RE: runopf() - optional step control
Got it! Thank you very much. Best regards, André From: bounce-120902626-76858...@list.cornell.edu [mailto:bounce-120902626-76858...@list.cornell.edu] On Behalf Of Ray Zimmerman Sent: segunda-feira, 17 de outubro de 2016 19:58 To: MATPOWER discussion forum <matpowe...@list.cornell.edu> Subject: Re: runopf() - optional step control It attempts to avoid steps that are too large and can help improve robustness of convergence in some cases. Ray On Oct 17, 2016, at 4:53 AM, André Carvalho da Silva <andre.c.si...@inesctec.pt <mailto:andre.c.si...@inesctec.pt> > wrote: Hello everyone, I’ve been wondering about what does the “optional step-control” part of the MIPS algorithm serves for. Ok, I understand it must be associated with the MIPS alphaD and alphaP steps, but I wonder for what kind of particular conditions it is useful. Does it try to accelerate convergence? Does it solve convergence problems? Thank you in advance. Best regards, André
Re: runopf() - optional step control
It attempts to avoid steps that are too large and can help improve robustness of convergence in some cases. Ray > On Oct 17, 2016, at 4:53 AM, André Carvalho da Silva >wrote: > > Hello everyone, > > I’ve been wondering about what does the “optional step-control” part of the > MIPS algorithm serves for. > > Ok, I understand it must be associated with the MIPS alphaD and alphaP steps, > but I wonder for what kind of particular conditions it is useful. > > Does it try to accelerate convergence? Does it solve convergence problems? > > Thank you in advance. > > Best regards, > André
runopf() - optional step control
Hello everyone, Ive been wondering about what does the optional step-control part of the MIPS algorithm serves for. Ok, I understand it must be associated with the MIPS alphaD and alphaP steps, but I wonder for what kind of particular conditions it is useful. Does it try to accelerate convergence? Does it solve convergence problems? Thank you in advance. Best regards, André