RUNOPF Runs an optimal power flow.
[RESULTS, SUCCESS] = RUNOPF(CASEDATA, MPOPT, FNAME, SOLVEDCASE)
Runs an optimal power flow (AC OPF by default), optionally returning
a RESULTS struct and SUCCESS flag.
Inputs (all are optional):
CASEDATA : either a MATPOWER case struct or a string containing
the name of the file with the case data (default is 'case9')
(see also CASEFORMAT and LOADCASE)
MPOPT : MATPOWER options struct to override default options
can be used to specify the solution algorithm, output options
termination tolerances, and more (see also MPOPTION).
FNAME : name of a file to which the pretty-printed output will
be appended
SOLVEDCASE : name of file to which the solved case will be saved
in MATPOWER case format (M-file will be assumed unless the
specified name ends with '.mat')
Outputs (all are optional):
RESULTS : results struct, with the following fields:
(all fields from the input MATPOWER case, i.e. bus, branch,
gen, etc., but with solved voltages, power flows, etc.)
order - info used in external <-> internal data conversion
et - elapsed time in seconds
success - success flag, 1 = succeeded, 0 = failed
(additional OPF fields, see OPF for details)
SUCCESS : the success flag can additionally be returned as
a second output argument
Calling syntax options:
results = runopf;
results = runopf(casedata);
results = runopf(casedata, mpopt);
results = runopf(casedata, mpopt, fname);
results = runopf(casedata, mpopt, fname, solvedcase);
[results, success] = runopf(...);
Alternatively, for compatibility with previous versions of MATPOWER,
some of the results can be returned as individual output arguments:
[baseMVA, bus, gen, gencost, branch, f, success, et] = runopf(...);
Example:
results = runopf('case30');
See also RUNDCOPF, RUNUOPF.0001 function [MVAbase, bus, gen, gencost, branch, f, success, et] = ... 0002 runopf(casedata, mpopt, fname, solvedcase) 0003 %RUNOPF Runs an optimal power flow. 0004 % [RESULTS, SUCCESS] = RUNOPF(CASEDATA, MPOPT, FNAME, SOLVEDCASE) 0005 % 0006 % Runs an optimal power flow (AC OPF by default), optionally returning 0007 % a RESULTS struct and SUCCESS flag. 0008 % 0009 % Inputs (all are optional): 0010 % CASEDATA : either a MATPOWER case struct or a string containing 0011 % the name of the file with the case data (default is 'case9') 0012 % (see also CASEFORMAT and LOADCASE) 0013 % MPOPT : MATPOWER options struct to override default options 0014 % can be used to specify the solution algorithm, output options 0015 % termination tolerances, and more (see also MPOPTION). 0016 % FNAME : name of a file to which the pretty-printed output will 0017 % be appended 0018 % SOLVEDCASE : name of file to which the solved case will be saved 0019 % in MATPOWER case format (M-file will be assumed unless the 0020 % specified name ends with '.mat') 0021 % 0022 % Outputs (all are optional): 0023 % RESULTS : results struct, with the following fields: 0024 % (all fields from the input MATPOWER case, i.e. bus, branch, 0025 % gen, etc., but with solved voltages, power flows, etc.) 0026 % order - info used in external <-> internal data conversion 0027 % et - elapsed time in seconds 0028 % success - success flag, 1 = succeeded, 0 = failed 0029 % (additional OPF fields, see OPF for details) 0030 % SUCCESS : the success flag can additionally be returned as 0031 % a second output argument 0032 % 0033 % Calling syntax options: 0034 % results = runopf; 0035 % results = runopf(casedata); 0036 % results = runopf(casedata, mpopt); 0037 % results = runopf(casedata, mpopt, fname); 0038 % results = runopf(casedata, mpopt, fname, solvedcase); 0039 % [results, success] = runopf(...); 0040 % 0041 % Alternatively, for compatibility with previous versions of MATPOWER, 0042 % some of the results can be returned as individual output arguments: 0043 % 0044 % [baseMVA, bus, gen, gencost, branch, f, success, et] = runopf(...); 0045 % 0046 % Example: 0047 % results = runopf('case30'); 0048 % 0049 % See also RUNDCOPF, RUNUOPF. 0050 0051 % MATPOWER 0052 % Copyright (c) 1996-2016, Power Systems Engineering Research Center (PSERC) 0053 % by Ray Zimmerman, PSERC Cornell 0054 % 0055 % This file is part of MATPOWER. 0056 % Covered by the 3-clause BSD License (see LICENSE file for details). 0057 % See http://www.pserc.cornell.edu/matpower/ for more info. 0058 0059 %%----- initialize ----- 0060 %% default arguments 0061 if nargin < 4 0062 solvedcase = ''; %% don't save solved case 0063 if nargin < 3 0064 fname = ''; %% don't print results to a file 0065 if nargin < 2 0066 mpopt = mpoption; %% use default options 0067 if nargin < 1 0068 casedata = 'case9'; %% default data file is 'case9.m' 0069 end 0070 end 0071 end 0072 end 0073 0074 %%----- run the optimal power flow ----- 0075 [r, success] = opf(casedata, mpopt); 0076 0077 %%----- output results ----- 0078 if fname 0079 [fd, msg] = fopen(fname, 'at'); 0080 if fd == -1 0081 error(msg); 0082 else 0083 if mpopt.out.all == 0 0084 printpf(r, fd, mpoption(mpopt, 'out.all', -1)); 0085 else 0086 printpf(r, fd, mpopt); 0087 end 0088 fclose(fd); 0089 end 0090 end 0091 printpf(r, 1, mpopt); 0092 0093 %% save solved case 0094 if solvedcase 0095 savecase(solvedcase, r); 0096 end 0097 0098 if nargout == 1 || nargout == 2 0099 MVAbase = r; 0100 bus = success; 0101 elseif nargout > 2 0102 [MVAbase, bus, gen, gencost, branch, f, et] = ... 0103 deal(r.baseMVA, r.bus, r.gen, r.gencost, r.branch, r.f, r.et); 0104 % else %% don't define MVAbase, so it doesn't print anything 0105 end