NCEPLIBS-sp 2.4.0
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Spectrally truncate to gradients. More...
Go to the source code of this file.
Functions/Subroutines | |
subroutine | sptrund (IROMB, MAXWV, IDRTI, IMAXI, JMAXI, IDRTO, IMAXO, JMAXO, KMAX, IPRIME, ISKIPI, JSKIPI, KSKIPI, ISKIPO, JSKIPO, KSKIPO, JCPU, GRID, GRIDMN, GRIDX, GRIDY) |
THIS SUBPROGRAM SPECTRALLY TRUNCATES SCALAR FIELDS ON A GLOBAL CYLINDRICAL GRID, RETURNING THEIR MEANS AND GRADIENTS TO A POSSIBLY DIFFERENT GLOBAL CYLINDRICAL GRID. More... | |
subroutine sptrund | ( | IROMB, | |
MAXWV, | |||
IDRTI, | |||
IMAXI, | |||
JMAXI, | |||
IDRTO, | |||
IMAXO, | |||
JMAXO, | |||
KMAX, | |||
IPRIME, | |||
ISKIPI, | |||
JSKIPI, | |||
KSKIPI, | |||
ISKIPO, | |||
JSKIPO, | |||
KSKIPO, | |||
JCPU, | |||
real, dimension(*) | GRID, | ||
GRIDMN, | |||
real, dimension(*) | GRIDX, | ||
real, dimension(*) | GRIDY | ||
) |
THIS SUBPROGRAM SPECTRALLY TRUNCATES SCALAR FIELDS ON A GLOBAL CYLINDRICAL GRID, RETURNING THEIR MEANS AND GRADIENTS TO A POSSIBLY DIFFERENT GLOBAL CYLINDRICAL GRID.
THE WAVE-SPACE CAN BE EITHER TRIANGULAR OR RHOMBOIDAL. EITHER GRID-SPACE CAN BE EITHER AN EQUALLY-SPACED GRID (WITH OR WITHOUT POLE POINTS) OR A GAUSSIAN GRID. THE GRID FIELDS MAY HAVE GENERAL INDEXING. THE TRANSFORMS ARE ALL MULTIPROCESSED. OVER ZONAL WAVENUMBER TO ENSURE REPRODUCIBILITY. TRANSFORM SEVERAL FIELDS AT A TIME TO IMPROVE VECTORIZATION. SUBPROGRAM CAN BE CALLED FROM A MULTIPROCESSING ENVIRONMENT.
IROMB | - INTEGER SPECTRAL DOMAIN SHAPE (0 FOR TRIANGULAR, 1 FOR RHOMBOIDAL) |
MAXWV | - INTEGER SPECTRAL TRUNCATION |
IDRTI | - INTEGER INPUT GRID IDENTIFIER (IDRTI=4 FOR GAUSSIAN GRID, IDRTI=0 FOR EQUALLY-SPACED GRID INCLUDING POLES, IDRTI=256 FOR EQUALLY-SPACED GRID EXCLUDING POLES) |
IMAXI | - INTEGER EVEN NUMBER OF INPUT LONGITUDES. |
JMAXI | - INTEGER NUMBER OF INPUT LATITUDES. |
IDRTO | - INTEGER OUTPUT GRID IDENTIFIER (IDRTO=4 FOR GAUSSIAN GRID, IDRTO=0 FOR EQUALLY-SPACED GRID INCLUDING POLES, IDRTO=256 FOR EQUALLY-SPACED GRID EXCLUDING POLES) |
IMAXO | - INTEGER EVEN NUMBER OF OUTPUT LONGITUDES. |
JMAXO | - INTEGER NUMBER OF OUTPUT LATITUDES. |
KMAX | - INTEGER NUMBER OF FIELDS TO TRANSFORM. |
IPRIME | - INTEGER INPUT LONGITUDE INDEX FOR THE PRIME MERIDIAN. (DEFAULTS TO 1 IF IPRIME=0) (OUTPUT LONGITUDE INDEX FOR PRIME MERIDIAN ASSUMED 1.) |
ISKIPI | - INTEGER SKIP NUMBER BETWEEN INPUT LONGITUDES (DEFAULTS TO 1 IF ISKIPI=0) |
JSKIPI | - INTEGER SKIP NUMBER BETWEEN INPUT LATITUDES FROM SOUTH (DEFAULTS TO -IMAXI IF JSKIPI=0) |
KSKIPI | - INTEGER SKIP NUMBER BETWEEN INPUT GRID FIELDS (DEFAULTS TO IMAXI*JMAXI IF KSKIPI=0) |
ISKIPO | - INTEGER SKIP NUMBER BETWEEN OUTPUT LONGITUDES (DEFAULTS TO 1 IF ISKIPO=0) |
JSKIPO | - INTEGER SKIP NUMBER BETWEEN OUTPUT LATITUDES FROM SOUTH (DEFAULTS TO -IMAXO IF JSKIPO=0) |
KSKIPO | - INTEGER SKIP NUMBER BETWEEN OUTPUT GRID FIELDS (DEFAULTS TO IMAXO*JMAXO IF KSKIPO=0) |
JCPU | - INTEGER NUMBER OF CPUS OVER WHICH TO MULTIPROCESS (DEFAULTS TO ENVIRONMENT NCPUS IF JCPU=0) |
GRID | - REAL (*) INPUT GRID FIELDS |
GRIDMN | - REAL (KMAX) OUTPUT GLOBAL MEANS |
GRIDX | - REAL (*) OUTPUT X-GRADIENTS |
GRIDY | - REAL (*) OUTPUT Y-GRADIENTS |
SUBPROGRAMS CALLED:
REMARKS: MINIMUM GRID DIMENSIONS FOR UNALIASED TRANSFORMS TO SPECTRAL:
DIMENSION | LINEAR | QUADRATIC |
---|---|---|
IMAX | 2*MAXWV+2 | 3*MAXWV/2*2+2 |
JMAX (IDRT=4,IROMB=0) | 1*MAXWV+1 | 3*MAXWV/2+1 |
JMAX (IDRT=4,IROMB=1) | 2*MAXWV+1 | 5*MAXWV/2+1 |
JMAX (IDRT=0,IROMB=0) | 2*MAXWV+3 | 3*MAXWV/2*2+3 |
JMAX (IDRT=0,IROMB=1) | 4*MAXWV+3 | 5*MAXWV/2*2+3 |
JMAX (IDRT=256,IROMB=0) | 2*MAXWV+1 | 3*MAXWV/2*2+1 |
JMAX (IDRT=256,IROMB=1) | 4*MAXWV+1 | 5*MAXWV/2*2+1 |