When coupling iLOVECLIM to '''GRISLI including ICEBERGS''' the same steps have to be taken as in coupling iLOVECLIM to GRISLI 
plus:

lbm/choixcomposantes.h

CALVFLUX = 1 (creating of icebergs)

then icebergs/inputdata: positb.init: here the different ways of creating icebergs are defined (4 eq coupled GRISLI)

check in ism2/grisli/inputdata: hemin40_param_list.dat "Hcoup" to check the height when calving occurs (H < Hcoup is cut off and used for production of icebergs)

check if ism2/grisli/inputdata: hemin40_param_list.dat "snow" either true or false corresponds to CPLTYP in choixcomposantes.

set PMIP = 1 

if PMIP 1 then atmospheric output is defined in ecbilt/outp_atmos.param

ecbilt_clio/emic.param-alternate has to be used and there ICEBERG "T" (instead of F)

if you want to have the waterconservation activated

lbm/sources/choixcomposantes.h

WATGRISCONS = 1 

APPLY_UNCORFWF = 1



if you '''don't want to use the calved mass to produce icebergs but be put into the ocean (top layer) directly''': 

lbm/choixcomposantes.h

CALVFLUX = 2 

check in ism2/grisli/inputdata: hemin40_param_list.dat "Hcoup" to check the height when calving occurs (H < Hcoup is cut off and used for production of icebergs)

check if ism2/grisli/inputdata: hemin40_param_list.dat "snow" either true or false corresponds to CPLTYP in choixcomposantes.

set PMIP = 1 
if PMIP 1 then atmospheric output is defined in ecbilt/outp_atmos.param

ecbilt_clio/emic.param-alternate has to be used and there ICEBERG "F" (instead of T)

if you want to have the waterconservation activated

lbm/sources/choixcomposantes.h

WATGRISCONS = 1 

APPLY_UNCORFWF = 1