00001 C Work performed under the auspices of the U.S. Department of Energy 00002 C by Lawrence Livermore National Laboratory under contract number 00003 C W-7405-Eng-48. 00004 C 00005 SUBROUTINE DATV (NEQ, Y, TN, YPRIME, SAVR, V, WGHT, YPTEM, RES, 00006 * IRES, PSOL, Z, VTEM, WP, IWP, CJ, EPLIN, IER, NRE, NPSL, 00007 * RPAR,IPAR) 00008 C 00009 C***BEGIN PROLOGUE DATV 00010 C***DATE WRITTEN 890101 (YYMMDD) 00011 C***REVISION DATE 900926 (YYMMDD) 00012 C 00013 C 00014 C----------------------------------------------------------------------- 00015 C***DESCRIPTION 00016 C 00017 C This routine computes the product 00018 C 00019 C Z = (D-inverse)*(P-inverse)*(dF/dY)*(D*V), 00020 C 00021 C where F(Y) = G(T, Y, CJ*(Y-A)), CJ is a scalar proportional to 1/H, 00022 C and A involves the past history of Y. The quantity CJ*(Y-A) is 00023 C an approximation to the first derivative of Y and is stored 00024 C in the array YPRIME. Note that dF/dY = dG/dY + CJ*dG/dYPRIME. 00025 C 00026 C D is a diagonal scaling matrix, and P is the left preconditioning 00027 C matrix. V is assumed to have L2 norm equal to 1. 00028 C The product is stored in Z and is computed by means of a 00029 C difference quotient, a call to RES, and one call to PSOL. 00030 C 00031 C On entry 00032 C 00033 C NEQ = Problem size, passed to RES and PSOL. 00034 C 00035 C Y = Array containing current dependent variable vector. 00036 C 00037 C YPRIME = Array containing current first derivative of y. 00038 C 00039 C SAVR = Array containing current value of G(T,Y,YPRIME). 00040 C 00041 C V = Real array of length NEQ (can be the same array as Z). 00042 C 00043 C WGHT = Array of length NEQ containing scale factors. 00044 C 1/WGHT(I) are the diagonal elements of the matrix D. 00045 C 00046 C YPTEM = Work array of length NEQ. 00047 C 00048 C VTEM = Work array of length NEQ used to store the 00049 C unscaled version of V. 00050 C 00051 C WP = Real work array used by preconditioner PSOL. 00052 C 00053 C IWP = Integer work array used by preconditioner PSOL. 00054 C 00055 C CJ = Scalar proportional to current value of 00056 C 1/(step size H). 00057 C 00058 C 00059 C On return 00060 C 00061 C Z = Array of length NEQ containing desired scaled 00062 C matrix-vector product. 00063 C 00064 C IRES = Error flag from RES. 00065 C 00066 C IER = Error flag from PSOL. 00067 C 00068 C NRE = The number of calls to RES. 00069 C 00070 C NPSL = The number of calls to PSOL. 00071 C 00072 C----------------------------------------------------------------------- 00073 C***ROUTINES CALLED 00074 C RES, PSOL 00075 C 00076 C***END PROLOGUE DATV 00077 C 00078 INTEGER NEQ, IRES, IWP, IER, NRE, NPSL, IPAR 00079 DOUBLE PRECISION Y, TN, YPRIME, SAVR, V, WGHT, YPTEM, Z, VTEM, 00080 1 WP, CJ, RPAR 00081 DIMENSION Y(*), YPRIME(*), SAVR(*), V(*), WGHT(*), YPTEM(*), 00082 1 Z(*), VTEM(*), WP(*), IWP(*), RPAR(*), IPAR(*) 00083 INTEGER I 00084 DOUBLE PRECISION EPLIN 00085 EXTERNAL RES, PSOL 00086 C 00087 IRES = 0 00088 C----------------------------------------------------------------------- 00089 C Set VTEM = D * V. 00090 C----------------------------------------------------------------------- 00091 DO 10 I = 1,NEQ 00092 10 VTEM(I) = V(I)/WGHT(I) 00093 IER = 0 00094 C----------------------------------------------------------------------- 00095 C Store Y in Z and increment Z by VTEM. 00096 C Store YPRIME in YPTEM and increment YPTEM by VTEM*CJ. 00097 C----------------------------------------------------------------------- 00098 DO 20 I = 1,NEQ 00099 YPTEM(I) = YPRIME(I) + VTEM(I)*CJ 00100 20 Z(I) = Y(I) + VTEM(I) 00101 C----------------------------------------------------------------------- 00102 C Call RES with incremented Y, YPRIME arguments 00103 C stored in Z, YPTEM. VTEM is overwritten with new residual. 00104 C----------------------------------------------------------------------- 00105 CONTINUE 00106 CALL RES(TN,Z,YPTEM,CJ,VTEM,IRES,RPAR,IPAR) 00107 NRE = NRE + 1 00108 IF (IRES .LT. 0) RETURN 00109 C----------------------------------------------------------------------- 00110 C Set Z = (dF/dY) * VBAR using difference quotient. 00111 C (VBAR is old value of VTEM before calling RES) 00112 C----------------------------------------------------------------------- 00113 DO 70 I = 1,NEQ 00114 70 Z(I) = VTEM(I) - SAVR(I) 00115 C----------------------------------------------------------------------- 00116 C Apply inverse of left preconditioner to Z. 00117 C----------------------------------------------------------------------- 00118 CALL PSOL (NEQ, TN, Y, YPRIME, SAVR, YPTEM, CJ, WGHT, WP, IWP, 00119 1 Z, EPLIN, IER, RPAR, IPAR) 00120 NPSL = NPSL + 1 00121 IF (IER .NE. 0) RETURN 00122 C----------------------------------------------------------------------- 00123 C Apply D-inverse to Z and return. 00124 C----------------------------------------------------------------------- 00125 DO 90 I = 1,NEQ 00126 90 Z(I) = Z(I)*WGHT(I) 00127 RETURN 00128 C 00129 C------END OF SUBROUTINE DATV------------------------------------------- 00130 END
1.7.1
