Created with: interpic -v -t fvc96_4p351icpl0delpsteps.cam2.h0.0005-09-01-00000.nc cami_0000-01-01_0.9x1.25_L26_APE_c100205.nc camout.nc (The template file is a history file from previous run.) Then needed to change variables US,VS to U,V: ncrename -v US,U cami_0000-01-01_c96_L26_APE_c100408tmp.nc cami_0000-01-01_c96_L26_APE_c100408tmp2.nc ncrename -v VS,V cami_0000-01-01_c96_L26_APE_c100408tmp2.nc cami_0000-01-01_c96_L26_APE_c100408.nc Art Mirin 3/2/10 _________________________________ define dim from template file: ncol len= 55296 define dim from template file: lev len= 26 define dim from template file: ilev len= 27 define dim from input file: isccp_prs len= 7 define dim from input file: isccp_tau len= 7 define dim from input file: isccp_prstau len= 49 define dim from input file: time len= 0 define dim from input file: tbnd len= 2 define dim from input file: chars len= 8 copy Conventions copy source copy case copy title copy logname copy host copy Version copy revision_Id copy initial_file copy topography_file copy history handle_special_cases from template file: Copying special var lat Copying special var lon Copying special var slat Copying special var slon Copying special var lev Copying special var ilev Copying special var hyai Copying special var hybi Copying special var hyam Copying special var hybm skipping special case var lat skipping special case var lon skipping special case var slat skipping special case var slon skipping special case var w_stag skipping special case var lev skipping special case var ilev skipping special case var hyai skipping special case var hybi skipping special case var hyam skipping special case var hybm skipping special case var gw create var P0 ndims= 0 dids= vid= 11 create var isccp_prs ndims= 1 dids= 4 vid= 12 fillvar: isccp_prs(isccp_prs= 7 ) fillvar: isccp_prs(isccp_prs= 7 ) create var isccp_tau ndims= 1 dids= 5 vid= 13 fillvar: isccp_tau(isccp_tau= 7 ) fillvar: isccp_tau(isccp_tau= 7 ) create var isccp_prstau ndims= 1 dids= 6 vid= 14 fillvar: isccp_prstau(isccp_prstau= 49 ) fillvar: isccp_prstau(isccp_prstau= 49 ) create var time ndims= 1 dids= 7 vid= 15 fillvar: time(time= 1 ) fillvar: time(time= 1 ) create var time_bnds ndims= 2 dids= 8 7 vid= 16 fillvar: time_bnds(tbnd= 2 time= 1 ) fillvar: time_bnds(tbnd= 2 time= 1 ) create var date_written ndims= 2 dids= 9 7 vid= 17 fillvar: date_written(chars= 8 time= 1 ) fillvar: date_written(chars= 8 time= 1 ) create var time_written ndims= 2 dids= 9 7 vid= 18 fillvar: time_written(chars= 8 time= 1 ) fillvar: time_written(chars= 8 time= 1 ) create var ntrm ndims= 0 dids= vid= 19 create var ntrn ndims= 0 dids= vid= 20 create var ntrk ndims= 0 dids= vid= 21 create var ndbase ndims= 0 dids= vid= 22 create var nsbase ndims= 0 dids= vid= 23 create var nbdate ndims= 0 dids= vid= 24 create var nbsec ndims= 0 dids= vid= 25 create var mdt ndims= 0 dids= vid= 26 create var ndcur ndims= 1 dids= 7 vid= 27 fillvar: ndcur(time= 1 ) fillvar: ndcur(time= 1 ) create var nscur ndims= 1 dids= 7 vid= 28 fillvar: nscur(time= 1 ) fillvar: nscur(time= 1 ) create var date ndims= 1 dids= 7 vid= 29 fillvar: date(time= 1 ) fillvar: date(time= 1 ) create var co2vmr ndims= 1 dids= 7 vid= 30 fillvar: co2vmr(time= 1 ) fillvar: co2vmr(time= 1 ) create var datesec ndims= 1 dids= 7 vid= 31 fillvar: datesec(time= 1 ) fillvar: datesec(time= 1 ) create var nsteph ndims= 1 dids= 7 vid= 32 fillvar: nsteph(time= 1 ) fillvar: nsteph(time= 1 ) create var CLDICE ndims= 3 dids= 1 2 7 vid= 33 fillvar: CLDICE(lon= 288 lat= 192 lev= 26 time= 1 ) fillvar: CLDICE(ncol= 55296 lev= 26 time= 1 ) create var CLDLIQ ndims= 3 dids= 1 2 7 vid= 34 fillvar: CLDLIQ(lon= 288 lat= 192 lev= 26 time= 1 ) fillvar: CLDLIQ(ncol= 55296 lev= 26 time= 1 ) create var CLOUD ndims= 3 dids= 1 2 7 vid= 35 fillvar: CLOUD(lon= 288 lat= 192 lev= 26 time= 1 ) fillvar: CLOUD(ncol= 55296 lev= 26 time= 1 ) create var CONCLD ndims= 3 dids= 1 2 7 vid= 36 fillvar: CONCLD(lon= 288 lat= 192 lev= 26 time= 1 ) fillvar: CONCLD(ncol= 55296 lev= 26 time= 1 ) create var CUSH ndims= 2 dids= 1 7 vid= 37 fillvar: CUSH(lon= 288 lat= 192 time= 1 ) fillvar: CUSH(ncol= 55296 time= 1 ) create var DELP ndims= 3 dids= 1 2 7 vid= 38 fillvar: DELP(lon= 288 lat= 192 lev= 26 time= 1 ) fillvar: DELP(ncol= 55296 lev= 26 time= 1 ) create var ICEFRAC ndims= 2 dids= 1 7 vid= 39 fillvar: ICEFRAC(lon= 288 lat= 192 time= 1 ) fillvar: ICEFRAC(ncol= 55296 time= 1 ) create var KVH ndims= 3 dids= 1 3 7 vid= 40 fillvar: KVH(lon= 288 lat= 192 ilev= 27 time= 1 ) fillvar: KVH(ncol= 55296 ilev= 27 time= 1 ) create var KVM ndims= 3 dids= 1 3 7 vid= 41 fillvar: KVM(lon= 288 lat= 192 ilev= 27 time= 1 ) fillvar: KVM(ncol= 55296 ilev= 27 time= 1 ) create var LCWAT ndims= 3 dids= 1 2 7 vid= 42 fillvar: LCWAT(lon= 288 lat= 192 lev= 26 time= 1 ) fillvar: LCWAT(ncol= 55296 lev= 26 time= 1 ) create var PBLH ndims= 2 dids= 1 7 vid= 43 fillvar: PBLH(lon= 288 lat= 192 time= 1 ) fillvar: PBLH(ncol= 55296 time= 1 ) create var PS ndims= 2 dids= 1 7 vid= 44 fillvar: PS(lon= 288 lat= 192 time= 1 ) fillvar: PS(ncol= 55296 time= 1 ) create var Q ndims= 3 dids= 1 2 7 vid= 45 fillvar: Q(lon= 288 lat= 192 lev= 26 time= 1 ) fillvar: Q(ncol= 55296 lev= 26 time= 1 ) create var QCWAT ndims= 3 dids= 1 2 7 vid= 46 fillvar: QCWAT(lon= 288 lat= 192 lev= 26 time= 1 ) fillvar: QCWAT(ncol= 55296 lev= 26 time= 1 ) create var QPERT ndims= 2 dids= 1 7 vid= 47 fillvar: QPERT(lon= 288 lat= 192 time= 1 ) fillvar: QPERT(ncol= 55296 time= 1 ) create var SICTHK ndims= 2 dids= 1 7 vid= 48 fillvar: SICTHK(lon= 288 lat= 192 time= 1 ) fillvar: SICTHK(ncol= 55296 time= 1 ) create var SNOWHICE ndims= 2 dids= 1 7 vid= 49 fillvar: SNOWHICE(lon= 288 lat= 192 time= 1 ) fillvar: SNOWHICE(ncol= 55296 time= 1 ) create var T ndims= 3 dids= 1 2 7 vid= 50 fillvar: T(lon= 288 lat= 192 lev= 26 time= 1 ) fillvar: T(ncol= 55296 lev= 26 time= 1 ) create var TBOT ndims= 2 dids= 1 7 vid= 51 fillvar: TBOT(lon= 288 lat= 192 time= 1 ) fillvar: TBOT(ncol= 55296 time= 1 ) create var TCWAT ndims= 3 dids= 1 2 7 vid= 52 fillvar: TCWAT(lon= 288 lat= 192 lev= 26 time= 1 ) fillvar: TCWAT(ncol= 55296 lev= 26 time= 1 ) create var TKE ndims= 3 dids= 1 3 7 vid= 53 fillvar: TKE(lon= 288 lat= 192 ilev= 27 time= 1 ) fillvar: TKE(ncol= 55296 ilev= 27 time= 1 ) create var TPERT ndims= 2 dids= 1 7 vid= 54 fillvar: TPERT(lon= 288 lat= 192 time= 1 ) fillvar: TPERT(ncol= 55296 time= 1 ) create var TS1 ndims= 2 dids= 1 7 vid= 55 fillvar: TS1(lon= 288 lat= 192 time= 1 ) fillvar: TS1(ncol= 55296 time= 1 ) create var TS2 ndims= 2 dids= 1 7 vid= 56 fillvar: TS2(lon= 288 lat= 192 time= 1 ) fillvar: TS2(ncol= 55296 time= 1 ) create var TS3 ndims= 2 dids= 1 7 vid= 57 fillvar: TS3(lon= 288 lat= 192 time= 1 ) fillvar: TS3(ncol= 55296 time= 1 ) create var TS4 ndims= 2 dids= 1 7 vid= 58 fillvar: TS4(lon= 288 lat= 192 time= 1 ) fillvar: TS4(ncol= 55296 time= 1 ) create var TSICE ndims= 2 dids= 1 7 vid= 59 fillvar: TSICE(lon= 288 lat= 192 time= 1 ) fillvar: TSICE(ncol= 55296 time= 1 ) create var TSICERAD ndims= 2 dids= 1 7 vid= 60 fillvar: TSICERAD(lon= 288 lat= 192 time= 1 ) fillvar: TSICERAD(ncol= 55296 time= 1 ) create var TSOCN ndims= 2 dids= 1 7 vid= 61 fillvar: TSOCN(lon= 288 lat= 192 time= 1 ) fillvar: TSOCN(ncol= 55296 time= 1 ) create var US ndims= 3 dids= 1 2 7 vid= 62 fillvar: US(lon= 288 slat= 191 lev= 26 time= 1 ) fillvar: US(ncol= 55296 lev= 26 time= 1 ) create var VS ndims= 3 dids= 1 2 7 vid= 63 fillvar: VS(slon= 288 lat= 192 lev= 26 time= 1 ) fillvar: VS(ncol= 55296 lev= 26 time= 1 ) Copy and interpolate from input to output. ntime= 1 Starting time sample 1 Copying variable P0 13 11 Copying variable isccp_prs 14 12 Copying variable isccp_tau 15 13 Copying variable isccp_prstau 16 14 Copying variable time 17 15 Copying variable time_bnds 18 16 Copying variable date_written 19 17 Copying variable time_written 20 18 Copying variable ntrm 21 19 Copying variable ntrn 22 20 Copying variable ntrk 23 21 Copying variable ndbase 24 22 Copying variable nsbase 25 23 Copying variable nbdate 26 24 Copying variable nbsec 27 25 Copying variable mdt 28 26 Copying variable ndcur 29 27 Copying variable nscur 30 28 Copying variable date 31 29 Copying variable co2vmr 32 30 Copying variable datesec 33 31 Copying variable nsteph 34 32 Interpolating CLDICE input: shape=xyz nx= 288 ny= 192 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = 0.000000000000000 1.0529613715253820E-006 1.0668852824752091E-004 doing horizontal interpolation output min, avg, max= 0.000000000000000 1.0244350788450048E-006 9.6880486696995471E-005 Interpolating CLDLIQ input: shape=xyz nx= 288 ny= 192 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = 2.3448014284265147E-129 5.6568821198831547E-006 6.4432009621982799E-004 doing horizontal interpolation output min, avg, max= 1.8679648373689495E-128 6.7590428624495516E-006 6.2682955515967558E-004 Interpolating CLOUD input: shape=xyz nx= 288 ny= 192 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = 0.000000000000000 8.2947943065332222E-002 1.000000000000000 doing horizontal interpolation output min, avg, max= 0.000000000000000 8.1628303822847692E-002 1.000000000000000 Interpolating CONCLD input: shape=xyz nx= 288 ny= 192 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = 0.000000000000000 2.5511488766756411E-002 0.5269444424469126 doing horizontal interpolation output min, avg, max= 0.000000000000000 2.3372304400573394E-002 0.4498836144088619 Interpolating CUSH input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 999.9999999999999 1000.000000000000 1000.000000000000 doing horizontal interpolation output min, avg, max= 999.9999999999997 1000.000000000000 1000.000000000000 Interpolating DELP input: shape=xyz nx= 288 ny= 192 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = 270.1141999999831 3901.160500142262 10283.37880249912 doing horizontal interpolation output min, avg, max= 270.1141999999831 3883.586040876995 10282.71227091872 Interpolating ICEFRAC input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 0.000000000000000 0.000000000000000 doing horizontal interpolation output min, avg, max= 0.000000000000000 0.000000000000000 0.000000000000000 Interpolating KVH input: shape=xyz nx= 288 ny= 192 nz= 27 output: shape= nz nx= 55296 ny= 1 nz= 27 input min, avg, max = 0.000000000000000 1.156840959459157 134.8627520543058 doing horizontal interpolation output min, avg, max= 0.000000000000000 1.393202372955886 134.2715955440191 Interpolating KVM input: shape=xyz nx= 288 ny= 192 nz= 27 output: shape= nz nx= 55296 ny= 1 nz= 27 input min, avg, max = 0.000000000000000 1.107289510680118 127.3822139584201 doing horizontal interpolation output min, avg, max= 0.000000000000000 1.324818403635516 125.5092077297407 Interpolating LCWAT input: shape=xyz nx= 288 ny= 192 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = 0.000000000000000 6.6263218606850630E-006 6.4419056916526819E-004 doing horizontal interpolation output min, avg, max= 0.000000000000000 7.6885736769897641E-006 6.2670627934035552E-004 Interpolating PBLH input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 168.5452265493271 549.2730968078062 1645.076080291232 doing horizontal interpolation output min, avg, max= 168.7324143934974 598.6866639989928 1629.053852693417 Interpolating PS input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 97564.74204206873 101649.5797036583 105163.1594357891 doing horizontal interpolation output min, avg, max= 97578.60584025468 101192.6437627654 105156.8868509842 Interpolating Q input: shape=xyz nx= 288 ny= 192 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = 1.6541955501892206E-007 1.1075572335288474E-003 1.9099228924177196E-002 doing horizontal interpolation output min, avg, max= 4.8089692822199336E-007 1.4008117810583084E-003 1.9087582038701218E-002 Interpolating QCWAT input: shape=xyz nx= 288 ny= 192 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = 1.6286207795833271E-007 1.1034199142534477E-003 1.8991073957172873E-002 doing horizontal interpolation output min, avg, max= 4.7813288311062513E-007 1.3956844801312179E-003 1.8972378728918771E-002 Interpolating QPERT input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 2.8243895816931552E-004 1.0533328713612478E-003 doing horizontal interpolation output min, avg, max= 0.000000000000000 3.4277877618469032E-004 1.0512204262944132E-003 Interpolating SICTHK input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 0.000000000000000 0.000000000000000 doing horizontal interpolation output min, avg, max= 0.000000000000000 0.000000000000000 0.000000000000000 Interpolating SNOWHICE input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 0.000000000000000 0.000000000000000 doing horizontal interpolation output min, avg, max= 0.000000000000000 0.000000000000000 0.000000000000000 Interpolating T input: shape=xyz nx= 288 ny= 192 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = 183.1211560335941 232.1024241599445 299.3492708757611 doing horizontal interpolation output min, avg, max= 183.1425250094779 235.0736682447787 299.3455575566667 Interpolating TBOT input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 267.9481804239811 280.4720327351073 299.2202738810496 doing horizontal interpolation output min, avg, max= 268.1108904406926 284.2632960655298 299.2168072409462 Interpolating TCWAT input: shape=xyz nx= 288 ny= 192 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = 183.0488596877473 232.1064083316647 299.2344112118530 doing horizontal interpolation output min, avg, max= 183.0714060123469 235.0760733869681 299.2310490719307 Interpolating TKE input: shape=xyz nx= 288 ny= 192 nz= 27 output: shape= nz nx= 55296 ny= 1 nz= 27 input min, avg, max = 9.9999999999999985E-003 1.0000000000187186E-002 1.0000000000000002E-002 doing horizontal interpolation output min, avg, max= 9.9999999999999950E-003 1.0000000000187186E-002 1.0000000000000005E-002 Interpolating TPERT input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 0.1264987039471741 0.4922691233287847 doing horizontal interpolation output min, avg, max= 0.000000000000000 0.1236819507369978 0.4645635813141370 Interpolating TS1 input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 0.000000000000000 0.000000000000000 doing horizontal interpolation output min, avg, max= 0.000000000000000 0.000000000000000 0.000000000000000 Interpolating TS2 input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 0.000000000000000 0.000000000000000 doing horizontal interpolation output min, avg, max= 0.000000000000000 0.000000000000000 0.000000000000000 Interpolating TS3 input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 0.000000000000000 0.000000000000000 doing horizontal interpolation output min, avg, max= 0.000000000000000 0.000000000000000 0.000000000000000 Interpolating TS4 input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 0.000000000000000 0.000000000000000 doing horizontal interpolation output min, avg, max= 0.000000000000000 0.000000000000000 0.000000000000000 Interpolating TSICE input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 0.000000000000000 0.000000000000000 doing horizontal interpolation output min, avg, max= 0.000000000000000 0.000000000000000 0.000000000000000 Interpolating TSICERAD input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 0.000000000000000 0.000000000000000 doing horizontal interpolation output min, avg, max= 0.000000000000000 0.000000000000000 0.000000000000000 Interpolating TSOCN input: shape= xy nx= 288 ny= 192 nz= 1 output: shape= n nx= 55296 ny= 1 nz= 1 input min, avg, max = 0.000000000000000 0.000000000000000 0.000000000000000 doing horizontal interpolation output min, avg, max= 0.000000000000000 0.000000000000000 0.000000000000000 Interpolating US input: shape=xyz nx= 288 ny= 191 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = -43.04494136064712 9.746215225107347 101.8464950477995 doing horizontal interpolation output min, avg, max= -42.98210935652233 12.12601117854364 101.4615763751348 Interpolating VS input: shape=xyz nx= 288 ny= 192 nz= 26 output: shape= nz nx= 55296 ny= 1 nz= 26 input min, avg, max = -53.57874775841553 -1.1653629630720964E-002 48.64327349872693 doing horizontal interpolation output min, avg, max= -53.22753930043879 2.0507735529374415E-002 48.59392485465317 Finished.