# How it Works NetworkX has the ability to **dispatch function calls to separately-installed third-party backends**. NetworkX backends let users experience improved performance and/or additional functionality without changing their NetworkX Python code. Examples include backends that provide algorithm acceleration using GPUs, parallel processing, graph database integration, and more. While NetworkX is a pure-Python implementation, backends may be written to use other libraries and even specialized hardware. `nx-cugraph` is a NetworkX backend that uses RAPIDS cuGraph and NVIDIA GPUs to significantly improve NetworkX performance. ![nxcg-execution-flow](../_static/nxcg-execution-diagram.jpg) ## Enabling nx-cugraph It is recommended to use `networkx>=3.4` for optimal zero code change performance, but `nx-cugraph` will also work with `networkx 3.0+`. NetworkX will use `nx-cugraph` as the backend if any of the following are used: ### `NX_CUGRAPH_AUTOCONFIG` environment variable. The `NX_CUGRAPH_AUTOCONFIG` environment variable can be used to configure NetworkX for full zero code change acceleration using `nx-cugraph`. If a NetworkX function is called that `nx-cugraph` supports, NetworkX will redirect the function call to `nx-cugraph` automatically, or fall back to either another backend if enabled or the default NetworkX implementation. See the [NetworkX documentation on backends](https://networkx.org/documentation/stable/reference/backends.html) for configuring NetworkX manually. ``` bash> NX_CUGRAPH_AUTOCONFIG=True python my_networkx_script.py ``` ### `backend=` keyword argument To explicitly specify a particular backend for an API, use the `backend=` keyword argument. This argument takes precedence over the `NX_CUGRAPH_AUTOCONFIG` environment variable. This requires anyone running code that uses the `backend=` keyword argument to have the specified backend installed. Example: ```python nx.betweenness_centrality(cit_patents_graph, k=k, backend="cugraph") ``` ### Type-based dispatching NetworkX also supports automatically dispatching to backends associated with specific graph types. Like the `backend=` keyword argument example above, this requires the user to write code for a specific backend, and therefore requires the backend to be installed, but has the advantage of ensuring a particular behavior without the potential for runtime conversions. To use type-based dispatching with `nx-cugraph`, the user must import the backend directly in their code to access the utilities provided to create a Graph instance specifically for the `nx-cugraph` backend. Example: ```python import networkx as nx import nx_cugraph as nxcg G = nx.Graph() # populate the graph # ... nxcg_G = nxcg.from_networkx(G) # conversion happens once here nx.betweenness_centrality(nxcg_G, k=1000) # nxcg Graph type causes cugraph backend # to be used, no conversion necessary ``` ## Command Line Example --- Create `bc_demo.ipy` and paste the code below. ```python import pandas as pd import networkx as nx url = "https://data.rapids.ai/cugraph/datasets/cit-Patents.csv" df = pd.read_csv(url, sep=" ", names=["src", "dst"], dtype="int32") G = nx.from_pandas_edgelist(df, source="src", target="dst") %time result = nx.betweenness_centrality(G, k=10) ``` Run the command: ``` user@machine:/# ipython bc_demo.ipy CPU times: user 7min 36s, sys: 5.22 s, total: 7min 41s Wall time: 7min 41s ``` You will observe a run time of approximately 7 minutes...more or less depending on your CPU. Run the command again, this time specifying cugraph as the NetworkX backend. ```bash user@machine:/# NX_CUGRAPH_AUTOCONFIG=True ipython bc_demo.ipy CPU times: user 4.14 s, sys: 1.13 s, total: 5.27 s Wall time: 5.32 s ``` This run will be much faster, typically around 5 seconds depending on your GPU.
*Note, the examples above were run using the following specs*:     *NetworkX 3.4*
    *nx-cugraph 24.10*
    *CPU: Intel(R) Xeon(R) Gold 6128 CPU @ 3.40GHz 45GB RAM*
    *GPU: NVIDIA Quadro RTX 8000 80GB RAM*
--- The latest list of algorithms supported by `nx-cugraph` can be found in [GitHub](https://github.com/rapidsai/nx-cugraph/blob/HEAD/README.md#supported-algorithms), or in the [Supported Algorithms Section](supported-algorithms.md).