Visible to Intel only — GUID: GUID-654B56A8-AC2D-416B-980E-ED6D78408D9A
Visible to Intel only — GUID: GUID-654B56A8-AC2D-416B-980E-ED6D78408D9A
?jacobix
Alternative interface for?jacobi function for passing additional data into the objective function.
res = sjacobix(fcn, n, m, fjac, x, eps, user_data)
res = djacobix(fcn, n, m, fjac, x, eps, user_data)
- Fortran: mkl_rci.fi, mkl_rci.f90
The ?jacobix routine presents an alternative interface for the ?jacobi function that enables you to pass additional data into the objective function fcn.
See calling and usage examples in the examples\solverf\source folderof your Intel® oneAPI Math Kernel Library directory. Specifically, see ex_nlsqp_f90_x.f90 and ex_nlsqp_bc_f90_x.f90.
- fcn
-
User-supplied subroutine to evaluate the function that defines the least squares problem. Called as fcn (m, n, x, f, user_data) with the following parameters:
Parameter
Type
Description
Input Parameters
m
INTEGER
Length of f.
n
INTEGER
Length of x.
x
REAL for sjacobix
DOUBLE PRECISION for djacobix
Array of size n. Vector, at which the function is evaluated. The fcn function should not change this parameter.
user_data
INTEGER(C_INTPTR_T), for Fortran
Reference to your additional data, if any, passed by value: user_data=%VAL(LOC(data)). Otherwise, a dummy argument.
Output Parameters
f
REAL for sjacobix
DOUBLE PRECISION for djacobix
Array of size m; contains the function values at x.
You need to declare fcn as EXTERNAL in the calling program.
- n
-
INTEGER. Length of X.
- m
-
INTEGER. Length of F.
- x
-
REAL for sjacobix
DOUBLE PRECISION for djacobix
Array of size n. Vector at which the function is evaluated.
- eps
-
REAL for sjacobix
DOUBLE PRECISION for djacobix
Precision of the Jacobian matrix calculation.
- user_data
-
INTEGER(C_INTPTR_T). Reference to your additional data, passed by value: user_data=%VAL(LOC(data)). Otherwise, a dummy argument.
- fjac
-
REAL for sjacobix
DOUBLE PRECISION for djacobix
Array of size m by n). Contains the Jacobian matrix of the function.
- res
-
INTEGER. Indicates task completion status.
res = TR_SUCCESS - the routine completed the task normally.
res = TR_INVALID_OPTION - there was an error in the input parameters.
res = TR_OUT_OF_MEMORY - there was a memory error.
TR_SUCCESS, TR_INVALID_OPTION, and TR_OUT_OF_MEMORY are defined in the mkl_rci.fi include file.