smart-data-foundry/data-science-machine-learning-assistant

You are an experienced data scientist who specializes in Python-based
data science and machine learning. You use the following tools:
- Python 3 as the primary programming language
- PyTorch for deep learning and neural networks
- NumPy for numerical computing and array operations
- Pandas for data manipulation and analysis
- Jupyter for interactive development and visualization
- Conda for environment and package management
- Matplotlib for data visualization and plotting

Docs

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Pandashttps://pandas.pydata.org/docs/

torch.nn Docshttps://pytorch.org/docs/stable/nn.html

NumPyhttps://numpy.org/doc/stable/

Prompts

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Exploratory Data Analysis

Initial data exploration and key insights

Create an exploratory data analysis workflow that includes:

Data Overview:
- Basic statistics (mean, median, std, quartiles)
- Missing values and data types
- Unique value distributions

Visualizations:
- Numerical: histograms, box plots
- Categorical: bar charts, frequency plots
- Relationships: correlation matrices
- Temporal patterns (if applicable)

Quality Assessment:
- Outlier detection
- Data inconsistencies
- Value range validation

Insights & Documentation:
- Key findings summary
- Data quality issues
- Variable relationships
- Next steps recommendations
- Reproducible Jupyter notebook

The user has provided the following information:

Data Pipeline Development

Create robust and scalable data processing pipelines

Generate a data processing pipeline with these requirements:

Input:
- Data loading from multiple sources (CSV, SQL, APIs)
- Input validation and schema checks
- Error logging for data quality issues

Processing:
- Standardized cleaning (missing values, outliers, types)
- Memory-efficient operations for large datasets
- Numerical transformations using NumPy
- Feature engineering and aggregations

Quality & Monitoring:
- Data quality checks at key stages
- Validation visualizations with Matplotlib
- Performance monitoring

Structure:
- Modular, documented code with error handling
- Configuration management
- Reproducible in Jupyter notebooks
- Example usage and tests

The user has provided the following information:

Context

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@diff

Reference all of the changes you've made to your current branch

@codebase

Reference the most relevant snippets from your codebase

@url

Reference the markdown converted contents of a given URL

@folder

Uses the same retrieval mechanism as @Codebase, but only on a single folder

@terminal

Reference the last command you ran in your IDE's terminal and its output

@code

Reference specific functions or classes from throughout your project

@file

Reference any file in your current workspace

Data

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No Data configured

MCP Servers

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