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decus_20tap2_198111
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decus/20-0026/mchb.ssp
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C MCHB 10
���C ..................................................................MCHB 20
���C MCHB 30
���C SUBROUTINE MCHB MCHB 40
���C MCHB 50
���C PURPOSE MCHB 60
���C FOR A GIVEN POSITIVE-DEFINITE M BY M MATRIX A WITH SYMMETRICMCHB 70
���C BAND STRUCTURE AND - IF NECESSARY - A GIVEN GENERAL M BY N MCHB 80
���C MATRIX R, THE FOLLOWING CALCULATIONS (DEPENDENT ON THE MCHB 90
���C VALUE OF THE DECISION PARAMETER IOP) ARE PERFORMED MCHB 100
���C (1) MATRIX A IS FACTORIZED (IF IOP IS NOT NEGATIVE), THAT MCHB 110
���C MEANS BAND MATRIX TU WITH UPPER CODIAGONALS ONLY IS MCHB 120
���C GENERATED ON THE LOCATIONS OF A SUCH THAT MCHB 130
���C TRANSPOSE(TU)*TU=A. MCHB 140
���C (2) MATRIX R IS MULTIPLIED ON THE LEFT BY INVERSE(TU) MCHB 150
���C AND/OR INVERSE(TRANSPOSE(TU)) AND THE RESULT IS STORED MCHB 160
���C IN THE LOCATIONS OF R. MCHB 170
���C THIS SUBROUTINE ESPECIALLY CAN BE USED TO SOLVE THE SYSTEM MCHB 180
���C OF SIMULTANEOUS LINEAR EQUATIONS A*X=R WITH POSITIVE- MCHB 190
���C DEFINITE COEFFICIENT MATRIX A OF SYMMETRIC BAND STRUCTURE. MCHB 200
���C MCHB 210
���C USAGE MCHB 220
���C CALL MCHB (R,A,M,N,MUD,IOP,EPS,IER) MCHB 230
���C MCHB 240
���C DESCRIPTION OF PARAMETERS MCHB 250
���C R - INPUT IN CASES IOP=-3,-2,-1,1,2,3 M BY N RIGHT MCHB 260
���C HAND SIDE MATRIX, MCHB 270
���C IN CASE IOP=0 IRRELEVANT. MCHB 280
���C OUTPUT IN CASES IOP=1,-1 INVERSE(A)*R, MCHB 290
���C IN CASES IOP=2,-2 INVERSE(TU)*R, MCHB 300
���C IN CASES IOP=3,-3 INVERSE(TRANSPOSE(TU))*R,MCHB 310
���C IN CASE IOP=0 UNCHANGED. MCHB 320
���C A - INPUT IN CASES IOP=0,1,2,3 M BY M POSITIVE-DEFINITEMCHB 330
���C COEFFICIENT MATRIX OF SYMMETRIC BAND STRUC- MCHB 340
���C TURE STORED IN COMPRESSED FORM (SEE REMARKS),MCHB 350
���C IN CASES IOP=-1,-2,-3 M BY M BAND MATRIX TU MCHB 360
���C WITH UPPER CODIAGONALS ONLY, STORED IN MCHB 370
���C COMPRESSED FORM (SEE REMARKS). MCHB 380
���C OUTPUT IN ALL CASES BAND MATRIX TU WITH UPPER MCHB 390
���C CODIAGONALS ONLY, STORED IN COMPRESSED FORM MCHB 400
���C (THAT MEANS UNCHANGED IF IOP=-1,-2,-3). MCHB 410
���C M - INPUT VALUE SPECIFYING THE NUMBER OF ROWS AND MCHB 420
���C COLUMNS OF A AND THE NUMBER OF ROWS OF R. MCHB 430
���C N - INPUT VALUE SPECIFYING THE NUMBER OF COLUMNS OF R MCHB 440
���C (IRRELEVANT IN CASE IOP=0). MCHB 450
���C MUD - INPUT VALUE SPECIFYING THE NUMBER OF UPPER MCHB 460
���C CODIAGONALS OF A. MCHB 470
���C IOP - ONE OF THE VALUES -3,-2,-1,0,1,2,3 GIVEN AS INPUT MCHB 480
���C AND USED AS DECISION PARAMETER. MCHB 490
���C EPS - INPUT VALUE USED AS RELATIVE TOLERANCE FOR TEST ON MCHB 500
���C LOSS OF SIGNIFICANT DIGITS. MCHB 510
���C IER - RESULTING ERROR PARAMETER CODED AS FOLLOWS MCHB 520
���C IER=0 - NO ERROR, MCHB 530
���C IER=-1 - NO RESULT BECAUSE OF WRONG INPUT MCHB 540
���C PARAMETERS M,MUD,IOP (SEE REMARKS), MCHB 550
���C OR BECAUSE OF A NONPOSITIVE RADICAND AT MCHB 560
���C SOME FACTORIZATION STEP, MCHB 570
���C OR BECAUSE OF A ZERO DIAGONAL ELEMENT MCHB 580
���C AT SOME DIVISION STEP. MCHB 590
���C IER=K - WARNING DUE TO POSSIBLE LOSS OF SIGNIFI- MCHB 600
���C CANCE INDICATED AT FACTORIZATION STEP K+1MCHB 610
���C WHERE RADICAND WAS NO LONGER GREATER MCHB 620
���C THAN EPS*A(K+1,K+1). MCHB 630
���C MCHB 640
���C REMARKS MCHB 650
���C UPPER PART OF SYMMETRIC BAND MATRIX A CONSISTING OF MAIN MCHB 660
���C DIAGONAL AND MUD UPPER CODIAGONALS (RESP. BAND MATRIX TU MCHB 670
���C CONSISTING OF MAIN DIAGONAL AND MUD UPPER CODIAGONALS) MCHB 680
���C IS ASSUMED TO BE STORED IN COMPRESSED FORM, I.E. ROWWISE MCHB 690
���C IN TOTALLY NEEDED M+MUD*(2M-MUD-1)/2 SUCCESSIVE STORAGE MCHB 700
���C LOCATIONS. ON RETURN UPPER BAND FACTOR TU (ON THE LOCATIONS MCHB 710
���C OF A) IS STORED IN THE SAME WAY. MCHB 720
���C RIGHT HAND SIDE MATRIX R IS ASSUMED TO BE STORED COLUMNWISE MCHB 730
���C IN N*M SUCCESSIVE STORAGE LOCATIONS. ON RETURN RESULT MATRIXMCHB 740
���C INVERSE(A)*R OR INVERSE(TU)*R OR INVERSE(TRANSPOSE(TU))*R MCHB 750
���C IS STORED COLUMNWISE TOO ON THE LOCATIONS OF R. MCHB 760
���C INPUT PARAMETERS M, MUD, IOP SHOULD SATISFY THE FOLLOWING MCHB 770
���C RESTRICTIONS MUD NOT LESS THAN ZERO, MCHB 780
���C 1+MUD NOT GREATER THAN M, MCHB 790
���C ABS(IOP) NOT GREATER THAN 3. MCHB 800
���C NO ACTION BESIDES ERROR MESSAGE IER=-1 TAKES PLACE IF THESE MCHB 810
���C RESTRICTIONS ARE NOT SATISFIED. MCHB 820
���C THE PROCEDURE GIVES RESULTS IF THE RESTRICTIONS ON INPUT MCHB 830
���C PARAMETERS ARE SATISFIED, IF RADICANDS AT ALL FACTORIZATION MCHB 840
���C STEPS ARE POSITIVE AND/OR IF ALL DIAGONAL ELEMENTS OF MCHB 850
���C UPPER BAND FACTOR TU ARE NONZERO. MCHB 860
���C MCHB 870
���C SUBROUTINES AND FUNCTION SUBPROGRAMS REQUIRED MCHB 880
���C NONE MCHB 890
���C MCHB 900
���C METHOD MCHB 910
���C FACTORIZATION IS DONE USING CHOLESKY-S SQUARE-ROOT METHOD, MCHB 920
���C WHICH GENERATES THE UPPER BAND MATRIX TU SUCH THAT MCHB 930
���C TRANSPOSE(TU)*TU=A. TU IS RETURNED AS RESULT ON THE MCHB 940
���C LOCATIONS OF A. FURTHER, DEPENDENT ON THE ACTUAL VALUE OF MCHB 950
���C IOP, DIVISION OF R BY TRANSPOSE(TU) AND/OR TU IS PERFORMED MCHB 960
���C AND THE RESULT IS RETURNED ON THE LOCATIONS OF R. MCHB 970
���C FOR REFERENCE, SEE H. RUTISHAUSER, ALGORITHMUS 1 - LINEARES MCHB 980
���C GLEICHUNGSSYSTEM MIT SYMMETRISCHER POSITIV-DEFINITER MCHB 990
���C BANDMATRIX NACH CHOLESKY - , COMPUTING (ARCHIVES FOR MCHB1000
���C ELECTRONIC COMPUTING), VOL.1, ISS.1 (1966), PP.77-78. MCHB1010
���C MCHB1020
���C ..................................................................MCHB1030
���C MCHB1040
��� SUBROUTINE MCHB(R,A,M,N,MUD,IOP,EPS,IER) MCHB1050
���C MCHB1060
���C MCHB1070
��� DIMENSION R(1),A(1) MCHB1080
��� DOUBLE PRECISION TOL,SUM,PIV MCHB1090
���C MCHB1100
���C TEST ON WRONG INPUT PARAMETERS MCHB1110
��� IF(IABS(IOP)-3)1,1,43 MCHB1120
��� 1 IF(MUD)43,2,2 MCHB1130
��� 2 MC=MUD+1 MCHB1140
��� IF(M-MC)43,3,3 MCHB1150
��� 3 MR=M-MUD MCHB1160
��� IER=0 MCHB1170
���C MCHB1180
���C MC IS THE MAXIMUM NUMBER OF ELEMENTS IN THE ROWS OF ARRAY A MCHB1190
���C MR IS THE INDEX OF THE LAST ROW IN ARRAY A WITH MC ELEMENTS MCHB1200
���C MCHB1210
���C ******************************************************************MCHB1220
���C MCHB1230
���C START FACTORIZATION OF MATRIX A MCHB1240
��� IF(IOP)24,4,4 MCHB1250
��� 4 IEND=0 MCHB1260
��� LLDST=MUD MCHB1270
��� DO 23 K=1,M MCHB1280
��� IST=IEND+1 MCHB1290
��� IEND=IST+MUD MCHB1300
��� J=K-MR MCHB1310
��� IF(J)6,6,5 MCHB1320
��� 5 IEND=IEND-J MCHB1330
��� 6 IF(J-1)8,8,7 MCHB1340
��� 7 LLDST=LLDST-1 MCHB1350
��� 8 LMAX=MUD MCHB1360
��� J=MC-K MCHB1370
��� IF(J)10,10,9 MCHB1380
��� 9 LMAX=LMAX-J MCHB1390
��� 10 ID=0 MCHB1400
��� TOL=A(IST)*EPS MCHB1410
���C MCHB1420
���C START FACTORIZATION-LOOP OVER K-TH ROW MCHB1430
��� DO 23 I=IST,IEND MCHB1440
��� SUM=0.D0 MCHB1450
��� IF(LMAX)14,14,11 MCHB1460
���C MCHB1470
���C PREPARE INNER LOOP MCHB1480
��� 11 LL=IST MCHB1490
��� LLD=LLDST MCHB1500
���C MCHB1510
���C START INNER LOOP MCHB1520
��� DO 13 L=1,LMAX MCHB1530
��� LL=LL-LLD MCHB1540
��� LLL=LL+ID MCHB1550
��� SUM=SUM+A(LL)*A(LLL) MCHB1560
��� IF(LLD-MUD)12,13,13 MCHB1570
��� 12 LLD=LLD+1 MCHB1580
��� 13 CONTINUE MCHB1590
���C END OF INNER LOOP MCHB1600
���C MCHB1610
���C TRANSFORM ELEMENT A(I) MCHB1620
��� 14 SUM=DBLE(A(I))-SUM MCHB1630
��� IF(I-IST)15,15,20 MCHB1640
���C MCHB1650
���C A(I) IS DIAGONAL ELEMENT. ERROR TEST. MCHB1660
��� 15 IF(SUM)43,43,16 MCHB1670
���C MCHB1680
���C TEST ON LOSS OF SIGNIFICANT DIGITS AND WARNING MCHB1690
��� 16 IF(SUM-TOL)17,17,19 MCHB1700
��� 17 IF(IER)18,18,19 MCHB1710
��� 18 IER=K-1 MCHB1720
���C MCHB1730
���C COMPUTATION OF PIVOT ELEMENT MCHB1740
��� 19 PIV=DSQRT(SUM) MCHB1750
��� A(I)=PIV MCHB1760
��� PIV=1.D0/PIV MCHB1770
��� GO TO 21 MCHB1780
���C MCHB1790
���C A(I) IS NOT DIAGONAL ELEMENT MCHB1800
��� 20 A(I)=SUM*PIV MCHB1810
���C MCHB1820
���C UPDATE ID AND LMAX MCHB1830
��� 21 ID=ID+1 MCHB1840
��� IF(ID-J)23,23,22 MCHB1850
��� 22 LMAX=LMAX-1 MCHB1860
��� 23 CONTINUE MCHB1870
���C MCHB1880
���C END OF FACTORIZATION-LOOP OVER K-TH ROW MCHB1890
���C END OF FACTORIZATION OF MATRIX A MCHB1900
���C MCHB1910
���C ******************************************************************MCHB1920
���C MCHB1930
���C PREPARE MATRIX DIVISIONS MCHB1940
��� IF(IOP)24,44,24 MCHB1950
��� 24 ID=N*M MCHB1960
��� IEND=IABS(IOP)-2 MCHB1970
��� IF(IEND)25,35,25 MCHB1980
���C MCHB1990
���C ******************************************************************MCHB2000
���C MCHB2010
���C START DIVISION BY TRANSPOSE OF MATRIX TU (TU IS STORED IN MCHB2020
���C LOCATIONS OF A) MCHB2030
��� 25 IST=1 MCHB2040
��� LMAX=0 MCHB2050
��� J=-MR MCHB2060
��� LLDST=MUD MCHB2070
��� DO 34 K=1,M MCHB2080
��� PIV=A(IST) MCHB2090
��� IF(PIV)26,43,26 MCHB2100
��� 26 PIV=1.D0/PIV MCHB2110
���C MCHB2120
���C START BACKSUBSTITUTION-LOOP FOR K-TH ROW OF MATRIX R MCHB2130
��� DO 30 I=K,ID,M MCHB2140
��� SUM=0.D0 MCHB2150
��� IF(LMAX)30,30,27 MCHB2160
���C MCHB2170
���C PREPARE INNER LOOP MCHB2180
��� 27 LL=IST MCHB2190
��� LLL=I MCHB2200
��� LLD=LLDST MCHB2210
���C MCHB2220
���C START INNER LOOP MCHB2230
��� DO 29 L=1,LMAX MCHB2240
��� LL=LL-LLD MCHB2250
��� LLL=LLL-1 MCHB2260
��� SUM=SUM+A(LL)*R(LLL) MCHB2270
��� IF(LLD-MUD)28,29,29 MCHB2280
��� 28 LLD=LLD+1 MCHB2290
��� 29 CONTINUE MCHB2300
���C END OF INNER LOOP MCHB2310
���C MCHB2320
���C TRANSFORM ELEMENT R(I) MCHB2330
��� 30 R(I)=PIV*(DBLE(R(I))-SUM) MCHB2340
���C END OF BACKSUBSTITUTION-LOOP FOR K-TH ROW OF MATRIX R MCHB2350
���C MCHB2360
���C UPDATE PARAMETERS LMAX, IST AND LLDST MCHB2370
��� IF(MC-K)32,32,31 MCHB2380
��� 31 LMAX=K MCHB2390
��� 32 IST=IST+MC MCHB2400
��� J=J+1 MCHB2410
��� IF(J)34,34,33 MCHB2420
��� 33 IST=IST-J MCHB2430
��� LLDST=LLDST-1 MCHB2440
��� 34 CONTINUE MCHB2450
���C MCHB2460
���C END OF DIVISION BY TRANSPOSE OF MATRIX TU MCHB2470
���C MCHB2480
���C ******************************************************************MCHB2490
���C MCHB2500
���C START DIVISION BY MATRIX TU (TU IS STORED ON LOCATIONS OF A) MCHB2510
��� IF(IEND)35,35,44 MCHB2520
��� 35 IST=M+(MUD*(M+M-MC))/2+1 MCHB2530
��� LMAX=0 MCHB2540
��� K=M MCHB2550
��� 36 IEND=IST-1 MCHB2560
��� IST=IEND-LMAX MCHB2570
��� PIV=A(IST) MCHB2580
��� IF(PIV)37,43,37 MCHB2590
��� 37 PIV=1.D0/PIV MCHB2600
��� L=IST+1 MCHB2610
���C MCHB2620
���C START BACKSUBSTITUTION-LOOP FOR K-TH ROW OF MATRIX R MCHB2630
��� DO 40 I=K,ID,M MCHB2640
��� SUM=0.D0 MCHB2650
��� IF(LMAX)40,40,38 MCHB2660
��� 38 LLL=I MCHB2670
���C MCHB2680
���C START INNER LOOP MCHB2690
��� DO 39 LL=L,IEND MCHB2700
��� LLL=LLL+1 MCHB2710
��� 39 SUM=SUM+A(LL)*R(LLL) MCHB2720
���C END OF INNER LOOP MCHB2730
���C MCHB2740
���C TRANSFORM ELEMENT R(I) MCHB2750
��� 40 R(I)=PIV*(DBLE(R(I))-SUM) MCHB2760
���C END OF BACKSUBSTITUTION-LOOP FOR K-TH ROW OF MATRIX R MCHB2770
���C MCHB2780
���C MCHB2790
���C UPDATE PARAMETERS LMAX AND K MCHB2800
��� IF(K-MR)42,42,41 MCHB2810
��� 41 LMAX=LMAX+1 MCHB2820
��� 42 K=K-1 MCHB2830
��� IF(K)44,44,36 MCHB2840
���C MCHB2850
���C END OF DIVISION BY MATRIX TU MCHB2860
���C MCHB2870
���C ******************************************************************MCHB2880
���C MCHB2890
���C ERROR EXIT IN CASE OF WRONG INPUT PARAMETERS OR PIVOT ELEMENT MCHB2900
���C LESS THAN OR EQUAL TO ZERO MCHB2910
��� 43 IER=-1 MCHB2920
��� 44 RETURN MCHB2930
��� END MCHB2940
���