vcoord_gen  1.7.0
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vcoord_gen.f90
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151 subroutine vcoord_gen(levs,lupp,pbot,psig,ppre,pupp,ptop,&
152  dpbot,dpsig,dppre,dpupp,dptop,pmin,ak,bk)
153  implicit none
154  integer,intent(in):: levs,lupp
155  real,intent(in):: pbot,psig,ppre,pupp,ptop
156  real,intent(in):: dpbot,dpsig,dppre,dpupp,dptop
157  real,intent(out):: pmin,ak(0:levs),bk(0:levs)
158  integer,parameter:: lo=100,li=10 ! outer and inner N-R iterations
159  real pdif ! thickness from pbot to pupp
160  real delb ! delta sig at bot
161  real delt ! delta sig at top
162  real sig1 ! crossing parameter 1
163  real sig2 ! crossing parameter 2
164  real c1 ! proportionality constant
165  real c2 ! integration constant
166  real sig ! sig variable
167  real dsig ! delta sig variable
168  real delbio0 ! initial guess at delta sig at bot
169  real deltio0 ! initial guess at delta sig at top
170  real delbio ! guess at delta sig at bot
171  real deltio ! guess at delta sig at top
172  real c1sig1 ! d(c1)/d(sig1)
173  real c1sig2 ! d(c1)/d(sig2)
174  real p(2) ! rhs in N-R iteration
175  real fjac(2,2) ! lhs in N-R iteration
176  integer indx(2) ! permutations in N-R iteration
177  real ppred ! pressure at T1-T2 boundary
178  real spre ! sig at P-T1 boundary
179  real spred ! sig at T1-T2 boundary
180  real rkpre ! level at P-T1 boundary
181  real rkpred ! level at T1-T2 boundary
182  real pkpre ! dp/dk at P-T1 boundary
183  real pkkpre ! d2p/dk2 at P-T1 boundary
184  real psigd ! pressure at T2-T3 boundary
185  real ssig ! sig at T3-S boundary
186  real ssigd ! sig at T2-T3 boundary
187  real rksig ! level at T3-S boundary
188  real rksigd ! level at T2-T3 boundary
189  real pksig ! dp/dk at T3-S boundary
190  real pkksig ! d2p/dk2 at T3-S boundary
191  real p2sig ! pressure at T3-S boundary for pmin surface pressure
192  real p2sigd ! pressure at T2-T3 boundary for pmin surface pressure
193  real p2pred ! pressure at T1-T2 boundary for pmin surface pressure
194  real x2(9) ! rhs in linear solver
195  real a2(9,9) ! lhs in linear solver
196  integer indx2(9) ! permutations in linear solver
197  real pkupp ! dp/dk at U-P boundary
198  real pkkupp ! d2p/dk2 at U-P boundary
199  real x3(3) ! rhs in linear solver
200  real a3(3,3) ! lhs in linear solver
201  integer indx3(3) ! permutations in linear solver
202  real p1 ! pressure variable for pbot surface pressure
203  real p2 ! pressure variable for pmin surface pressure
204  real d ! determinant permutation
205  integer io,ii,k
206 ! - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
207 ! STEP 1.
208  pdif=pbot-pupp
209  delb=dpbot/pdif
210  delt=dpupp/pdif
211  sig1=1+delb
212  sig2=-delt
213  c1=log(-sig2*(1-sig1)/sig1/(sig2-1))/lupp
214  c2=log((sig2-1)/(1-sig1))
215  sig=1
216  dsig=(sig2-sig)*(sig-sig1)*c1/(sig1-sig2)
217  delbio0=-dsig
218  sig=0
219  dsig=(sig2-sig)*(sig-sig1)*c1/(sig1-sig2)
220  deltio0=-dsig
221 ! Newton-Raphson iterations
222  do io=1,lo
223  delbio=delbio0+(delb-delbio0)*io/lo
224  deltio=deltio0+(delt-deltio0)*io/lo
225  do ii=1,li
226  c1sig1=-1/(sig1*(1-sig1)*lupp)
227  c1sig2=-1/(sig2*(sig2-1)*lupp)
228  sig=1
229  dsig=(sig2-sig)*(sig-sig1)*c1/(sig1-sig2)
230  p(1)=-delbio-dsig
231  fjac(1,1)=((-c1*(sig+sig2)+(sig-sig1)*c1sig1*(sig1+sig2)) &
232  *(sig2-sig)/(sig1+sig2)**2)
233  fjac(1,2)=((c1*(sig+sig1)+(sig2-sig)*c1sig2*(sig1+sig2)) &
234  *(sig-sig1)/(sig1+sig2)**2)
235  sig=0
236  dsig=(sig2-sig)*(sig-sig1)*c1/(sig1-sig2)
237  p(2)=-deltio-dsig
238  fjac(2,1)=((-c1*(sig+sig2)+(sig-sig1)*c1sig1*(sig1+sig2)) &
239  *(sig2-sig)/(sig1+sig2)**2)
240  fjac(2,2)=((c1*(sig+sig1)+(sig2-sig)*c1sig2*(sig1+sig2)) &
241  *(sig-sig1)/(sig1+sig2)**2)
242  call ludcmp(fjac,2,2,indx,d)
243  call lubksb(fjac,2,2,indx,p)
244  sig1=sig1+p(1)
245  sig2=sig2+p(2)
246  c1=log(-sig2*(1-sig1)/sig1/(sig2-1))/lupp
247  c2=log((sig2-1)/(1-sig1))
248  enddo
249  enddo
250 ! - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
251 ! STEP 2.
252 ! Compute minimum surface pressure
253  ppred=ppre+dppre
254  spre=(ppre-pupp)/pdif
255  spred=(ppred-pupp)/pdif
256  rkpre=(log((spre-sig2)/(sig1-spre))-c2)/c1
257  rkpred=(log((spred-sig2)/(sig1-spred))-c2)/c1
258  pkpre=pdif*c1*(sig2-spre)*(spre-sig1)/(sig1-sig2)
259  pkkpre=pkpre*c1*(sig2+sig1-2*spre)/(sig1-sig2)
260  psigd=psig-dpsig
261  ssig=(psig-pupp)/pdif
262  ssigd=(psigd-pupp)/pdif
263  rksig=(log((ssig-sig2)/(sig1-ssig))-c2)/c1
264  rksigd=(log((ssigd-sig2)/(sig1-ssigd))-c2)/c1
265  pksig=pdif*c1*(sig2-ssig)*(ssig-sig1)/(sig1-sig2)
266  pkksig=pksig*c1*(sig2+sig1-2*ssig)/(sig1-sig2)
267  x2=0
268  a2=0
269  x2(1)=pkpre
270  a2(1,1)=1
271  a2(1,2)=rkpre
272  a2(1,3)=rkpre**2
273  x2(2)=pkkpre
274  a2(2,2)=1
275  a2(2,3)=2*rkpre
276  a2(3,1)=1
277  a2(3,2)=rkpred
278  a2(3,3)=rkpred**2
279  a2(3,4)=-1
280  a2(3,5)=-rkpred
281  a2(4,2)=1
282  a2(4,3)=2*rkpred
283  a2(4,5)=-1
284  a2(5,4)=-1
285  a2(5,5)=-rksigd
286  a2(5,6)=1
287  a2(5,7)=rksigd
288  a2(5,8)=rksigd**2
289  a2(6,5)=-1
290  a2(6,7)=1
291  a2(6,8)=2*rksigd
292  a2(7,6)=1
293  a2(7,7)=rksig
294  a2(7,8)=rksig**2
295  a2(7,9)=-pksig/pbot
296  a2(8,7)=1
297  a2(8,8)=2*rksig
298  a2(8,9)=-pkksig/pbot
299  x2(9)=ppre
300  a2(9,1)=(rkpre-rkpred)
301  a2(9,2)=(rkpre**2-rkpred**2)/2
302  a2(9,3)=(rkpre**3-rkpred**3)/3
303  a2(9,4)=(rkpred-rksigd)
304  a2(9,5)=(rkpred**2-rksigd**2)/2
305  a2(9,6)=(rksigd-rksig)
306  a2(9,7)=(rksigd**2-rksig**2)/2
307  a2(9,8)=(rksigd**3-rksig**3)/3
308  a2(9,9)=psig/pbot
309  call ludcmp(a2,9,9,indx2,d)
310  call lubksb(a2,9,9,indx2,x2)
311  pmin=x2(9)
312  p2sig=psig/pbot*pmin
313  p2sigd=p2sig &
314  +x2(6)*(rksigd-rksig) &
315  +x2(7)*(rksigd**2-rksig**2)/2 &
316  +x2(8)*(rksigd**3-rksig**3)/3
317  p2pred=p2sigd &
318  +x2(4)*(rkpred-rksigd) &
319  +x2(5)*(rkpred**2-rksigd**2)/2
320 ! - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
321 ! STEP 3.
322  if(lupp.lt.levs) then
323  pkupp=pdif*c1*(sig2-0)*(0-sig1)/(sig1-sig2)
324  pkkupp=pkupp*c1*(sig2+sig1-2*0)/(sig1-sig2)
325  x3=0
326  a3=0
327  x3(1)=pkupp
328  a3(1,1)=pupp
329  x3(2)=pkkupp*pupp-pkupp**2
330  a3(2,2)=pupp**2
331  x3(3)=log((ptop+dptop)/pupp)
332  a3(3,1)=levs-1-lupp
333  a3(3,2)=(levs-1-lupp)**2/2
334  a3(3,3)=(levs-1-lupp)**3/3
335  call ludcmp(a3,3,3,indx3,d)
336  call lubksb(a3,3,3,indx3,x3)
337  endif
338 ! - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - - -
339 ! STEP 4.
340 ! Compute hybrid interface values
341  ak(0)=0
342  bk(0)=1
343  do k=1,levs-1
344  if(k.ge.lupp) then
345  p1=pupp*exp(x3(1)*(k-lupp)+x3(2)*(k-lupp)**2/2+x3(3)*(k-lupp)**3/3)
346  else
347  p1=(sig1*exp(c1*k+c2)+sig2)/(exp(c1*k+c2)+1)*pdif+pupp
348  endif
349  if(k.ge.rkpre) then
350  p2=p1
351  elseif(k.ge.rkpred) then
352  p2=p2pred+x2(1)*(k-rkpred) &
353  +x2(2)*(k**2-rkpred**2)/2 &
354  +x2(3)*(k**3-rkpred**3)/3
355  elseif(k.ge.rksigd) then
356  p2=p2sigd+x2(4)*(k-rksigd) &
357  +x2(5)*(k**2-rksigd**2)/2
358  elseif(k.ge.rksig) then
359  p2=p2sig+x2(6)*(k-rksig) &
360  +x2(7)*(k**2-rksig**2)/2 &
361  +x2(8)*(k**3-rksig**3)/3
362  else
363  p2=p1/pbot*pmin
364  endif
365  ak(k)=(p2*pbot-p1*pmin)/(pbot-pmin)
366  bk(k)=(p1-p2)/(pbot-pmin)
367  enddo
368  ak(levs)=ptop
369  bk(levs)=0
370 end subroutine
subroutine ludcmp(a, n, np, indx, d)
This subprogram decomposes a matrix into a product of lower and upper triangular matrices.
subroutine vcoord_gen(levs, lupp, pbot, psig, ppre, pupp, ptop, dpbot, dpsig, dppre, dpupp, dptop, pmin, ak, bk)
This subprogram generates hybrid coordinate interface profiles from a few given parameters.
Definition: vcoord_gen.f90:151
subroutine lubksb(a, n, np, indx, b)
Lower and upper triangular back substitution.