newuoa: An R interface to the NEWUOA implementation of Powell
In minqa: Derivative-Free Optimization Algorithms by Quadratic Approximation
newuoa R Documentation
An R interface to the NEWUOA implementation of Powell
Description
The purpose of newuoa is to minimize a function of many variables
by a trust region method that forms quadratic models by interpolation.
Usage
newuoa(par, fn, control = list(), ...)
Arguments
par
A numeric vector of starting estimates.
fn
A function that returns the value of the objective at the
supplied set of parameters par using auxiliary data in ....
The first argument of fn must be par.
control
An optional list of control settings. See the details section for
the names of the settable control values and their effect.
...
Further arguments to be passed to fn.
Details
Functions fn must return a numeric value.
The control argument is a list; possible named values in the
list and their defaults are:
- npt
-
The number of points used to approximate the objective function
via a quadratic approximation. The value of npt must be in the
interval [n+2,(n+1)(n+2)/2] where n is the number of
parameters in par. Choices that exceed 2*n+1 are not
recommended. If not defined, it will be set to \min(n * 2,
n+2).
- rhobeg
-
rhobeg and rhoend must be set to the initial and final
values of a trust region radius, so both must be positive with
0 < rhoend < rhobeg. Typically rhobeg should be about
one tenth of the greatest expected change to a variable. If the
user does not provide a value, this will be set to max(par)
/ 2)
- rhoend
-
The smallest value of the trust region radius that is allowed. If
not defined, then 1e-6 times the value set for rhobeg will be
used.
- iprint
-
The value of iprint should be set to an integer value in
0, 1, 2, 3, ...,
which controls the amount of printing. Specifically, there is no
output if iprint=0 and there is output only at the start
and the return if
iprint=1. Otherwise, each new value of rho is printed,
with the best vector of variables so far and the corresponding value
of the objective function. Further, each new value of the objective
function with its variables are output if iprint=3.
If iprint > 3, the objective
function value and corresponding variables are output every iprint
evaluations.
Default value is 0.
- maxfun
-
The maximum allowed number of function evaluations. If this is
exceeded, the method will terminate.
Value
A list with components:
par
The best set of parameters found.
fval
The value of the objective at the best set of parameters found.
feval
Number of function evaluations to determine the optimum
ierr
An integer error code. A value of zero indicates
success. Other values (consistent with BOBYQA values) are
- 1
maximum number of function evaluations exceeded
- 2
NPT, the number of approximation points, is not in the required interval
- 3
a trust region step failed to reduce q (Consult Powell for explanation.)
- 5
newuoa detected too much cancellation in denominator (We have not fully
understood Powell's code to explain this.)
msg
A message describing the outcome of UOBYQA
References
M. J. D. Powell, "The NEWUOA software for unconstrained optimization
without derivatives",
in Large-Scale Nonlinear Optimization, Series: Nonconvex
Optimization and Its Applications , Vol. 83, Di Pillo, Gianni;
Roma, Massimo (Eds.) 2006, New York: Springer US.
M. J. D. Powell,
"Developments of NEWUOA for minimization without derivatives"
IMA Journal of Numerical Analysis, 2008; 28: 649-664.
M. J. D. Powell (2007)
"Developments of NEWUOA for unconstrained minimization without
derivatives"
Cambridge University, Department of Applied Mathematics and
Theoretical Physics,
Numerical Analysis Group, Report NA2007/05,
http://www.damtp.cam.ac.uk/user/na/NA_papers/NA2007_05.pdf.
Description was taken from comments in the Fortran code of
M. J. D. Powell on which minqa is based.
See Also
optim, nlminb
Examples
fr <- function(x) { ## Rosenbrock Banana function
100 * (x[2] - x[1]^2)^2 + (1 - x[1])^2
}
(x2 <- newuoa(c(1, 2), fr))
## => optimum at c(1, 1) with fval = 0
# check the error exits
# too many iterations
x2e<-newuoa(c(1, 2), fr, control = list(maxfun=50))
str(x2e)
# Throw an error because npt is too small -- does NOT work as of 2010-8-10 as
# minqa.R seems to force a reset.
x2n<-newuoa(c(2,2), fr, control=list(npt=1))
str(x2n)
# To add if we can find them -- examples of ierr = 3 and ierr = 5.
minqa documentation built on Sept. 11, 2023, 9:06 a.m.
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| newuoa | R Documentation |
An R interface to the NEWUOA implementation of Powell
Description
The purpose of newuoa is to minimize a function of many variables
by a trust region method that forms quadratic models by interpolation.
Usage
newuoa(par, fn, control = list(), ...)
Arguments
par |
A numeric vector of starting estimates. |
fn |
A function that returns the value of the objective at the
supplied set of parameters |
control |
An optional list of control settings. See the details section for the names of the settable control values and their effect. |
... |
Further arguments to be passed to |
Details
Functions fn must return a numeric value.
The control argument is a list; possible named values in the
list and their defaults are:
- npt
-
The number of points used to approximate the objective function via a quadratic approximation. The value of npt must be in the interval
[n+2,(n+1)(n+2)/2]wherenis the number of parameters inpar. Choices that exceed2*n+1are not recommended. If not defined, it will be set to\min(n * 2, n+2). - rhobeg
-
rhobegandrhoendmust be set to the initial and final values of a trust region radius, so both must be positive with0 < rhoend < rhobeg. Typicallyrhobegshould be about one tenth of the greatest expected change to a variable. If the user does not provide a value, this will be set tomax(par) / 2) - rhoend
-
The smallest value of the trust region radius that is allowed. If not defined, then 1e-6 times the value set for
rhobegwill be used. - iprint
-
The value of
iprintshould be set to an integer value in0, 1, 2, 3, ..., which controls the amount of printing. Specifically, there is no output ifiprint=0and there is output only at the start and the return ifiprint=1. Otherwise, each new value ofrhois printed, with the best vector of variables so far and the corresponding value of the objective function. Further, each new value of the objective function with its variables are output ifiprint=3. Ifiprint > 3, the objective function value and corresponding variables are output everyiprintevaluations. Default value is0. - maxfun
-
The maximum allowed number of function evaluations. If this is exceeded, the method will terminate.
Value
A list with components:
par |
The best set of parameters found. |
fval |
The value of the objective at the best set of parameters found. |
feval |
Number of function evaluations to determine the optimum |
ierr |
An integer error code. A value of zero indicates success. Other values (consistent with BOBYQA values) are
|
msg |
A message describing the outcome of UOBYQA |
References
M. J. D. Powell, "The NEWUOA software for unconstrained optimization without derivatives", in Large-Scale Nonlinear Optimization, Series: Nonconvex Optimization and Its Applications , Vol. 83, Di Pillo, Gianni; Roma, Massimo (Eds.) 2006, New York: Springer US.
M. J. D. Powell, "Developments of NEWUOA for minimization without derivatives" IMA Journal of Numerical Analysis, 2008; 28: 649-664.
M. J. D. Powell (2007) "Developments of NEWUOA for unconstrained minimization without derivatives" Cambridge University, Department of Applied Mathematics and Theoretical Physics, Numerical Analysis Group, Report NA2007/05, http://www.damtp.cam.ac.uk/user/na/NA_papers/NA2007_05.pdf.
Description was taken from comments in the Fortran code of M. J. D. Powell on which minqa is based.
See Also
optim, nlminb
Examples
fr <- function(x) { ## Rosenbrock Banana function
100 * (x[2] - x[1]^2)^2 + (1 - x[1])^2
}
(x2 <- newuoa(c(1, 2), fr))
## => optimum at c(1, 1) with fval = 0
# check the error exits
# too many iterations
x2e<-newuoa(c(1, 2), fr, control = list(maxfun=50))
str(x2e)
# Throw an error because npt is too small -- does NOT work as of 2010-8-10 as
# minqa.R seems to force a reset.
x2n<-newuoa(c(2,2), fr, control=list(npt=1))
str(x2n)
# To add if we can find them -- examples of ierr = 3 and ierr = 5.
R Package Documentation
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We want your feedback!
Note that we can't provide technical support on individual packages. You should contact the package authors for that.
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