all_pairs_node_connectivity#

all_pairs_node_connectivity(G, nbunch=None, flow_func=None)[source]#

Compute node connectivity between all pairs of nodes of G.

Parameters:

GNetworkX graph: Undirected graph
nbunch: container: Container of nodes. If provided node connectivity will be computed only over pairs of nodes in nbunch.
flow_funcfunction: A function for computing the maximum flow among a pair of nodes. The function has to accept at least three parameters: a Digraph, a source node, and a target node. And return a residual network that follows NetworkX conventions (see maximum_flow() for details). If flow_func is None, the default maximum flow function (edmonds_karp()) is used. See below for details. The choice of the default function may change from version to version and should not be relied on. Default value: None.

Returns:

all_pairsdict: A dictionary with node connectivity between all pairs of nodes in G, or in nbunch if provided.

See also

local_node_connectivity()
edge_connectivity()
local_edge_connectivity()
maximum_flow()
edmonds_karp()
preflow_push()
shortest_augmenting_path()

Additional backends implement this function

parallelA networkx backend that uses joblib to run graph algorithms in parallel. Find the nx-parallel’s configuration guide here

The parallel implementation first divides a list of all permutation (in case of directed graphs) and combinations (in case of undirected graphs) of nbunch into chunks and then creates a generator to lazily compute the local node connectivities for each chunk, and then employs joblib’s Parallel function to execute these computations in parallel across n_jobs number of CPU cores. At the end, the results are aggregated into a single dictionary and returned.

Additional parameters:

get_chunksstr, function (default = “chunks”): A function that takes in list(iter_func(nbunch, 2)) as input and returns an iterable pairs_chunks, here iter_func is permutations in case of directed graphs and combinations in case of undirected graphs. The default is to create chunks by slicing the list into n_jobs number of chunks, such that size of each chunk is atmost 10, and at least 1.

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