Page 1 Source Listing TABLE 2025-03-12 18:22 /tmp/ifort9ZsYHh.i 1 # 1 "TABLE.F" 2 SUBROUTINE TABLE 3 # 1 "./sp.h" 1 4 # 4 5 6 # 3 "TABLE.F" 2 7 C SUBROUTINE TABLE COMPUTES TABLE ENTRIES USED IN THE LONGWAVE RADIA 8 C PROGRAM. ALSO CALCULATED ARE INDICES USED IN STRIP-MINING AND FOR 9 C SOME PRE-COMPUTABLE FUNCTIONS. 10 C INPUTS: 11 C OUTPUTS: 12 C EM1,EM1WDE,TABLE1,TABLE2,TABLE3 TABCOM 13 C EM3,SOURCE,DSRCE,IND,INDX2,KMAXV TABCOM 14 C KMAXVM, TABCOM 15 C AO3RND,BO3RND,AB15 BANDTA 16 C AB15WD,SKC1R,SKO3R,SKO2D BDWIDE 17 C 18 COMMON/PHYCON/AMOLWT,CSUBP,DIFFCTR,G,GRAVDR,O3DIFCTR,P0, 19 * P0XZP2,P0XZP8,P0X2,RADCON,RGAS,RGASSP,SECPDA 20 COMMON/PHYCON/RATCO2MW,RATH2OMW 21 COMMON/PHYCON/RADCON1 22 COMMON/PHYCON/GINV,P0INV,GP0INV 23 24 save /PHYCON/ 25 COMMON/HCON/HUNDRED,HNINETY,SIXTY,FIFTY,TEN,EIGHT,FIVE, 26 * FOUR,THREE,TWO,ONE,HAF,QUARTR,ZERO 27 COMMON/HCON/H83E26,H71E26,H1E15,H1E13,H1E11,H1E8,H4E5, 28 * H165E5,H5725E4,H488E4,H1E4,H24E3,H20788E3, 29 * H2075E3,H1224E3,H5E2,H3082E2,H3E2,H2945E2, 30 * H23E2,H15E2,H35E1,H3P6,H181E1,H18E1,H2P9,H2P8, 31 * H2P5,H1P8,H1P4387,H1P4,H1P25892,HP8,HP518, 32 * HP369,HP1 33 COMMON/HCON/H44871M2,H559M3,H1M3,H987M4,H285M4,H1M4, 34 * H6938M5,H394M5,H37412M5,H1439M5,H128M5,H1M5, 35 * H7M6,H4999M6,H25452M6,H1M6,H391M7,H1174M7, 36 * H8725M8,H327M8,H257M8,H1M8,H23M10,H14M10, 37 * H11M10,H1M10,H83M11,H82M11,H8M11,H77M11, 38 * H72M11,H53M11,H48M11,H44M11,H42M11,H37M11, 39 * H35M11,H32M11,H3M11,H28M11,H24M11,H23M11, 40 * H2M11,H18M11,H15M11,H14M11,H114M11,H11M11, 41 * H1M11,H96M12,H93M12,H77M12,H74M12,H65M12, 42 * H62M12,H6M12,H45M12,H44M12,H4M12,H38M12, 43 * H37M12,H3M12,H29M12,H28M12,H24M12,H21M12, 44 * H16M12,H14M12,H12M12,H8M13,H46M13,H36M13, 45 * H135M13,H12M13,H1M13,H3M14,H15M14,H14M14, 46 * H1M17,H1M18,H1M19,H1M20,H1M21,H1M22,H1M23, 47 * H1M24,H26M30,H14M30,H25M31,H21M31,H12M31, 48 * H9M32,H55M32,H45M32,H4M33,H62M34,H1M60 49 COMMON/HCON/HMP575,HM13EZ,HM19EZ,HM1E1,HM181E1,HM1E2 50 COMMON/HCON/H1E6,H2E6,H1M2,HMP66667,HM6666M2,HP166666, 51 * H41666M2,HMP5,HM2M2,H29316E2,H1226E1,H3116E1, 52 * H9P94,HP6,H625M2,HP228,HP60241,HM1797E1, 53 * H8121E1,H2E2,HM1EZ,H26E2,H44194M2,H1P41819 54 COMMON/HCON/HP219,HP144,HP816,H69766E5,H235M3,HP26, 55 * H129M2,H75826M4,H1P082,HP805,H1386E2, 56 * H658M2,H1036E2,H2118M2,H42M2,H323M4, 57 * H67390E2,HP3795,HP5048,H102M5,H451M6 Page 2 Source Listing TABLE 2025-03-12 18:22 TABLE.F 58 COMMON/HCON/H16E1,HM161E1,H161E1,H3M3,H101M16, 59 * HM1597E1,H25E2,HP118666,H15M5,H3P5,H18E3, 60 * H6P08108,HMP805,HP602409,HP526315, 61 * H28571M2,H1M16 62 COMMON/HCON/H3M4 63 COMMON/HCON/HM8E1 64 COMMON/HCON/H28E1 65 save /HCON/ 66 C----------------------------------------------------------------------- 67 INCLUDE "parmeta" 90 INCLUDE "mpp.h" 91 C----------------------------------------------------------------------- 92 C PARAMETER SETTINGS FOR THE LONGWAVE AND SHORTWAVE RADIATION CODE: 93 C IMAX = NO. POINTS ALONG THE LAT. CIRCLE USED IN CALCS. 94 C L = NO. VERTICAL LEVELS (ALSO LAYERS) IN MODEL 95 C***NOTE: THE USER NORMALLY WILL MODIFY ONLY THE IMAX AND L PARAMETERS 96 C NBLW = NO. FREQ. BANDS FOR APPROX COMPUTATIONS. SEE 97 C BANDTA FOR DEFINITION 98 C NBLX = NO. FREQ BANDS FOR APPROX CTS COMPUTATIONS 99 C NBLY = NO. FREQ. BANDS FOR EXACT CTS COMPUTATIONS. SEE 100 C BDCOMB FOR DEFINITION 101 C INLTE = NO. LEVELS USED FOR NLTE CALCS. 102 C NNLTE = INDEX NO. OF FREQ. BAND IN NLTE CALCS. 103 C NB,KO2 ARE SHORTWAVE PARAMETERS; OTHER QUANTITIES ARE DERIVED 104 C FROM THE ABOVE PARAMETERS. 163 PARAMETER (L=LM) 164 PARAMETER (IMAX=IM,NCOL=IMAX) 165 PARAMETER (NBLW=163,NBLX=47,NBLY=15) 166 PARAMETER (NBLM=NBLY-1) 167 PARAMETER (LP1=L+1,LP2=L+2,LP3=L+3) 168 PARAMETER (LM1=L-1,LM2=L-2,LM3=L-3) 169 PARAMETER (LL=2*L,LLP1=LL+1,LLP2=LL+2,LLP3=LL+3) 170 PARAMETER (LLM1=LL-1,LLM2=LL-2,LLM3=LL-3) 171 PARAMETER (LP1M=LP1*LP1,LP1M1=LP1M-1) 172 PARAMETER (LP1V=LP1*(1+2*L/2)) 173 PARAMETER (LP121=LP1*NBLY) 174 PARAMETER (LL3P=3*L+2) 175 PARAMETER (NB=12) 176 PARAMETER (INLTE=3,INLTEP=INLTE+1,NNLTE=56) 177 PARAMETER (LP1I=IMAX*LP1,LLP1I=IMAX*LLP1,LL3PI=IMAX*LL3P) 178 PARAMETER (NB1=NB-1) 179 PARAMETER (KO2=12) 180 PARAMETER (KO21=KO2+1,KO2M=KO2-1) 181 C PARAMETER SETTINGS FOR THE LONGWAVE AND SHORTWAVE RADIATION CODE: 182 C IMAX = NO. POINTS SENT TO RADFS 183 C L = NO. VERTICAL LEVELS (ALSO LAYERS) IN MODEL 184 C***NOTE: THE USER NORMALLY WILL MODIFY ONLY THE IMAX AND L PARAMETERS 185 C NBLW = NO. FREQ. BANDS FOR APPROX COMPUTATIONS. SEE 186 C BANDTA FOR DEFINITION 187 C NBLX = NO. FREQ BANDS FOR APPROX CTS COMPUTATIONS 188 C NBLY = NO. FREQ. BANDS FOR EXACT CTS COMPUTATIONS. SEE 189 C BDCOMB FOR DEFINITION 190 C INLTE = NO. LEVELS USED FOR NLTE CALCS. 191 C NNLTE = INDEX NO. OF FREQ. BAND IN NLTE CALCS. 192 C NB,KO2 ARE SHORTWAVE PARAMETERS; OTHER QUANTITIES ARE DERIVED 193 C FROM THE ABOVE PARAMETERS. 194 C COMMON BLOCK BANDTA CONTAINS RANDOM BAND PARAMETERS FOR THE LW Page 3 Source Listing TABLE 2025-03-12 18:22 TABLE.F 195 C CALCULATIONS USING 10 CM-1 WIDE BANDS.THE 15 UM CO2 COMPLEX 196 C IS 2 BANDS,560-670 AND 670-800 CM-1. OZONE COEFFICIENTS ARE 197 C IN 3 BANDS,670-800 (14.1 UM),990-1070 AND 1070-1200 (9.6 UM). 198 C THE (NBLW) BANDS NOW INCLUDE: 199 C 56 BANDS, 10 CM-1 WIDE 0 - 560 CM-1 200 C 2 BANDS, 15 UM COMPLEX 560 - 670 CM-1 201 C 670 - 800 CM-1 202 C 3 "CONTINUUM" BANDS 800 - 900 CM-1 203 C 900 - 990 CM-1 204 C 1070 - 1200 CM-1 205 C 1 BAND FOR 9.6 UM BAND 990 - 1070 CM-1 206 C 100 BANDS, 10 CM-1 WIDE 1200 - 2200 CM-1 207 C 1 BAND FOR 4.3 UM SRC 2270 - 2380 CM-1 208 C THUS NBLW PRESENTLY EQUALS 163 209 C ALL BANDS ARE ARRANGED IN ORDER OF INCREASING WAVENUMBER 210 C 211 C ARNDM = RANDOM "A" PARAMETER FOR (NBLW) BANDS 212 C BRNDM = RANDOM "B" PARAMETER FOR (NBLW) BANDS 213 C BETAD = CONTINUUM COEFFICIENTS FOR (NBLW) BANDS 214 C AP,BP = CAPPHI COEFFICIENTS FOR (NBLW) BANDS 215 C ATP,BTP = CAPPSI COEFFICIENTS FOR (NBLW) BANDS 216 C BANDLO = LOWEST FREQUENCY IN EACH OF (NBLW) FREQ. BANDS 217 C BANDHI = HIGHEST FREQUENCY IN EACH OF (NBLW) FREQ. BANDS 218 C AO3RND = RANDOM "A" PARAMETER FOR OZONE IN (3) OZONE 219 C BANDS 220 C BO3RND = RANDOM "B" PARAMETER FOR OZONE IN (3) OZONE 221 C BANDS 222 C AB15 = THE PRODUCT ARNDM*BRNDM FOR THE TWO BANDS 223 C REPRESENTING THE 15 UM BAND COMPLEX OF CO2 224 C DATA FOR ARNDM,BRNDM,AP,BP,ATP,BTP,AO3RND,BO3RND ARE OBTAINED BY 225 C USING THE AFGL 1982 CATALOG. CONTINUUM COEFFICIENTS ARE FROM 226 C ROBERTS (1976). 227 COMMON / BANDTA / ARNDM(NBLW),BRNDM(NBLW),BETAD(NBLW),AP(NBLW), 228 1 BP(NBLW),ATP(NBLW),BTP(NBLW),BANDLO(NBLW), 229 2 BANDHI(NBLW),AO3RND(3),BO3RND(3),AB15(2) 230 C 231 C COMMON BLOCK BDWIDE CONTAINS RANDOM BAND PARAMETERS FOR SPECIFIC 232 C WIDE BANDS. AT PRESENT,THE INFORMATION CONSISTS OF 1) RANDOM 233 C MODEL PARAMETERS FOR THE 15 UM BAND,560-800 CM-1; 2) THE 234 C CONTINUUM COEFFICIENT FOR THE 800-990,1070-1200 CM-1 BAND 235 C SPECIFICALLY: 236 C AWIDE = RANDOM "A" PARAMETER FOR BAND 237 C BWIDE = RANDOM "B" PARAMETER FOR BAND 238 C BETAWD = CONTINUUM COEFFICIENTS FOR BAND 239 C APWD,BPWD = CAPPHI COEFFICIENTS FOR BAND 240 C ATPWD,BTPWD = CAPPSI COEFFICIENTS FOR BAND 241 C BDLOWD = LOWEST FREQUENCY IN EACH FREQ BAND 242 C BDHIWD = HIGHEST FREQUENCY IN EACH FREQ BAND 243 C AB15WD = THE PRODUCT ARNDM*BRNDM FOR THE ONE BAND 244 C REPRESENTING THE 15 UM BAND COMPLEX OF CO2 245 C BETINW = CONT.COEFFICIENT FOR A SPECIFIED WIDE 246 C FREQ.BAND (800-990 AND 1070-1200 CM-1). 247 C SKO2D = 1./BETINW, USED IN SPA88 FOR CONT. COEFFS 248 C SKC1R = BETAWD/BETINW, USED FOR CONT. COEFF. FOR 249 C 15 UM BAND IN FST88 250 C SKO3R = RATIO OF CONT. COEFF. FOR 9.9 UM BAND TO 251 C BETINW, USED FOR 9.6 UM CONT COEFF IN FST88 Page 4 Source Listing TABLE 2025-03-12 18:22 TABLE.F 252 C DATA FOR AWIDE,BWIDE,APWD,BPWD,ATPWD,BTPWD,AO3WD,BO3WD ARE 253 C OBTAINED BY USING THE AFGL 1982 CATALOG. CONTINUUM COEFFICIENTS 254 C ARE FROM ROBERTS (1976). 255 COMMON / BDWIDE / AWIDE,BWIDE,BETAWD, 256 1 APWD,BPWD,ATPWD,BTPWD, 257 2 BDLOWD,BDHIWD,BETINW, 258 3 AB15WD,SKO2D,SKC1R,SKO3R 259 C 260 C COMMON BLOCK BDCOMB CONTAINS RANDOM BAND PARAMETERS FOR THE LW 261 C CALCULATIONS USING COMBINED WIDE FREQUENCY BANDS BETWEEN 160 AND 262 C 1200 CM-1,AS WELL AS THE 2270-2380 BAND FOR SOURCE CALC. 263 C BANDS 1-8: COMBINED WIDE FREQUENCY BANDS FOR 160-560 CM-1 264 C BANDS 9-14: FREQUENCY BANDS,AS IN BANDTA (NARROW BANDS) 265 C FOR 560-1200 CM-1 266 C BAND 15: FREQUENCY BAND 2270-2380 CM-1,USED FOR SOURCE 267 C CALCULATION ONLY 268 C THUS NBLY PRESENTLY EQUALS 15 269 C 270 C BANDS ARE ARRANGED IN ORDER OF INCREASING WAVENUMBER 271 C ACOMB = RANDOM "A" PARAMETER FOR (NBLY) BANDS 272 C BCOMB = RANDOM "B" PARAMETER FOR (NBLY) BANDS 273 C BETACM = CONTINUUM COEFFICIENTS FOR (NBLY) BANDS 274 C APCM,BPCM = CAPPHI COEFFICIENTS FOR (NBLY) BANDS 275 C ATPCM,BTPCM = CAPPSI COEFFICIENTS FOR (NBLY) BANDS 276 C BDLOCM = LOWEST FREQUENCY IN EACH OF (NBLY) FREQ. BANDS 277 C BDHICM = HIGHEST FREQUENCY IN EACH OF (NBLY) FREQ. BANDS 278 C AO3CM = RANDOM "A" PARAMETER FOR OZONE IN (3) OZONE 279 C BANDS 280 C BO3CM = RANDOM "B" PARAMETER FOR OZONE IN (3) OZONE 281 C BANDS 282 C AB15CM = THE PRODUCT ARNDM*BRNDM FOR THE TWO BANDS 283 C REPRESENTING THE 15 UM BAND COMPLEX OF CO2 284 C BETINC = CONT.COEFFICIENT FOR A SPECIFIED WIDE 285 C FREQ.BAND (800-990 AND 1070-1200 CM-1). 286 C IBAND = INDEX NO OF THE 40 WIDE BANDS USED IN 287 C COMBINED WIDE BAND CALCULATIONS. IN OTHER 288 C WORDS,INDEX TELLING WHICH OF THE 40 WIDE 289 C BANDS BETWEEN 160-560 CM-1 ARE INCLUDED IN 290 C EACH OF THE FIRST 8 COMBINED WIDE BANDS 291 C DATA FOR ACOMB,BCOMB,APCM,BPCM,ATPCM,BTPCM,AO3CM,BO3CM ARE 292 C OBTAINED BY USING THE AFGL 1982 CATALOG. CONTINUUM COEFFICIENTS 293 C ARE FROM ROBERTS (1976). IBAND INDEX VALUES ARE OBTAINED BY 294 C EXPERIMENTATION. 295 COMMON / BDCOMB / IBAND(40),ACOMB(NBLY),BCOMB(NBLY), 296 1 BETACM(NBLY),APCM(NBLY),BPCM(NBLY),ATPCM(NBLY), 297 2 BTPCM(NBLY),BDLOCM(NBLY),BDHICM(NBLY),BETINC, 298 3 AO3CM(3),BO3CM(3),AB15CM(2) 299 C 300 C COMMON BLOCK TABCOM CONTAINS QUANTITIES PRECOMPUTED IN SUBROUTINE 301 C TABLE FOR USE IN THE LONGWAVE RADIATION PROGRAM: 302 C EM1 = E1 FUNCTION, EVALUATED OVER THE 0-560 AND 303 C 1200-2200 CM-1 INTERVALS 304 C EM1WDE = E1 FUNCTION, EVALUATED OVER THE 160-560 CM-1 305 C INTERVAL 306 C TABLE1 = E2 FUNCTION, EVALUATED OVER THE 0-560 AND 307 C 1200-2200 CM-1 INTERVALS 308 C TABLE2 = TEMPERATURE DERIVATIVE OF TABLE1 Page 5 Source Listing TABLE 2025-03-12 18:22 TABLE.F 309 C TABLE3 = MASS DERIVATIVE OF TABLE1 310 C EM3 = E3 FUNCTION, EVALUATED OVER THE 0-560 AND 311 C 1200-2200 CM-1 INTERVALS 312 C SOURCE = PLANCK FUNCTION, EVALUATED AT SPECIFIED TEMPS. FOR 313 C BANDS USED IN CTS CALCULATIONS 314 C DSRCE = TEMPERATURE DERIVATIVE OF SOURCE 315 C IND = INDEX, WITH VALUE IND(I)=I. USED IN FST88 316 C INDX2 = INDEX VALUES USED IN OBTAINING "LOWER TRIANGLE" 317 C ELEMENTS OF AVEPHI,ETC.,IN FST88 318 C KMAXV = INDEX VALUES USED IN OBTAINING "UPPER TRIANGLE" 319 C ELEMENTS OF AVEPHI,ETC.,IN FST88 320 C KMAXVM = KMAXV(L),USED FOR DO LOOP INDICES 321 C 322 COMMON / TABCOM / IND(IMAX),INDX2(LP1V),KMAXV(LP1), 323 1 KMAXVM 324 COMMON/TABCOM/EM1(28,180),EM1WDE(28,180),TABLE1(28,180), 325 1 TABLE2(28,180),TABLE3(28,180),EM3(28,180),SOURCE(28,NBLY), 326 2 DSRCE(28,NBLY) 327 C 328 C% #NPADL = #PAGE*#NPAGE - 4*28*180 - 2*181 - 7*28 - 180 ; 329 C% #NPADL = #NPADL - 11*28 - 2*180 - 2*30 ; 330 C PARAMETER (NPADL = #NPADL - 28*NBLX - 2*28*NBLW - 7*NBLW) 331 COMMON /SCRTCH/ SUM(28,180),PERTSM(28,180),SUM3(28,180), 332 1 SUMWDE(28,180),SRCWD(28,NBLX),SRC1NB(28,NBLW),DBDTNB(28,NBLW) 333 COMMON /SCRTCH/ ZMASS(181),ZROOT(181),SC(28),DSC(28),XTEMV(28), 334 1 TFOUR(28),FORTCU(28),X(28),X1(28),X2(180),SRCS(28), 335 2 SUM4(28),SUM6(28),SUM7(28),SUM8(28),SUM4WD(28), 336 3 R1(28),R2(28),S2(28),T3(28),R1WD(28) 337 COMMON /SCRTCH/ EXPO(180),FAC(180) 338 COMMON/SCRTCH/CNUSB(30),DNUSB(30) 339 COMMON/SCRTCH/ALFANB(NBLW),AROTNB(NBLW) 340 COMMON/SCRTCH/ANB(NBLW),BNB(NBLW),CENTNB(NBLW),DELNB(NBLW), 341 1 BETANB(NBLW) 342 C COMMON/SCRTCH/PADLOC(NPADL) 343 COMMON/TBLTMP/ DELCM(NBLY) 344 C**************************************** 345 C***COMPUTE LOCAL QUANTITIES AND AO3,BO3,AB15 346 C....FOR NARROW-BANDS... 347 DO 101 N=1,NBLW 348 ANB(N)=ARNDM(N) 349 BNB(N)=BRNDM(N) 350 CENTNB(N)=HAF*(BANDLO(N)+BANDHI(N)) 351 DELNB(N)=BANDHI(N)-BANDLO(N) 352 BETANB(N)=BETAD(N) 353 101 CONTINUE 354 AB15(1)=ANB(57)*BNB(57) 355 AB15(2)=ANB(58)*BNB(58) 356 C....FOR WIDE BANDS... 357 AB15WD=AWIDE*BWIDE 358 C 359 C***COMPUTE INDICES: IND,INDX2,KMAXV 360 DO 111 I=1,IMAX 361 IND(I)=I 362 111 CONTINUE 363 ICNT=0 364 DO 113 I1=1,L 365 I2E=LP1-I1 Page 6 Source Listing TABLE 2025-03-12 18:22 TABLE.F 366 DO 115 I2=1,I2E 367 ICNT=ICNT+1 368 INDX2(ICNT)=LP1*(I2-1)+LP2*I1 369 115 CONTINUE 370 113 CONTINUE 371 KMAXV(1)=1 372 DO 117 I=2,L 373 KMAXV(I)=KMAXV(I-1)+(LP2-I) 374 117 CONTINUE 375 KMAXVM=KMAXV(L) 376 C***COMPUTE RATIOS OF CONT. COEFFS 377 SKC1R=BETAWD/BETINW 378 SKO3R=BETAD(61)/BETINW 379 SKO2D=ONE/BETINW 380 C 381 C****BEGIN TABLE COMPUTATIONS HERE*** 382 C***COMPUTE TEMPS, MASSES FOR TABLE ENTRIES 383 C---NOTE: THE DIMENSIONING AND INITIALIZATION OF XTEMV AND OTHER ARRAYS 384 C WITH DIMENSION OF 28 IMPLY A RESTRICTION OF MODEL TEMPERATURES FROM 385 C 100K TO 370K. 386 C---THE DIMENSIONING OF ZMASS,ZROOT AND OTHER ARRAYS WITH DIMENSION OF 387 C 180 IMPLY A RESTRICTION OF MODEL H2O AMOUNTS SUCH THAT OPTICAL PATHS 388 C ARE BETWEEN 10**-16 AND 10**2, IN CGS UNITS. 389 ZMASS(1)=H1M16 390 DO 201 J=1,180 391 JP=J+1 392 ZROOT(J)=SQRT(ZMASS(J)) 393 ZMASS(JP)=ZMASS(J)*H1P25892 394 201 CONTINUE 395 DO 203 I=1,28 396 XTEMV(I)=HNINETY+TEN*I 397 TFOUR(I)=XTEMV(I)*XTEMV(I)*XTEMV(I)*XTEMV(I) 398 FORTCU(I)=FOUR*XTEMV(I)*XTEMV(I)*XTEMV(I) 399 203 CONTINUE 400 C******THE COMPUTATION OF SOURCE,DSRCE IS NEEDED ONLY 401 C FOR THE COMBINED WIDE-BAND CASE.TO OBTAIN THEM,THE SOURCE 402 C MUST BE COMPUTED FOR EACH OF THE (NBLX) WIDE BANDS(=SRCWD) 403 C THEN COMBINED (USING IBAND) INTO SOURCE. 404 DO 205 N=1,NBLY 405 DO 205 I=1,28 406 SOURCE(I,N)=ZERO 407 205 CONTINUE 408 DO 207 N=1,NBLX 409 DO 207 I=1,28 410 SRCWD(I,N)=ZERO 411 207 CONTINUE 412 C---BEGIN FREQ. LOOP (ON N) 413 DO 211 N=1,NBLX 414 IF (N.LE.46) THEN 415 C***THE 160-1200 BAND CASES 416 CENT=CENTNB(N+16) 417 DEL=DELNB(N+16) 418 BDLO=BANDLO(N+16) 419 BDHI=BANDHI(N+16) 420 ENDIF 421 IF (N.EQ.NBLX) THEN 422 C***THE 2270-2380 BAND CASE Page 7 Source Listing TABLE 2025-03-12 18:22 TABLE.F 423 CENT=CENTNB(NBLW) 424 DEL=DELNB(NBLW) 425 BDLO=BANDLO(NBLW) 426 BDHI=BANDHI(NBLW) 427 ENDIF 428 C***FOR PURPOSES OF ACCURACY, ALL EVALUATIONS OF PLANCK FCTNS ARE MADE 429 C ON 10 CM-1 INTERVALS, THEN SUMMED INTO THE (NBLX) WIDE BANDS. 430 NSUBDS=(DEL-H1M3)/10+1 431 DO 213 NSB=1,NSUBDS 432 IF (NSB.NE.NSUBDS) THEN 433 CNUSB(NSB)=TEN*(NSB-1)+BDLO+FIVE 434 DNUSB(NSB)=TEN 435 ELSE 436 CNUSB(NSB)=HAF*(TEN*(NSB-1)+BDLO+BDHI) 437 DNUSB(NSB)=BDHI-(TEN*(NSB-1)+BDLO) 438 ENDIF 439 C1=(H37412M5)*CNUSB(NSB)**3 440 C---BEGIN TEMP. LOOP (ON I) 441 DO 215 I=1,28 442 X(I)=H1P4387*CNUSB(NSB)/XTEMV(I) 443 X1(I)=EXP(X(I)) 444 SRCS(I)=C1/(X1(I)-ONE) 445 SRCWD(I,N)=SRCWD(I,N)+SRCS(I)*DNUSB(NSB) 446 215 CONTINUE 447 213 CONTINUE 448 211 CONTINUE 449 C***THE FOLLOWING LOOPS CREATE THE COMBINED WIDE BAND QUANTITIES SOURCE 450 C AND DSRCE 451 DO 221 N=1,40 452 DO 221 I=1,28 453 SOURCE(I,IBAND(N))=SOURCE(I,IBAND(N))+SRCWD(I,N) 454 221 CONTINUE 455 DO 223 N=9,NBLY 456 DO 223 I=1,28 457 SOURCE(I,N)=SRCWD(I,N+32) 458 223 CONTINUE 459 DO 225 N=1,NBLY 460 DO 225 I=1,27 461 DSRCE(I,N)=(SOURCE(I+1,N)-SOURCE(I,N))*HP1 462 225 CONTINUE 463 DO 231 N=1,NBLW 464 ALFANB(N)=BNB(N)*ANB(N) 465 AROTNB(N)=SQRT(ALFANB(N)) 466 231 CONTINUE 467 C***FIRST COMPUTE PLANCK FCTNS (SRC1NB) AND DERIVATIVES (DBDTNB) FOR 468 C USE IN TABLE EVALUATIONS. THESE ARE DIFFERENT FROM SOURCE,DSRCE 469 C BECAUSE DIFFERENT FREQUENCY PTS ARE USED IN EVALUATION, THE FREQ. 470 C RANGES ARE DIFFERENT, AND THE DERIVATIVE ALGORITHM IS DIFFERENT. 471 C 472 DO 301 N=1,NBLW 473 CENT=CENTNB(N) 474 DEL=DELNB(N) 475 C---NOTE: AT PRESENT, THE IA LOOP IS ONLY USED FOR IA=2. THE LOOP STRUCT 476 C IS KEPT SO THAT IN THE FUTURE, WE MAY USE A QUADRATURE SCHEME FOR 477 C THE PLANCK FCTN EVALUATION, RATHER THAN USE THE MID-BAND FREQUENCY. 478 DO 303 IA=1,3 479 ANU=CENT+HAF*(IA-2)*DEL Page 8 Source Listing TABLE 2025-03-12 18:22 TABLE.F 480 C1=(H37412M5)*ANU*ANU*ANU+H1M20 481 C---TEMPERATURE LOOP--- 482 DO 305 I=1,28 483 X(I)=H1P4387*ANU/XTEMV(I) 484 X1(I)=EXP(X(I)) 485 SC(I)=C1/((X1(I)-ONE)+H1M20) 486 DSC(I)=SC(I)*SC(I)*X(I)*X1(I)/(XTEMV(I)*C1) 487 305 CONTINUE 488 IF (IA.EQ.2) THEN 489 DO 307 I=1,28 490 SRC1NB(I,N)=DEL*SC(I) 491 DBDTNB(I,N)=DEL*DSC(I) 492 307 CONTINUE 493 ENDIF 494 303 CONTINUE 495 301 CONTINUE 496 C***NEXT COMPUTE R1,R2,S2,AND T3- COEFFICIENTS USED FOR E3 FUNCTION 497 C WHEN THE OPTICAL PATH IS LESS THAN 10-4. IN THIS CASE, WE ASSUME A 498 C DIFFERENT DEPENDENCE ON (ZMASS). 499 C---ALSO OBTAIN R1WD, WHICH IS R1 SUMMED OVER THE 160-560 CM-1 RANGE 500 DO 311 I=1,28 501 SUM4(I)=ZERO 502 SUM6(I)=ZERO 503 SUM7(I)=ZERO 504 SUM8(I)=ZERO 505 SUM4WD(I)=ZERO 506 311 CONTINUE 507 DO 313 N=1,NBLW 508 CENT=CENTNB(N) 509 C***PERFORM SUMMATIONS FOR FREQ. RANGES OF 0-560,1200-2200 CM-1 FOR SUM4 510 C SUM6,SUM7,SUM8 511 IF (CENT.LT.560. .OR. CENT.GT.1200..AND.CENT.LE.2200.) THEN 512 DO 315 I=1,28 513 SUM4(I)=SUM4(I)+SRC1NB(I,N) 514 SUM6(I)=SUM6(I)+DBDTNB(I,N) 515 SUM7(I)=SUM7(I)+DBDTNB(I,N)*AROTNB(N) 516 SUM8(I)=SUM8(I)+DBDTNB(I,N)*ALFANB(N) 517 315 CONTINUE 518 ENDIF 519 C***PERFORM SUMMATIONS OVER 160-560 CM-1 FREQ RANGE FOR E1 CALCS (SUM4WD 520 IF (CENT.GT.160. .AND. CENT.LT.560.) THEN 521 DO 316 I=1,28 522 SUM4WD(I)=SUM4WD(I)+SRC1NB(I,N) 523 316 CONTINUE 524 ENDIF 525 313 CONTINUE 526 DO 317 I=1,28 527 R1(I)=SUM4(I)/TFOUR(I) 528 R2(I)=SUM6(I)/FORTCU(I) 529 S2(I)=SUM7(I)/FORTCU(I) 530 T3(I)=SUM8(I)/FORTCU(I) 531 R1WD(I)=SUM4WD(I)/TFOUR(I) 532 317 CONTINUE 533 DO 401 J=1,180 534 DO 401 I=1,28 535 SUM(I,J)=ZERO 536 PERTSM(I,J)=ZERO Page 9 Source Listing TABLE 2025-03-12 18:22 TABLE.F 537 SUM3(I,J)=ZERO 538 SUMWDE(I,J)=ZERO 539 401 CONTINUE 540 C---FREQUENCY LOOP BEGINS--- 541 DO 411 N=1,NBLW 542 CENT=CENTNB(N) 543 C***PERFORM CALCULATIONS FOR FREQ. RANGES OF 0-560,1200-2200 CM-1 544 IF (CENT.LT.560. .OR. CENT.GT.1200..AND.CENT.LE.2200.) THEN 545 DO 413 J=1,180 546 X2(J)=AROTNB(N)*ZROOT(J) 547 EXPO(J)=EXP(-X2(J)) 548 413 CONTINUE 549 DO 415 J=1,180 550 IF (X2(J).GE.HUNDRED) THEN 551 EXPO(J)=ZERO 552 ENDIF 553 415 CONTINUE 554 DO 417 J=121,180 555 FAC(J)=ZMASS(J)*(ONE-(ONE+X2(J))*EXPO(J))/(X2(J)*X2(J)) 556 417 CONTINUE 557 DO 419 J=1,180 558 DO 419 I=1,28 559 SUM(I,J)=SUM(I,J)+SRC1NB(I,N)*EXPO(J) 560 PERTSM(I,J)=PERTSM(I,J)+DBDTNB(I,N)*EXPO(J) 561 419 CONTINUE 562 DO 421 J=121,180 563 DO 421 I=1,28 564 SUM3(I,J)=SUM3(I,J)+DBDTNB(I,N)*FAC(J) 565 421 CONTINUE 566 ENDIF 567 C---COMPUTE SUM OVER 160-560 CM-1 RANGE FOR USE IN E1 CALCS (SUMWDE) 568 IF (CENT.GT.160. .AND. CENT.LT.560.) THEN 569 DO 420 J=1,180 570 DO 420 I=1,28 571 SUMWDE(I,J)=SUMWDE(I,J)+SRC1NB(I,N)*EXPO(J) 572 420 CONTINUE 573 ENDIF 574 411 CONTINUE 575 DO 431 J=1,180 576 DO 431 I=1,28 577 EM1(I,J)=SUM(I,J)/TFOUR(I) 578 TABLE1(I,J)=PERTSM(I,J)/FORTCU(I) 579 431 CONTINUE 580 DO 433 J=121,180 581 DO 433 I=1,28 582 EM3(I,J)=SUM3(I,J)/FORTCU(I) 583 433 CONTINUE 584 DO 441 J=1,179 585 DO 441 I=1,28 586 TABLE2(I,J)=(TABLE1(I,J+1)-TABLE1(I,J))*TEN 587 441 CONTINUE 588 DO 443 J=1,180 589 DO 443 I=1,27 590 TABLE3(I,J)=(TABLE1(I+1,J)-TABLE1(I,J))*HP1 591 443 CONTINUE 592 DO 445 I=1,28 593 TABLE2(I,180)=ZERO Page 10 Source Listing TABLE 2025-03-12 18:22 TABLE.F 594 445 CONTINUE 595 DO 447 J=1,180 596 TABLE3(28,J)=ZERO 597 447 CONTINUE 598 DO 449 J=1,2 599 DO 449 I=1,28 600 EM1(I,J)=R1(I) 601 449 CONTINUE 602 DO 451 J=1,120 603 DO 451 I=1,28 604 EM3(I,J)=R2(I)/TWO-S2(I)*SQRT(ZMASS(J))/THREE+T3(I)*ZMASS(J)/EIGHT 605 451 CONTINUE 606 DO 453 J=121,180 607 DO 453 I=1,28 608 EM3(I,J)=EM3(I,J)/ZMASS(J) 609 453 CONTINUE 610 C***NOW COMPUTE E1 TABLES FOR 160-560 CM-1 BANDS ONLY. 611 C WE USE R1WD AND SUMWDE OBTAINED ABOVE. 612 DO 501 J=1,180 613 DO 501 I=1,28 614 EM1WDE(I,J)=SUMWDE(I,J)/TFOUR(I) 615 501 CONTINUE 616 DO 503 J=1,2 617 DO 503 I=1,28 618 EM1WDE(I,J)=R1WD(I) 619 503 CONTINUE 620 RETURN 621 END Page 11 Source Listing TABLE 2025-03-12 18:22 Entry Points TABLE.F ENTRY POINTS Name table_ SYMBOL CROSS REFERENCE Name Object Declared Type Bytes Dimen Elements Attributes References 101 Label 353 347 111 Label 362 360 113 Label 370 364 115 Label 369 366 117 Label 374 372 201 Label 394 390 203 Label 399 395 205 Label 407 404,405 207 Label 411 408,409 211 Label 448 413 213 Label 447 431 215 Label 446 441 221 Label 454 451,452 223 Label 458 455,456 225 Label 462 459,460 231 Label 466 463 301 Label 495 472 303 Label 494 478 305 Label 487 482 307 Label 492 489 311 Label 506 500 313 Label 525 507 315 Label 517 512 316 Label 523 521 317 Label 532 526 401 Label 539 533,534 411 Label 574 541 413 Label 548 545 415 Label 553 549 417 Label 556 554 419 Label 561 557,558 420 Label 572 569,570 421 Label 565 562,563 431 Label 579 575,576 433 Label 583 580,581 441 Label 587 584,585 443 Label 591 588,589 445 Label 594 592 447 Label 597 595 449 Label 601 598,599 451 Label 605 602,603 453 Label 609 606,607 501 Label 615 612,613 503 Label 619 616,617 Page 12 Source Listing TABLE 2025-03-12 18:22 Symbol Table TABLE.F Name Object Declared Type Bytes Dimen Elements Attributes References ANU Local 479 R(4) 4 scalar 479,480,483 BANDTA Common 227 5900 BDCOMB Common 295 736 BDHI Local 419 R(4) 4 scalar 419,426,436,437 BDLO Local 418 R(4) 4 scalar 418,425,433,436,437 BDWIDE Common 255 56 C1 Local 439 R(4) 4 scalar 439,444,480,485,486 CENT Local 416 R(4) 4 scalar 416,423,473,479,508,511,520,542,54 4,568 DEL Local 417 R(4) 4 scalar 417,424,430,474,479,490,491 EXP Func 443 scalar 443,484,547 GLB_TABLE Common 141 128 SAVE HCON Common 25 872 SAVE I Local 360 I(4) 4 scalar 360,361,372,373,395,396,397,398,40 5,406,409,410,441,442,443,444,445, 452,453,456,457,460,461,482,483,48 4,485,486,489,490,491,500,501,502, 503,504,505,512,513,514,515,516,52 1,522,526,527,528,529,530,531,534, 535,536,537,538,558,559,560,563,56 4,570,571,576,577,578,581,582,585, 586,589,590,592,593,599,600,603,60 4,607,608,613,614,617,618 I1 Local 364 I(4) 4 scalar 364,365,368 I2 Local 366 I(4) 4 scalar 366,368 I2E Local 365 I(4) 4 scalar 365,366 IA Local 478 I(4) 4 scalar 478,479,488 ICNT Local 363 I(4) 4 scalar 363,367,368 IDIM1 Param 86 I(4) 4 scalar IDIM2 Param 86 I(4) 4 scalar IGSTL Param 81 I(4) 4 scalar 86 IGSTR Param 81 I(4) 4 scalar 86 IM Param 70 I(4) 4 scalar 83,86,147,148,149,150,151,155,156, 161,164 IMAX Param 164 I(4) 4 scalar 164,177,322,360 INLTE Param 176 I(4) 4 scalar 176 INLTEP Param 176 I(4) 4 scalar INPES Param 78 I(4) 4 scalar 83,86,131,132,133,142,143 ITAIL Param 83 I(4) 4 scalar J Local 390 I(4) 4 scalar 390,391,392,393,533,535,536,537,53 8,545,546,547,549,550,551,554,555, 557,559,560,562,564,569,571,575,57 7,578,580,582,584,586,588,590,595, 596,598,600,602,604,606,608,612,61 4,616,618 JDIM1 Param 87 I(4) 4 scalar JDIM2 Param 87 I(4) 4 scalar JGSTL Param 82 I(4) 4 scalar 87 JGSTR Param 82 I(4) 4 scalar 87 JM Param 70 I(4) 4 scalar 84,87,147,148,149,150,151,155,156, 161 JNPES Param 78 I(4) 4 scalar 84,87,131,132,133,142,143 JP Local 391 I(4) 4 scalar 391,393 JTAIL Param 84 I(4) 4 scalar KO2 Param 179 I(4) 4 scalar 180 Page 13 Source Listing TABLE 2025-03-12 18:22 Symbol Table TABLE.F Name Object Declared Type Bytes Dimen Elements Attributes References KO21 Param 180 I(4) 4 scalar KO2M Param 180 I(4) 4 scalar L Param 163 I(4) 4 scalar 167,168,169,172,174,364,372,375 LL Param 169 I(4) 4 scalar 169,170 LL3P Param 174 I(4) 4 scalar 177 LL3PI Param 177 I(4) 4 scalar LLM1 Param 170 I(4) 4 scalar LLM2 Param 170 I(4) 4 scalar LLM3 Param 170 I(4) 4 scalar LLP1 Param 169 I(4) 4 scalar 177 LLP1I Param 177 I(4) 4 scalar LLP2 Param 169 I(4) 4 scalar LLP3 Param 169 I(4) 4 scalar LM Param 70 I(4) 4 scalar 156,163 LM1 Param 168 I(4) 4 scalar LM2 Param 168 I(4) 4 scalar LM3 Param 168 I(4) 4 scalar LP1 Param 167 I(4) 4 scalar 171,172,173,177,322,365,368 LP121 Param 173 I(4) 4 scalar LP1I Param 177 I(4) 4 scalar LP1M Param 171 I(4) 4 scalar 171 LP1M1 Param 171 I(4) 4 scalar LP1V Param 172 I(4) 4 scalar 322 LP2 Param 167 I(4) 4 scalar 368,373 LP3 Param 167 I(4) 4 scalar LSM Param 70 I(4) 4 scalar MAPPINGS Common 160 5024 SAVE MPPCOM Common 105 1464 SAVE N Local 347 I(4) 4 scalar 347,348,349,350,351,352,404,406,40 8,410,413,414,416,417,418,419,421, 445,451,453,455,457,459,461,463,46 4,465,472,473,474,490,491,507,508, 513,514,515,516,522,541,542,546,55 9,560,564,571 NB Param 175 I(4) 4 scalar 178 NB1 Param 178 I(4) 4 scalar NBLM Param 166 I(4) 4 scalar NBLW Param 165 I(4) 4 scalar 227,228,229,332,339,340,341,347,42 3,424,425,426,463,472,507,541 NBLX Param 165 I(4) 4 scalar 332,408,413,421 NBLY Param 165 I(4) 4 scalar 166,173,295,296,297,325,326,343,40 4,455,459 NCOL Param 164 I(4) 4 scalar NNLTE Param 176 I(4) 4 scalar NSB Local 431 I(4) 4 scalar 431,432,433,434,436,437,439,442,44 5 NSUBDS Local 430 I(4) 4 scalar 430,431,432 PHYCON Common 18 80 SAVE SCRTCH Common 331 132844 SQRT Func 392 scalar 392,465,604 TABCOM Common 322 133920 TABLE Subr 2 TBLTMP Common 343 60 TEMPCOM Common 146 6603768 SAVE TOPO Common 154 17478548 SAVE Page 14 Source Listing TABLE 2025-03-12 18:22 Symbol Table TABLE.F TYPE COMPONENTS/COMMON VARIABLES Name Type Bytes Offset Dimen Elements Attributes References AB15 R(4) 4 5892 1 2 COM 354,355 AB15CM R(4) 4 728 1 2 COM AB15WD R(4) 4 40 scalar COM 357 ACOMB R(4) 4 160 1 15 COM ALFANB R(4) 4 128280 1 163 COM 464,465,516 AMOLWT R(4) 4 0 scalar COM ANB R(4) 4 129584 1 163 COM 348,354,355,464 AO3CM R(4) 4 704 1 3 COM AO3RND R(4) 4 5868 1 3 COM AP R(4) 4 1956 1 163 COM APCM R(4) 4 340 1 15 COM APWD R(4) 4 12 scalar COM ARNDM R(4) 4 0 1 163 COM 348 AROTNB R(4) 4 128932 1 163 COM 465,515,546 ATP R(4) 4 3260 1 163 COM ATPCM R(4) 4 460 1 15 COM ATPWD R(4) 4 20 scalar COM AWIDE R(4) 4 0 scalar COM 357 BANDHI R(4) 4 5216 1 163 COM 350,351,419,426 BANDLO R(4) 4 4564 1 163 COM 350,351,418,425 BCOMB R(4) 4 220 1 15 COM BDHICM R(4) 4 640 1 15 COM BDHIWD R(4) 4 32 scalar COM BDLOCM R(4) 4 580 1 15 COM BDLOWD R(4) 4 28 scalar COM BETACM R(4) 4 280 1 15 COM BETAD R(4) 4 1304 1 163 COM 352,378 BETANB R(4) 4 132192 1 163 COM 352 BETAWD R(4) 4 8 scalar COM 377 BETINC R(4) 4 700 scalar COM BETINW R(4) 4 36 scalar COM 377,378,379 BNB R(4) 4 130236 1 163 COM 349,354,355,464 BO3CM R(4) 4 716 1 3 COM BO3RND R(4) 4 5880 1 3 COM BP R(4) 4 2608 1 163 COM BPCM R(4) 4 400 1 15 COM BPWD R(4) 4 16 scalar COM BRNDM R(4) 4 652 1 163 COM 349 BTP R(4) 4 3912 1 163 COM BTPCM R(4) 4 520 1 15 COM BTPWD R(4) 4 24 scalar COM BWIDE R(4) 4 4 scalar COM 357 CENTNB R(4) 4 130888 1 163 COM 350,416,423,473,508,542 CNUSB R(4) 4 128040 1 30 COM 433,436,439,442 CSUBP R(4) 4 4 scalar COM DBDTNB R(4) 4 104160 2 4564 COM 491,514,515,516,560,564 DELCM R(4) 4 0 1 15 COM DELNB R(4) 4 131540 1 163 COM 351,417,424,474 DIFFCTR R(4) 4 8 scalar COM DNUSB R(4) 4 128160 1 30 COM 434,437,445 DSC R(4) 4 123976 1 28 COM 486,491 Page 15 Source Listing TABLE 2025-03-12 18:22 Symbol Table TABLE.F Name Type Bytes Offset Dimen Elements Attributes References DSRCE R(4) 4 132240 2 420 COM 461 EIGHT R(4) 4 20 scalar COM 604 EM1 R(4) 4 9600 2 5040 COM 577,600 EM1WDE R(4) 4 29760 2 5040 COM 614,618 EM3 R(4) 4 110400 2 5040 COM 582,604,608 EXPO R(4) 4 126600 1 180 COM 547,551,555,559,560,571 FAC R(4) 4 127320 1 180 COM 555,564 FIFTY R(4) 4 12 scalar COM FIVE R(4) 4 24 scalar COM 433 FORTCU R(4) 4 124312 1 28 COM 398,528,529,530,578,582 FOUR R(4) 4 28 scalar COM 398 G R(4) 4 12 scalar COM G2LI I(4) 4 0 1 239 COM G2LJ I(4) 4 1912 1 389 COM GINV R(4) 4 68 scalar COM GP0INV R(4) 4 76 scalar COM GRAVDR R(4) 4 16 scalar COM H101M16 R(4) 4 808 scalar COM H102M5 R(4) 4 784 scalar COM H1036E2 R(4) 4 756 scalar COM H114M11 R(4) 4 384 scalar COM H1174M7 R(4) 4 268 scalar COM H11M10 R(4) 4 296 scalar COM H11M11 R(4) 4 388 scalar COM H1224E3 R(4) 4 112 scalar COM H1226E1 R(4) 4 652 scalar COM H128M5 R(4) 4 240 scalar COM H129M2 R(4) 4 732 scalar COM H12M12 R(4) 4 472 scalar COM H12M13 R(4) 4 492 scalar COM H12M31 R(4) 4 560 scalar COM H135M13 R(4) 4 488 scalar COM H1386E2 R(4) 4 748 scalar COM H1439M5 R(4) 4 236 scalar COM H14M10 R(4) 4 292 scalar COM H14M11 R(4) 4 380 scalar COM H14M12 R(4) 4 468 scalar COM H14M14 R(4) 4 508 scalar COM H14M30 R(4) 4 548 scalar COM H15E2 R(4) 4 136 scalar COM H15M11 R(4) 4 376 scalar COM H15M14 R(4) 4 504 scalar COM H15M5 R(4) 4 824 scalar COM H161E1 R(4) 4 800 scalar COM H165E5 R(4) 4 84 scalar COM H16E1 R(4) 4 792 scalar COM H16M12 R(4) 4 464 scalar COM H181E1 R(4) 4 148 scalar COM H18E1 R(4) 4 152 scalar COM H18E3 R(4) 4 832 scalar COM H18M11 R(4) 4 372 scalar COM H1E11 R(4) 4 72 scalar COM H1E13 R(4) 4 68 scalar COM H1E15 R(4) 4 64 scalar COM H1E4 R(4) 4 96 scalar COM Page 16 Source Listing TABLE 2025-03-12 18:22 Symbol Table TABLE.F Name Type Bytes Offset Dimen Elements Attributes References H1E6 R(4) 4 612 scalar COM H1E8 R(4) 4 76 scalar COM H1M10 R(4) 4 300 scalar COM H1M11 R(4) 4 392 scalar COM H1M13 R(4) 4 496 scalar COM H1M16 R(4) 4 856 scalar COM 389 H1M17 R(4) 4 512 scalar COM H1M18 R(4) 4 516 scalar COM H1M19 R(4) 4 520 scalar COM H1M2 R(4) 4 620 scalar COM H1M20 R(4) 4 524 scalar COM 480,485 H1M21 R(4) 4 528 scalar COM H1M22 R(4) 4 532 scalar COM H1M23 R(4) 4 536 scalar COM H1M24 R(4) 4 540 scalar COM H1M3 R(4) 4 208 scalar COM 430 H1M4 R(4) 4 220 scalar COM H1M5 R(4) 4 244 scalar COM H1M6 R(4) 4 260 scalar COM H1M60 R(4) 4 584 scalar COM H1M8 R(4) 4 284 scalar COM H1P082 R(4) 4 740 scalar COM H1P25892 R(4) 4 180 scalar COM 393 H1P4 R(4) 4 176 scalar COM H1P41819 R(4) 4 704 scalar COM H1P4387 R(4) 4 172 scalar COM 442,483 H1P8 R(4) 4 168 scalar COM H2075E3 R(4) 4 108 scalar COM H20788E3 R(4) 4 104 scalar COM H2118M2 R(4) 4 760 scalar COM H21M12 R(4) 4 460 scalar COM H21M31 R(4) 4 556 scalar COM H235M3 R(4) 4 724 scalar COM H23E2 R(4) 4 132 scalar COM H23M10 R(4) 4 288 scalar COM H23M11 R(4) 4 364 scalar COM H24E3 R(4) 4 100 scalar COM H24M11 R(4) 4 360 scalar COM H24M12 R(4) 4 456 scalar COM H25452M6 R(4) 4 256 scalar COM H257M8 R(4) 4 280 scalar COM H25E2 R(4) 4 816 scalar COM H25M31 R(4) 4 552 scalar COM H26E2 R(4) 4 696 scalar COM H26M30 R(4) 4 544 scalar COM H28571M2 R(4) 4 852 scalar COM H285M4 R(4) 4 216 scalar COM H28E1 R(4) 4 868 scalar COM H28M11 R(4) 4 356 scalar COM H28M12 R(4) 4 452 scalar COM H29316E2 R(4) 4 648 scalar COM H2945E2 R(4) 4 128 scalar COM H29M12 R(4) 4 448 scalar COM H2E2 R(4) 4 688 scalar COM H2E6 R(4) 4 616 scalar COM Page 17 Source Listing TABLE 2025-03-12 18:22 Symbol Table TABLE.F Name Type Bytes Offset Dimen Elements Attributes References H2M11 R(4) 4 368 scalar COM H2P5 R(4) 4 164 scalar COM H2P8 R(4) 4 160 scalar COM H2P9 R(4) 4 156 scalar COM H3082E2 R(4) 4 120 scalar COM H3116E1 R(4) 4 656 scalar COM H323M4 R(4) 4 768 scalar COM H327M8 R(4) 4 276 scalar COM H32M11 R(4) 4 348 scalar COM H35E1 R(4) 4 140 scalar COM H35M11 R(4) 4 344 scalar COM H36M13 R(4) 4 484 scalar COM H37412M5 R(4) 4 232 scalar COM 439,480 H37M11 R(4) 4 340 scalar COM H37M12 R(4) 4 440 scalar COM H38M12 R(4) 4 436 scalar COM H391M7 R(4) 4 264 scalar COM H394M5 R(4) 4 228 scalar COM H3E2 R(4) 4 124 scalar COM H3M11 R(4) 4 352 scalar COM H3M12 R(4) 4 444 scalar COM H3M14 R(4) 4 500 scalar COM H3M3 R(4) 4 804 scalar COM H3M4 R(4) 4 860 scalar COM H3P5 R(4) 4 828 scalar COM H3P6 R(4) 4 144 scalar COM H41666M2 R(4) 4 636 scalar COM H42M11 R(4) 4 336 scalar COM H42M2 R(4) 4 764 scalar COM H44194M2 R(4) 4 700 scalar COM H44871M2 R(4) 4 200 scalar COM H44M11 R(4) 4 332 scalar COM H44M12 R(4) 4 428 scalar COM H451M6 R(4) 4 788 scalar COM H45M12 R(4) 4 424 scalar COM H45M32 R(4) 4 572 scalar COM H46M13 R(4) 4 480 scalar COM H488E4 R(4) 4 92 scalar COM H48M11 R(4) 4 328 scalar COM H4999M6 R(4) 4 252 scalar COM H4E5 R(4) 4 80 scalar COM H4M12 R(4) 4 432 scalar COM H4M33 R(4) 4 576 scalar COM H53M11 R(4) 4 324 scalar COM H559M3 R(4) 4 204 scalar COM H55M32 R(4) 4 568 scalar COM H5725E4 R(4) 4 88 scalar COM H5E2 R(4) 4 116 scalar COM H625M2 R(4) 4 668 scalar COM H62M12 R(4) 4 416 scalar COM H62M34 R(4) 4 580 scalar COM H658M2 R(4) 4 752 scalar COM H65M12 R(4) 4 412 scalar COM H67390E2 R(4) 4 772 scalar COM H6938M5 R(4) 4 224 scalar COM Page 18 Source Listing TABLE 2025-03-12 18:22 Symbol Table TABLE.F Name Type Bytes Offset Dimen Elements Attributes References H69766E5 R(4) 4 720 scalar COM H6M12 R(4) 4 420 scalar COM H6P08108 R(4) 4 836 scalar COM H71E26 R(4) 4 60 scalar COM H72M11 R(4) 4 320 scalar COM H74M12 R(4) 4 408 scalar COM H75826M4 R(4) 4 736 scalar COM H77M11 R(4) 4 316 scalar COM H77M12 R(4) 4 404 scalar COM H7M6 R(4) 4 248 scalar COM H8121E1 R(4) 4 684 scalar COM H82M11 R(4) 4 308 scalar COM H83E26 R(4) 4 56 scalar COM H83M11 R(4) 4 304 scalar COM H8725M8 R(4) 4 272 scalar COM H8M11 R(4) 4 312 scalar COM H8M13 R(4) 4 476 scalar COM H93M12 R(4) 4 400 scalar COM H96M12 R(4) 4 396 scalar COM H987M4 R(4) 4 212 scalar COM H9M32 R(4) 4 564 scalar COM H9P94 R(4) 4 660 scalar COM HAF R(4) 4 44 scalar COM 350,436,479 HM13EZ R(4) 4 592 scalar COM HM1597E1 R(4) 4 812 scalar COM HM161E1 R(4) 4 796 scalar COM HM1797E1 R(4) 4 680 scalar COM HM181E1 R(4) 4 604 scalar COM HM19EZ R(4) 4 596 scalar COM HM1E1 R(4) 4 600 scalar COM HM1E2 R(4) 4 608 scalar COM HM1EZ R(4) 4 692 scalar COM HM2M2 R(4) 4 644 scalar COM HM6666M2 R(4) 4 628 scalar COM HM8E1 R(4) 4 864 scalar COM HMP5 R(4) 4 640 scalar COM HMP575 R(4) 4 588 scalar COM HMP66667 R(4) 4 624 scalar COM HMP805 R(4) 4 840 scalar COM HNINETY R(4) 4 4 scalar COM 396 HP1 R(4) 4 196 scalar COM 461,590 HP118666 R(4) 4 820 scalar COM HP144 R(4) 4 712 scalar COM HP166666 R(4) 4 632 scalar COM HP219 R(4) 4 708 scalar COM HP228 R(4) 4 672 scalar COM HP26 R(4) 4 728 scalar COM HP369 R(4) 4 192 scalar COM HP3795 R(4) 4 776 scalar COM HP5048 R(4) 4 780 scalar COM HP518 R(4) 4 188 scalar COM HP526315 R(4) 4 848 scalar COM HP6 R(4) 4 664 scalar COM HP602409 R(4) 4 844 scalar COM HP60241 R(4) 4 676 scalar COM Page 19 Source Listing TABLE 2025-03-12 18:22 Symbol Table TABLE.F Name Type Bytes Offset Dimen Elements Attributes References HP8 R(4) 4 184 scalar COM HP805 R(4) 4 744 scalar COM HP816 R(4) 4 716 scalar COM HTMG R(4) 4 743768 3 4183695 COM HUNDRED R(4) 4 0 scalar COM 550 IBAND I(4) 4 0 1 40 COM 453 IBROW I(4) 4 404 scalar COM ICHUNKTAB I(4) 4 620 1 8 COM IE_GLB_TABLE I(4) 4 32 1 8 COM IE_LOC_TABLE I(4) 4 556 1 8 COM ILCOL I(4) 4 396 scalar COM ILPAD1 I(4) 4 412 scalar COM ILPAD2 I(4) 4 416 scalar COM ILPAD3 I(4) 4 420 scalar COM ILPAD4 I(4) 4 424 scalar COM ILPAD5 I(4) 4 428 scalar COM IND I(4) 4 0 1 237 COM 361 INDX2 I(4) 4 948 1 2116 COM 368 INUMQ I(4) 4 1064 1 100 COM IQUILT_GROUP I(4) 4 1060 scalar COM IRCOL I(4) 4 400 scalar COM IRPAD1 I(4) 4 432 scalar COM IRPAD2 I(4) 4 436 scalar COM IRPAD3 I(4) 4 440 scalar COM IRPAD4 I(4) 4 444 scalar COM IRPAD5 I(4) 4 448 scalar COM IS_GLB_TABLE I(4) 4 0 1 8 COM IS_LOC_TABLE I(4) 4 492 1 8 COM ITEMP I(4) 4 5870016 2 91719 COM ITEMP2 I(4) 4 6236892 2 91719 COM ITROW I(4) 4 408 scalar COM JBPAD1 I(4) 4 452 scalar COM JBPAD2 I(4) 4 456 scalar COM JBPAD3 I(4) 4 460 scalar COM JBPAD4 I(4) 4 464 scalar COM JBPAD5 I(4) 4 468 scalar COM JE_GLB_TABLE I(4) 4 96 1 8 COM JE_LOC_TABLE I(4) 4 588 1 8 COM JS_GLB_TABLE I(4) 4 64 1 8 COM JS_LOC_TABLE I(4) 4 524 1 8 COM JTPAD1 I(4) 4 472 scalar COM JTPAD2 I(4) 4 476 scalar COM JTPAD3 I(4) 4 480 scalar COM JTPAD4 I(4) 4 484 scalar COM JTPAD5 I(4) 4 488 scalar COM KMAXV I(4) 4 9412 1 46 COM 371,373,375 KMAXVM I(4) 4 9596 scalar COM 375 L2GI I(4) 4 956 1 239 COM L2GJ I(4) 4 3468 1 389 COM MPI_COMM_COMP I(4) 4 652 scalar COM MPI_COMM_INTER I(4) 4 656 scalar COM MPI_COMM_INTER_ARRAY I(4) 4 660 1 100 COM MYIE I(4) 4 52 scalar COM MYIE1 I(4) 4 56 scalar COM MYIE1_P1 I(4) 4 120 scalar COM Page 20 Source Listing TABLE 2025-03-12 18:22 Symbol Table TABLE.F Name Type Bytes Offset Dimen Elements Attributes References MYIE1_P2 I(4) 4 124 scalar COM MYIE1_P3 I(4) 4 128 scalar COM MYIE1_P4 I(4) 4 132 scalar COM MYIE2 I(4) 4 60 scalar COM MYIE2_P1 I(4) 4 136 scalar COM MYIE_P1 I(4) 4 100 scalar COM MYIE_P2 I(4) 4 104 scalar COM MYIE_P3 I(4) 4 108 scalar COM MYIE_P4 I(4) 4 112 scalar COM MYIE_P5 I(4) 4 116 scalar COM MYIS I(4) 4 40 scalar COM MYIS1 I(4) 4 44 scalar COM MYIS1_P1 I(4) 4 84 scalar COM MYIS1_P2 I(4) 4 88 scalar COM MYIS1_P3 I(4) 4 92 scalar COM MYIS1_P4 I(4) 4 96 scalar COM MYIS2 I(4) 4 48 scalar COM MYIS_P1 I(4) 4 64 scalar COM MYIS_P2 I(4) 4 68 scalar COM MYIS_P3 I(4) 4 72 scalar COM MYIS_P4 I(4) 4 76 scalar COM MYIS_P5 I(4) 4 80 scalar COM MYJE I(4) 4 236 scalar COM MYJE1 I(4) 4 240 scalar COM MYJE1_P1 I(4) 4 280 scalar COM MYJE1_P2 I(4) 4 284 scalar COM MYJE1_P3 I(4) 4 288 scalar COM MYJE1_P4 I(4) 4 292 scalar COM MYJE2 I(4) 4 244 scalar COM MYJE2_P1 I(4) 4 296 scalar COM MYJE2_P2 I(4) 4 300 scalar COM MYJE2_P3 I(4) 4 304 scalar COM MYJE2_P4 I(4) 4 308 scalar COM MYJE3 I(4) 4 248 scalar COM MYJE3_P4 I(4) 4 312 scalar COM MYJE4 I(4) 4 252 scalar COM MYJE4_P1 I(4) 4 316 scalar COM MYJE4_P4 I(4) 4 320 scalar COM MYJE5 I(4) 4 256 scalar COM MYJE5_P1 I(4) 4 324 scalar COM MYJE5_P2 I(4) 4 328 scalar COM MYJE_P1 I(4) 4 260 scalar COM MYJE_P2 I(4) 4 264 scalar COM MYJE_P3 I(4) 4 268 scalar COM MYJE_P4 I(4) 4 272 scalar COM MYJE_P5 I(4) 4 276 scalar COM MYJS I(4) 4 140 scalar COM MYJS1 I(4) 4 144 scalar COM MYJS1_P1 I(4) 4 184 scalar COM MYJS1_P2 I(4) 4 188 scalar COM MYJS1_P3 I(4) 4 192 scalar COM MYJS1_P4 I(4) 4 196 scalar COM MYJS2 I(4) 4 148 scalar COM MYJS2_P1 I(4) 4 200 scalar COM MYJS2_P2 I(4) 4 204 scalar COM Page 21 Source Listing TABLE 2025-03-12 18:22 Symbol Table TABLE.F Name Type Bytes Offset Dimen Elements Attributes References MYJS2_P3 I(4) 4 208 scalar COM MYJS2_P4 I(4) 4 212 scalar COM MYJS3 I(4) 4 152 scalar COM MYJS3_P4 I(4) 4 216 scalar COM MYJS4 I(4) 4 156 scalar COM MYJS4_P1 I(4) 4 220 scalar COM MYJS4_P4 I(4) 4 224 scalar COM MYJS5 I(4) 4 160 scalar COM MYJS5_P1 I(4) 4 228 scalar COM MYJS5_P2 I(4) 4 232 scalar COM MYJS_P1 I(4) 4 164 scalar COM MYJS_P2 I(4) 4 168 scalar COM MYJS_P3 I(4) 4 172 scalar COM MYJS_P4 I(4) 4 176 scalar COM MYJS_P5 I(4) 4 180 scalar COM MYPE I(4) 4 0 scalar COM MY_E I(4) 4 336 scalar COM MY_IE_GLB I(4) 4 12 scalar COM MY_IE_LOC I(4) 4 28 scalar COM MY_IS_GLB I(4) 4 8 scalar COM MY_IS_LOC I(4) 4 24 scalar COM MY_JE_GLB I(4) 4 20 scalar COM MY_JE_LOC I(4) 4 36 scalar COM MY_JS_GLB I(4) 4 16 scalar COM MY_JS_LOC I(4) 4 32 scalar COM MY_N I(4) 4 332 scalar COM MY_NE I(4) 4 348 scalar COM MY_NEB I(4) 4 364 1 8 COM MY_NW I(4) 4 360 scalar COM MY_S I(4) 4 340 scalar COM MY_SE I(4) 4 352 scalar COM MY_SW I(4) 4 356 scalar COM MY_W I(4) 4 344 scalar COM NPES I(4) 4 4 scalar COM O3DIFCTR R(4) 4 20 scalar COM ONE R(4) 4 40 scalar COM 379,444,485,555 P0 R(4) 4 24 scalar COM P0INV R(4) 4 72 scalar COM P0X2 R(4) 4 36 scalar COM P0XZP2 R(4) 4 28 scalar COM P0XZP8 R(4) 4 32 scalar COM PERTSM R(4) 4 20160 2 5040 COM 536,560,578 QUARTR R(4) 4 48 scalar COM R1 R(4) 4 126040 1 28 COM 527,600 R1WD R(4) 4 126488 1 28 COM 531,618 R2 R(4) 4 126152 1 28 COM 528,604 RADCON R(4) 4 40 scalar COM RADCON1 R(4) 4 64 scalar COM RATCO2MW R(4) 4 56 scalar COM RATH2OMW R(4) 4 60 scalar COM RGAS R(4) 4 44 scalar COM RGASSP R(4) 4 48 scalar COM S2 R(4) 4 126264 1 28 COM 529,604 SC R(4) 4 123864 1 28 COM 485,486,490 SECPDA R(4) 4 52 scalar COM Page 22 Source Listing TABLE 2025-03-12 18:22 Symbol Table TABLE.F Name Type Bytes Offset Dimen Elements Attributes References SIXTY R(4) 4 8 scalar COM SKC1R R(4) 4 48 scalar COM 377 SKO2D R(4) 4 44 scalar COM 379 SKO3R R(4) 4 52 scalar COM 378 SOURCE R(4) 4 130560 2 420 COM 406,453,457,461 SRC1NB R(4) 4 85904 2 4564 COM 490,513,522,559,571 SRCS R(4) 4 125368 1 28 COM 444,445 SRCWD R(4) 4 80640 2 1316 COM 410,445,453,457 SUM R(4) 4 0 2 5040 COM 535,559,577 SUM3 R(4) 4 40320 2 5040 COM 537,564,582 SUM4 R(4) 4 125480 1 28 COM 501,513,527 SUM4WD R(4) 4 125928 1 28 COM 505,522,531 SUM6 R(4) 4 125592 1 28 COM 502,514,528 SUM7 R(4) 4 125704 1 28 COM 503,515,529 SUM8 R(4) 4 125816 1 28 COM 504,516,530 SUMWDE R(4) 4 60480 2 5040 COM 538,571,614 T3 R(4) 4 126376 1 28 COM 530,604 TABLE1 R(4) 4 49920 2 5040 COM 578,586,590 TABLE2 R(4) 4 70080 2 5040 COM 586,593 TABLE3 R(4) 4 90240 2 5040 COM 590,596 TEMP1 R(4) 4 0 2 91719 COM TEMP10 R(4) 4 3301884 2 91719 COM TEMP11 R(4) 4 3668760 2 91719 COM TEMP12 R(4) 4 4035636 2 91719 COM TEMP13 R(4) 4 4402512 2 91719 COM TEMP14 R(4) 4 4769388 2 91719 COM TEMP15 R(4) 4 5136264 2 91719 COM TEMP16 R(4) 4 5503140 2 91719 COM TEMP2 R(4) 4 366876 2 91719 COM TEMP2X R(4) 4 0 2 92971 COM TEMP3 R(4) 4 733752 2 91719 COM TEMP4 R(4) 4 1100628 2 91719 COM TEMP5 R(4) 4 1467504 2 91719 COM TEMP6 R(4) 4 1834380 2 91719 COM TEMP7 R(4) 4 2201256 2 91719 COM TEMP8 R(4) 4 2568132 2 91719 COM TEMP9 R(4) 4 2935008 2 91719 COM TEN R(4) 4 16 scalar COM 396,433,434,436,437,586 TFOUR R(4) 4 124200 1 28 COM 397,527,531,577,614 THREE R(4) 4 32 scalar COM 604 TTVG R(4) 4 371884 2 92971 COM TWO R(4) 4 36 scalar COM 604 X R(4) 4 124424 1 28 COM 442,443,483,484,486 X1 R(4) 4 124536 1 28 COM 443,444,484,485,486 X2 R(4) 4 124648 1 180 COM 546,547,550,555 XTEMV R(4) 4 124088 1 28 COM 396,397,398,442,483,486 ZERO R(4) 4 52 scalar COM 406,410,501,502,503,504,505,535,53 6,537,538,551,593,596 ZMASS R(4) 4 122416 1 181 COM 389,392,393,555,604,608 ZROOT R(4) 4 123140 1 181 COM 392,546 Page 23 Source Listing TABLE 2025-03-12 18:22 Subprograms/Common Blocks TABLE.F SUBPROGRAMS/COMMON BLOCKS Name Object Declared Type Bytes Dimen Elements Attributes References BANDTA Common 227 5900 BDCOMB Common 295 736 BDWIDE Common 255 56 GLB_TABLE Common 141 128 SAVE HCON Common 25 872 SAVE MAPPINGS Common 160 5024 SAVE MPPCOM Common 105 1464 SAVE PHYCON Common 18 80 SAVE SCRTCH Common 331 132844 TABCOM Common 322 133920 TABLE Subr 2 TBLTMP Common 343 60 TEMPCOM Common 146 6603768 SAVE TOPO Common 154 17478548 SAVE COMPILER OPTIONS BEING USED -align noall -align nonone -align nocommons -align nodcommons -align noqcommons -align nozcommons -align records -align nosequence -align norec1byte -align norec2byte -align norec4byte -align norec8byte -align norec16byte -align norec32byte -align norec64byte -align noarray8byte -align noarray16byte -align noarray32byte -align noarray64byte -align noarray128byte -align noarray256byte -altparam -assume accuracy_sensitive -assume nobscc -assume nobuffered_io -assume nobuffered_stdout -assume byterecl -assume nocontiguous_assumed_shape -assume nocontiguous_pointer -assume nocc_omp -assume nocstring -assume nodummy_aliases -assume nofpe_summary -assume noieee_fpe_flags -assume nominus0 -assume noold_boz -assume old_complex_align -assume old_unit_star -assume old_inquire_recl -assume old_ldout_format -assume old_ldout_zero -assume noold_logical_assign -assume noold_logical_ldio -assume old_maxminloc -assume old_xor -assume noprotect_allocates -assume protect_constants -assume noprotect_parens -assume split_common -assume source_include -assume nostd_intent_in -assume std_minus0_rounding -assume nostd_mod_proc_name -assume std_value -assume realloc_lhs -assume underscore -assume no2underscores -assume norecursion no -auto -auto_scalar no -bintext -ccdefault default -check noarg_temp_created -check noassume -check nobounds -check nocontiguous -check noformat -check nooutput_conversion Page 24 Source Listing TABLE 2025-03-12 18:22 TABLE.F -check nooverflow -check nopointers -check noshape -check nostack -check nouninitialized -check noudio_iostat -coarray-num-procs 0 no -coarray-config-file -convert big_endian -cross_reference -D __INTEL_COMPILER=1910 -D __INTEL_COMPILER_UPDATE=3 -D __unix__ -D __unix -D __linux__ -D __linux -D __gnu_linux__ -D unix -D linux -D __ELF__ -D __x86_64 -D __x86_64__ -D __amd64 -D __amd64__ -D __INTEL_COMPILER_BUILD_DATE=20200925 -D __INTEL_OFFLOAD -D __MMX__ -D __SSE__ -D __SSE_MATH__ -D __SSE2__ -D __SSE2_MATH__ -D __SSE3__ -D __SSSE3__ -D __SSE4_1__ -D __SSE4_2__ -D __POPCNT__ -D __PCLMUL__ -D __AES__ -D __AVX__ -D __F16C__ -D __AVX_I__ -D __RDRND__ -D __FMA__ -D __FP_FAST_FMA -D __FP_FAST_FMAF -D __BMI__ -D __LZCNT__ -D __AVX2__ -D __haswell -D __haswell__ -D __tune_haswell__ -D __core_avx2 -D __core_avx2__ -D __tune_core_avx2__ -D __CRAY_X86_ROME -D __CRAYXT_COMPUTE_LINUX_TARGET -double_size 64 no -d_lines no -Qdyncom -error_limit 30 no -f66 no -f77rtl no -fast -fpscomp nofilesfromcmd -fpscomp nogeneral -fpscomp noioformat -fpscomp noldio_spacing -fpscomp nologicals -fixed no -fpconstant -fpe3 -fprm nearest no -ftz -fp_model precise -fp_model nofast -fp_model nostrict -fp_model nosource -fp_model nodouble -fp_model noextended -fp_model novery_fast -fp_model noexcept -fp_model nono_except -fp_modbits nofp_contract -fp_modbits nono_fp_contract -fp_modbits nofenv_access -fp_modbits nono_fenv_access -fp_modbits nocx_limited_range -fp_modbits nono_cx_limited_range -fp_modbits noprec_div -fp_modbits nono_prec_div -fp_modbits noprec_sqrt -fp_modbits nono_prec_sqrt -fp_modbits noftz -fp_modbits no_ftz -fp_modbits nointrin_limited_range -fp_modbits nono_intrin_limited_range -fp_modbits notrunc_compares -fp_modbits nono_trunc_compares -fp_modbits noieee_nan_compares -fp_modbits nono_ieee_nan_compares -fp_modbits nohonor_f32_conversion -fp_modbits nono_honor_f32_conversion -fp_modbits nohonor_f64_conversion -fp_modbits nono_honor_f64_conversion -fp_modbits nono_x87_copy -fp_modbits nono_no_x87_copy -fp_modbits noexception_semantics -fp_modbits nono_exception_semantics -fp_modbits noprecise_libm_functions -fp_modbits nono_precise_libm_functions -heap_arrays 0 no -threadprivate_compat -g2 -iface nomixed_str_len_arg Page 25 Source Listing TABLE 2025-03-12 18:22 TABLE.F -iface nono_mixed_str_len_arg -init noarrays -init nohuge -init noinfinity -init nominus_huge -init nominus_infinity -init nominus_tiny -init nonan -init nosnan -init notiny -init nozero no -intconstant -integer_size 32 no -mixed_str_len_arg no -module -names lowercase no -noinclude no -o -offload-build=host -openmp-simd -O2 no -pad_source -real_size 32 no -recursive -reentrancy threaded -vec=simd -show nofullpath -show noinclude -show map -show options no -syntax_only no -threadcom no -U no -vms -w noall -w nonone -w alignments -w nodeclarations -w noexternals -w general -w noignore_bounds -w noignore_loc -w nointerfaces -w noshape -w notruncated_source -w uncalled -w uninitialized -w nounused -w usage no -wrap-margins -includepath : /pe/intel/compilers_and_libraries_2020.4.304/linux/pstl/include/,/pe/intel/compilers_and_libraries_2020.4.304/linux/compiler/include/, .f90,./.f90,/opt/cray/pe/mpich/8.1.12/ofi/intel/19.0/include/.f90,/pe/intel/compilers_and_libraries_2020.4.304/linux/ipp/include/.f90, /pe/intel/compilers_and_libraries_2020.4.304/linux/mkl/include/.f90,/pe/intel/compilers_and_libraries_2020.4.304/linux/pstl/include/.f90, /pe/intel/compilers_and_libraries_2020.4.304/linux/pstl/stdlib/.f90,/pe/intel/compilers_and_libraries_2020.4.304/linux/tbb/include/.f90, /pe/intel/compilers_and_libraries_2020.4.304/linux/compiler/include/intel64/.f90,/pe/intel/compilers_and_libraries_2020.4.304/linux/compiler/include/icc/.f90, /pe/intel/compilers_and_libraries_2020.4.304/linux/compiler/include/.f90,/usr/lib64/gcc/x86_64-suse-linux/7/include/.f90, /usr/lib64/gcc/x86_64-suse-linux/7/include-fixed/.f90,/usr/include/.f90,/usr/include/.f90,/usr/include/.f90 -list filename : TABLE.lst no -o COMPILER: Intel(R) Fortran 19.1-1655