## GAP/GAP-road

GAP benchmark: road

Name | GAP-road |
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Group | GAP |

Matrix ID | 2854 |

Num Rows | 23,947,347 |

Num Cols | 23,947,347 |

Nonzeros | 57,708,624 |

Pattern Entries | 57,708,624 |

Kind | Directed Weighted Graph |

Symmetric | Yes |

Date | 2017 |

Author | C. Demetrescu, A. V. Goldberg, D. S. Johnson |

Editor | S. Beamer, K. Asanovic, D. Patterson |

Download | MATLAB Rutherford Boeing Matrix Market |
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Notes |
GAP/GAP-road matrix: this is the 'road' graph from the GAP benchmark suite, as described in "The GAP Benchmark Suite", by Scott Beamer, Krste Asanovic', and David Patterson, https://arxiv.org/abs/1508.03619. In that paper, the Road graph is described as follows: Road (|V|=23.9M, |E|=58.3M, directed) is the distances of all of the roads in the USA [10]. Although it is substantially smaller than the rest of the graphs, it has a high diameter which can cause some synchronous implementations to have long runtimes. [10] 9th DIMACS implementation challenge -- shortest paths. http://www.dis.uniroma1.it/challenge9/, 2006. The pattern already appears in the SuiteSparse Matrix Collection as DIMACS10/road_usa, which is a binary matrix, but the GAP benchmark includes integer weights for the edges, in the range 1 to 368,885. The mean edge weight is 2949.1, the median edge weight is 1447, and the standard deviation is 4074. The graph has exactly n = 23,947,347 nodes and nnz (A) = 57,708,624 edges. The DIMACS9 page reports a higher number of edges (58,333,344); this higher count includes duplicate entries that appear in the DIMACS9 graph but not in the GAP/GAP-road graph. Those duplicates are also discarded here. In the GAP/GAP-road gragh, duplicates have been discarded. If two edges (i,j) appear in the file with different edge weights, the edge weight appearing earlier in the file is discarded and replaced with the latter edge weight. All three versions of the graph have no self-edges. Note that the GAP paper states that the graph is directed, but the GAP data actually reflects a symmetric matrix, including symmetric edge weights. However, the GAP benchmark treats the graph as *directed*, not undirected. Thus, the Problem.kind string for this problem is listed here as "directed weighted graph". The edge count of 57,708,624 includes edges in both the upper and lower triangular part of the adjacency matrix. The following shows the relationship between the two versions of this graph in this collection: Prob1 = ssget ('DIMACS10/road_usa') Prob2 = ssget ('GAP/GAP-road') A1 = Prob1.A ; A2 = Prob2.A ; assert (isequal (A1, spones (A2))) ; If the original data from the DIMACS9 file USA-road-d.USA.gr is imported into MATLAB as the vectors I, J, and X (of length e = 58,333,344), then the GAP problem is identical to the following matrix A3, using the MATLAB interface to GraphBLAS: A3 = GrB.build (I, J, X, n, n, '2nd') ; assert (isequal (A2, A3)) ; In fact, the duplicates seem to be identical in edge weight since the A4 matrix is also identical to the GAP/GAP-road matrix: A4 = GrB.build (I, J, X, n, n, '1st') ; assert (isequal (A2, A4)) ; The GAP breadth-first-search (BFS) benchmark generates 64 random source nodes and evaluates the time to compute the BFS from each of the 64 sources. The betweenness-centrality (BC) runs 16 trials with 4 source nodes each. These source nodes are the same, in the same order. That is, the first 4 BFS source nodes are the same 4 source nodes for the first trial of BC. In ONE-based notation (where nodes are numbered 1 to n), the 64 source nodes are: 4795721 21003854 417969 6496512 6648700 9811074 22247479 5720253 12366460 20413730 4217375 2674750 22085558 19445041 2360789 19115969 7758768 13468235 30368 18599548 7526109 16836281 12742068 7697996 5876444 9616341 2497674 10052291 12493058 1670856 2760680 2460942 8489651 5005226 8744646 8512024 21912166 1105391 15432164 1600178 19079470 16516638 20202567 21372804 2898010 8491278 18798318 23757561 17161820 23180740 10997086 3730631 1079069 15426823 12190926 1155219 10693489 14434836 19963340 3486186 18383270 20269909 12370765 7843141 The first row are the 4 source nodes for the first BC trial, the 2nd row is for the second BC trial, and so on. These node ids also appear as Problem.aux.sources, in one-based notation. One-based notation is used because the Matrix Market format is one-based, as is MATLAB. If you use a zero-based method (such as the GAP benchmark itself, or the C API to GraphBLAS), be sure to subtract one from the node ids above (and in Problem.aux.sources) to obtain the right source nodes. The original DIMACS9 problem (and edge weights) was currated by Camil Demetrescu, Andrew V. Goldberg, and David S. Johnson. It was then added to the GAP benchmark by Scott Beamer, Krste Asanovic', and David Patterson, with duplicate edges removed. Edge weights were discarded when the problem was included in the DIMACS10 data set. GAP/GAP-road was then added to the SuiteSparse Matrix Collection by Tim Davis, from the GAP benchmark data set. |