Provided by: gap-anupq_3.3.1-1_amd64 
NAME
anu-pq - The anupq command line interface
SYNOPSIS
anu-pq [-b] [-G] [-g] [-i] [-k] [-v] [-s <n>] [-w <file>] [-c] [-d]
DESCRIPTION
This is the man page for the ANU pq program. It briefly documents the parameters. The main documentation
is available in the guide.pdf file.
The ANU p-Quotient Program (pq) is named for the p-quotient algorithm that it first implemented. Now, via
menus it provides access to implementations of all the following algorithms:
1. A p-quotient algorithm to compute a power-commutator presentation for a p- group. The algorithm
implemented here is based on that described in Newman and O’Brien (1996), Havas and Newman (1980),
and papers referred to there. Another description of the algorithm appears in Vaughan-Lee (1990b). A
FOR- TRAN implementation of this algorithm was programmed by Alford & Havas. The basic data
structures of that implementation are retained. The current implementation incorporates the following
features: a. collection from the left (see Vaughan-Lee, 1990b); Vaughan-Lee’s implemen- tation of
this collection algorithm is used in the program; b. an improved consistency algorithm (see
Vaughan-Lee, 1982); c. new exponent law enforcement and power routines; d. closing of relations under
the action of automorphisms; e. some formula evaluation.
2. A p-group generation algorithm to generate descriptions of p-groups.
3. A standard presentation algorithm used to compute a canonical power-commutator presentation of a
p-group.
4. An algorithm which can be used to compute the automorphism group of a p- group.
OPTIONS
The options -l, -r and -e can be used to enforce Engel conditions on the nilpotent quotient to be
calculated. All these options have to be followed by a positive integer <n>. Their meaning is the
following:
The program may be invoked with the following runtime parameters:
• -b: A “basic\ format can be used to input a group presentation. See ??.
• -G: This option is used by GAP 4. It is essentially equivalent to setting the switches -g -i -k
simultaneously, except that it uses GAP’s iostream to direct requests to GAP to compute stabilisers
when necessary.
• -g: If groups are generated using p-group generation, then their presentations are written to a file
in a GAP compatible format. The name of the file may be selected using the -w option; the default is
GAP library. -iThis provides access to the Standard Presentation Menu, which can be used to construct
the standard presentation of a given p-group.
• -k: The presentation may be defined and supplied using certain key words. Examples of this format can
be found in those files in the examples directory whose names commence with keywords . This option
cannot be used with -b.
• -s <n>: All computations of power-commutator presentations occur in an integer array, y – the space
of this array, by default 1000000, is set to n. See the discussion on strategies to minimise time and
space later in this document.
• -v: Gives the version of the ANU p-Quotient program and exits.
• -w <file> Group descriptions are written in GAP format to file. -g must be used in con- junction with
this parameter. If the program is compiled using the RUN TIME option, then there are two additional
runtime options:
• -c: The maximum exponent-p class to be considered.
• -d: A bound on the number of defining generator
• -n <k>: This option forces the first k generators to be left or right Engel element if also the
option -l or -r (or both) is present. Otherwise it is ignored.
COPYRIGHT
The ANU nq program is Copyright (C) by Greg Gamble Greg.Gamble@uwa.edu.au, Werner Nickel, Eamonn O'Brien
obrien@math.auckland.ac.nz, Max Horn horn@mathematik.uni-kl.de.
SEE ALSO
The anu-pq guide /usr/share/gap/pkg/anupq/standalone-doc/guide.pdf
November 2024 ANU-PQ(1)