Vibe Math MCP Server
我們要翻譯一段文字,目標語言是繁體中文。文字描述了一個MCP伺服器,名稱為「Vibe Math MCP」,但指示說不要包含名稱除非出現在原文中。原文中沒有出現名稱,所以我們只翻譯<text>內的內容。 原文:A high-performance Model Context Protocol (MCP) server for math-ing whilst vibing with LLMs. Built with Polars, Pandas, NumPy, SciPy, and SymPy for optimal calculation speed and comprehensive mathematical capabilities from basic arithmetic to advanced calculus and linear algebra. 注意:保留產品名稱、協定名稱、URL、數字和技術術語。所以「Model Context Protocol (MCP)」、「Polars」、「Pandas」、「NumPy」、「SciPy」、「SymPy」這些要保留不翻譯。另外「LLMs」也保留。 翻譯要流暢,繁體中文。考慮到「math-ing whilst vibing with LLMs」有點口語化,可以翻成「在與LLM共鳴的同時進行數學運算」或類似。但「vib
文件
Vibe Math MCP
A high-performance Model Context Protocol (MCP) server for math-ing whilst vibing with LLMs. Built with Polars, Pandas, NumPy, SciPy, and SymPy for optimal calculation speed and comprehensive mathematical capabilities from basic arithmetic to advanced calculus and linear algebra.
Features
21 Mathematical Tools across 6 domains + batch orchestration:
- Basic Calculations (4 tools): Expression evaluation, percentages, rounding, unit conversion
- Array Operations (4 tools): Element-wise operations, statistics, aggregations, transformations
- Statistics (3 tools): Descriptive statistics, pivot tables, correlations
- Financial Mathematics (3 tools): Time value of money, compound interest, perpetuity
- Linear Algebra (3 tools): Matrix operations, system solving, decompositions
- Calculus (3 tools): Derivatives, integrals, limits & series
- Batch Execution (1 tool): Multi-tool orchestration for complex workflows
Installation
IDEs
Claude Desktop
Open Settings > Developer > Edit Config and add:
For published package:
{
"mcpServers": {
"Math": {
"command": "uvx",
"args": ["vibe-math-mcp"]
}
}
}
For local development:
{
"mcpServers": {
"Math": {
"command": "uv",
"args": [
"--directory",
"/absolute/path/to/vibe-math-mcp",
"run",
"vibe-math-mcp"
]
}
}
}
Claude Code
Quick setup (CLI):
Published package:
claude mcp add --transport stdio math -- uvx vibe-math-mcp
Local development:
claude mcp add --transport stdio math -- uvx --from /absolute/path/to/vibe-math-mcp vibe-math-mcp
Team setup (create .mcp.json in project root for shared use with Claude Code and/or IDEs)
{
"mcpServers": {
"math": {
"command": "uvx",
"args": ["vibe-math-mcp"]
}
}
}
Verify: Run claude mcp list or use /mcp or view available servers in IDEs.
Try it
- "Calculate 15% of 250" → uses
percentage - "Find determinant of [[1,2],[3,4]]" → uses
matrix_operations - "Integrate x^2 from 0 to 1" → uses
integral - "If I invest $1000 at 5% annual interest compounded monthly for 10 years, what will be the future value?" → uses
compound_interest - If I was paid the square root of $69m in 10 years, what's the present value at 7% discount rate? → uses
batch_execute (calculate -> financial_calcs)
Output Control
All tools automatically support output control for maximum flexibility and token efficiency. The LLM can specify the desired verbosity.
Control response verbosity using the output_mode parameter (available on every tool):
| Mode | Description | Token Savings | Use Case |
|---|---|---|---|
full | Complete response with all metadata (default) | 0% (baseline) | Debugging, full context needed |
compact | Remove null fields, minimize whitespace | ~20-30% | Moderate reduction, preserve structure |
minimal | Primary value(s) only, strip metadata | ~60-70% | Fast extraction, minimal context |
value | Normalized {value: X} structure | ~70-80% | Consistent chaining, maximum simplicity |
final | For sequential chains, return only terminal result | ~95% | Simple calculations, predictable extraction |
Batch Execution
For multi-step workflows, batch_execute chains multiple calculations in a single request—achieving 90-95% token reduction. Reference prior outputs using $operation_id.result syntax, and the engine automatically handles dependency resolution and parallel execution for speed.
Perfect for: Bond pricing, financial models, statistical pipelines, complex transformations
Complete Tool Reference
Note: All tool parameters include detailed descriptions with concrete examples directly in the MCP interface. Each parameter shows expected format, use cases, and sample values to make usage obvious without referring to external documentation.
Basic Calculations
| Tool | Description |
|---|---|
calculate | Evaluate mathematical expressions with variable substitution |
percentage | Percentage calculations (of, increase, decrease, change) |
round | Advanced rounding (round, floor, ceil, trunc) |
convert_units | Unit conversions (degrees � radians) |
Array Operations
| Tool | Description |
|---|---|
array_operations | Element-wise operations (add, subtract, multiply, divide, power) |
array_statistics | Statistical measures (mean, median, std, min, max, sum) |
array_aggregate | Aggregations (sumproduct, weighted average, dot product) |
array_transform | Transformations (normalise, standardise, scale, log) |
Statistics
| Tool | Description |
|---|---|
statistics | Comprehensive analysis (describe, quartiles, outliers) |
pivot_table | Create pivot tables with aggregation |
correlation | Correlation matrices (Pearson, Spearman) |
Financial Mathematics
| Tool | Description |
|---|---|
financial_calcs | Time value of money (PV, FV, PMT, IRR, NPV) |
compound_interest | Compound interest with various frequencies |
Linear Algebra
| Tool | Description |
|---|---|
matrix_operations | Matrix operations (multiply, inverse, transpose, determinant, trace) |
solve_linear_system | Solve Ax = b systems |
matrix_decomposition | Decompositions (eigen, SVD, QR, Cholesky, LU) |
Calculus
| Tool | Description |
|---|---|
derivative | Symbolic and numerical differentiation |
integral | Symbolic and numerical integration |
limits_series | Limits and series expansions |
## Development
### Running Tests
```bash
# Install dependencies
uv sync
# Run all tests
uv run poe test
Local Development Modes
STDIO Mode (default - for Claude Desktop, IDEs):
uv run vibe-math-mcp
HTTP Mode (for container testing):
uv run python -m vibe_math_mcp.http_server
License
MIT License. See LICENSE file for details.
Contributing
Contributions welcome via PRs! Please ensure:
- Tests pass, and new ones are added if applicable
- Code is linted & formatted
- Type hints are included
- Clear, actionable error messages are provided
Support
For issues and questions, please open an issue on GitHub.