nxbench is a comprehensive benchmarking suite designed to facilitate comparative profiling of graph analytic algorithms across NetworkX and compatible backends. Built using Prefect and Dask, nxbench places an emphasis on extensible and granular performance analysis, enabling developers and researchers to optimize their graph analysis workflows efficiently and reproducibly.
- Cross-Backend Benchmarking: Leverage NetworkX's backend system to profile algorithms across multiple implementations (NetworkX, nx-parallel, GraphBLAS, and CuGraph)
- Configurable Suite: YAML-based configuration for algorithms, datasets, and benchmarking parameters
- Real-World Datasets: Automated downloading and caching of networks and their metadata from NetworkRepository
- Synthetic Graph Generation: Support for generating benchmark graphs using any of NetworkX's built-in generators
- Validation Framework: Comprehensive result validation for correctness across implementations
- Performance Monitoring: Track execution time and memory usage with detailed metrics
- Interactive Visualization: Dynamic dashboard for exploring benchmark results using Plotly Dash
- Flexible Storage: SQL result storage with pandas integration for dowstream analysis
- Python 3.10+: Ensure you have a compatible Python environment.
- PostgreSQL: To run Prefect Orion with a persistent database, we recommend PostgreSQL for better concurrency and stability than an ephemeral in-memory database.
- NetworkX Backend Installations: To comparative benchmark graph algorithm performance across different NetworkX backends, you will need to install each backend.
In a terminal window:
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Install PostgreSQL:
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On macOS (with Homebrew):
brew install postgresql brew services start postgresql
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On Linux (Debian/Ubuntu):
sudo apt-get update && sudo apt-get install -y postgresql postgresql-contrib sudo service postgresql start -
On Windows: Download and run the PostgreSQL installer and follow the prompts.
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Create a PostgreSQL User and Database:
psql postgres
In the
psqlprompt, run:CREATE USER prefect_user WITH PASSWORD 'pass'; CREATE DATABASE prefect_db OWNER prefect_user; GRANT ALL PRIVILEGES ON DATABASE prefect_db TO prefect_user;
Exit the prompt with \q.
This sets up a prefect_user with password pass and a database named prefect_db.
- NetworkX (default)
- nx-CuGraph (requires separate CuGraph installation and supported GPU hardware)
- GraphBLAS Algorithms (optional)
- nx-parallel (optional)
In a new terminal window:
PyPi:
pip install nxbenchFrom source (local clone):
git clone https://github.com/dpys/nxbench.git
cd nxbench
make installThis should install nxbench and all required dependencies (including prefect, asyncpg, and related packages).
Docker:
# CPU-only
docker-compose -f docker/docker-compose.cpu.yaml build
# With GPU
docker-compose -f docker/docker-compose.gpu.yaml build- Configure your benchmarks in a yaml file (see
configs/example.yaml):
algorithms:
- name: "pagerank"
func: "networkx.pagerank"
params:
alpha: 0.85
groups: ["centrality"]
datasets:
- name: "karate"
source: "networkrepository"- Start an instance of an orion server in a separate terminal window:
export PREFECT_API_URL="http://127.0.0.1:4200/api"
export PREFECT_API_DATABASE_CONNECTION_URL="postgresql+asyncpg://prefect_user:pass@localhost:5432/prefect_db"
prefect server start- In the original terminal window, run benchmarks based on the configuration:
nxbench --config 'nxbench/configs/example.yaml' benchmark run- Export results:
nxbench --config 'nxbench/configs/example.yaml' benchmark export 'results/9e3e8baa4a3443c392dc8fee00373b11_20241220002902.json' --output-format csv --output-file 'results/results.csv' # convert benchmarked results from a run with hash `9e3e8baa4a3443c392dc8fee00373b11_20241220002902` into csv format.- View results:
nxbench viz serve # launch the interactive results visualization dashboard.
The CLI provides comprehensive management of benchmarks, datasets, and visualization:
# Data Management
nxbench data download karate # download specific dataset
nxbench data list --category social # list available datasets
# Benchmarking
nxbench --config 'nxbench/configs/example.yaml' -vvv benchmark run # debug benchmark runs
nxbench --config 'nxbench/configs/example.yaml' benchmark export 'results/9e3e8baa4a3443c392dc8fee00373b11_20241220002902.json' --output-format sql --output-file 'results/benchmarks.sqlite' # export the results from a run with hash `9e3e8baa4a3443c392dc8fee00373b11_20241220002902` into a sql databaseBenchmarks are configured through YAML files with the following structure:
algorithms:
- name: "algorithm_name"
func: "fully.qualified.function.name"
params: {}
requires_directed: false
groups: ["category"]
validate_result: "validation.function"
datasets:
- name: "dataset_name"
source: "networkrepository"
params: {}# Run benchmarks with GPU
NUM_GPU=1 docker-compose -f docker/docker-compose.gpu.yaml up nxbench
# Run benchmarks CPU-only
docker-compose -f docker/docker-compose.cpu.yaml up nxbench
# Start visualization dashboard
docker-compose -f docker/docker-compose.cpu.yaml up dashboard
# Run specific backend
docker-compose -f docker/docker-compose.cpu.yaml run --rm nxbench --config 'nxbench/configs/example.yaml' benchmark run --backend networkx
# Export results from a run with hash `9e3e8baa4a3443c392dc8fee00373b11_20241220002902`
docker-compose -f docker/docker-compose.cpu.yaml run --rm nxbench --config 'nxbench/configs/example.yaml' benchmark export 'nxbench_results/9e3e8baa4a3443c392dc8fee00373b11_20241220002902.json' --output-format csv --output-file 'nxbench_results/results.csv'Contributions are welcome! Please read our Contributing Guide for details on:
- Code style guidelines
- Development setup
- Testing requirements
- Pull request process
This project is licensed under the MIT License - see LICENSE for details.
- NetworkX community for the core graph library and dispatching support
- NetworkRepository.com for harmonized dataset access
For questions or suggestions:
- Open an issue on GitHub
- Email: [email protected]