization: Implement regularization techniques (e.g., dropout, L1/L2 regularization) to prevent overfitting.
Integration
This skill integrates with the core Claude Code environment by utilizing the build-nn command provided by the neural-network-builder plugin. It can be combined with other skills for data preprocessing, model evaluation, and deployment.
Prerequisites
- Appropriate file access permissions
- Required dependencies installed
Instructions
- Invoke this skill when the trigger conditions are met
- Provide necessary context and parameters
- Review the generated output
- Apply modifications as needed
Output
The skill produces structured output relevant to the task.
Error Handling
- Invalid input: Prompts for correction
- Missing dependencies: Lists required components
- Permission errors: Suggests remediation steps
Resources
- Project documentation
- Related skills and commands