% % function to call the gmap module of the scotch partitioner. % % [status,maptab]=gmap(adj_mat,vlist,vwgt,ewgt,atype,apar,... % options) % % where the required input is: % adj_mat (double [sparse nv x nv], vertex adjacency matrix) % vlist (double [nv], vertex labels or []) % vwgt (double [nv], vertex weights (integers) or []) % ewgt (double [sparse nv x nv], edge weights (integers) or []) % atype (character, architecture type) % 'cmplt' complete graph % 'cmpltw' weighted complete graph % 'hcub' binary hypercube % 'leaf' tree-leaf architecture % 'mesh2d' bidimensional array % 'mesh3d' tridimensional array % 'torus2d' bidimensional array with wraparound edges % 'torus3d' tridimensional array with wraparound edges % apars (double, architecture params (corresponding to atype)) % [size] cmplt % [size load0 load1 ...] cmpltw % [dim] hcub % [height cluster weight] leaf % [dimX dimY] mesh2d % [dimX dimY dimZ] mesh3d % [dimX dimY] torus2d % [dimX dimY dimZ] torus3d % % the required output is: % status (double, return code from gmap) % maptab (double [nv x 2], vertex labels and partitions) % % the optional input is: % options (character, options to gmap) % " -h : Display this help" % " -m : Set mapping strategy (see user's manual)" % " -s : Force unity weights on :" % " e : edges" % " v : vertices" % " -V : Print program version and copyright" % " -v : Set verbose mode to :" % " m : mapping information" % " s : strategy information" % " t : timing information" % "" % "See default strategy with option '-vs'" % function [status,maptab]=gmap(adj_mat,vlist,vwgt,ewgt,atype,apars,... varargin) if ~nargin help gmap return end % gmap_mex uses static variables, so clear those out before every run clear gmap_mex [status,maptab]=gmap_mex(adj_mat,vlist,vwgt,ewgt,atype,apars,... varargin{:}); end