gpmetis(1)
manual page for gpmetis 5.1.0
SYNOPSIS
gpmetis
[options] graphfile nparts
DESCRIPTION
-
Required parameters
- graphfile
-
Stores the graph to be partitioned.
- nparts
-
The number of partitions to split the graph.
-
Optional parameters
-
-ptype=string
-
- Specifies the scheme to be used for computing the k-way partitioning.
The possible values are:
- rb
-
- Recursive bisectioning
- kway
-
- Direct k-way partitioning [default]
-
-ctype=string
-
- Specifies the scheme to be used to match the vertices of the graph
during the coarsening.
The possible values are:
- rm
-
- Random matching
- shem
-
- Sorted heavy-edge matching [default]
-
-iptype=string [applies only when -ptype=rb]
-
- Specifies the scheme to be used to compute the initial partitioning
of the graph.
The possible values are:
- grow
-
- Grow a bisection using a greedy scheme [default for ncon=1]
- random
-
- Compute a bisection at random [default for ncon>1]
-
-objtype=string [applies only when -ptype=kway]
-
- Specifies the objective that the partitioning routines will optimize.
The possible values are:
- cut
-
- Minimize the edgecut [default]
- vol
-
- Minimize the total communication volume
-
-no2hop
-
- Specifies that the coarsening will not perform any 2-hop matchings
when the standard matching fails to sufficiently contract the graph.
-
-contig [applies only when -ptype=kway]
-
- Specifies that the partitioning routines should try to produce
partitions that are contiguous. Note that if the input graph is not
connected this option is ignored.
-
-minconn [applies only when -ptype=kway]
-
- Specifies that the partitioning routines should try to minimize the
maximum degree of the subdomain graph, i.e., the graph in which each
partition is a node, and edges connect subdomains with a shared
interface.
-
-tpwgts=filename
-
- Specifies the name of the file that stores the target weights for
each partition. By default, all partitions are assumed to be of
the same size.
-
-ufactor=int
-
- Specifies the maximum allowed load imbalance among the partitions.
A value of x indicates that the allowed load imbalance is 1+x/1000.
For ptype=rb, the load imbalance is measured as the ratio of the
2*max(left,right)/(left+right), where left and right are the sizes
of the respective partitions at each bisection.
For ptype=kway, the load imbalance is measured as the ratio of
max_i(pwgts[i])/avgpwgt, where pwgts[i] is the weight of the ith
partition and avgpwgt is the sum of the total vertex weights divided
by the number of partitions requested.
For ptype=rb, the default value is 1 (i.e., load imbalance of 1.001).
For ptype=kway, the default value is 30 (i.e., load imbalance of 1.03).
-
-ubvec=string
-
- Applies only for multi-constraint partitioning and specifies the per
constraint allowed load imbalance among partitions. The required
parameter corresponds to a space separated set of floating point
numbers, one for each of the constraints. For example, for three
constraints, the string can be "1.02 1.2 1.35" indicating a
desired maximum load imbalance of 2%, 20%, and 35%, respectively.
The load imbalance is defined in a way similar to ufactor.
If supplied, this parameter takes priority over ufactor.
-
-niter=int
-
- Specifies the number of iterations for the refinement algorithms
at each stage of the uncoarsening process. Default is 10.
-
-ncuts=int
-
- Specifies the number of different partitionings that it will compute.
The final partitioning is the one that achieves the best edgecut or
communication volume. Default is 1.
-
-nooutput
-
- Specifies that no partitioning file should be generated.
-
-seed=int
-
- Selects the seed of the random number generator.
-
-dbglvl=int
-
- Selects the dbglvl.
-
-help
-
- Prints this message.