--- MITgcm/doc/tag-index 1998/06/15 05:13:55 1.5 +++ MITgcm/doc/tag-index 1998/09/09 15:24:19 1.13 @@ -1,8 +1,57 @@ -$Header: /home/ubuntu/mnt/e9_copy/MITgcm/doc/tag-index,v 1.5 1998/06/15 05:13:55 cnh Exp $ +$Header: /home/ubuntu/mnt/e9_copy/MITgcm/doc/tag-index,v 1.13 1998/09/09 15:24:19 cnh Exp $ Notes on tags used in MITgcmUV ============================== +checkpoint14 + Consistent isomorphism chages made. These allow dynamical core + to support both pressure and meters as a vertical coordinate. + +checkpoint13 + Release which corrects global_max problem and a couple + of KGM time-averaging diagnostic errors. Also contains + a double-gyre experiment setup as well as the baseline + 4 degree global template. The double gyre template is + organised to allow it to be applied automatically to + the baseline configuration. + +branch-point-rdot + A few tidy-ups have been made bt the real point of this + check-point (excuse the pun) is to allow a branch to be + made for the purposes of adding the rDot alterations. + I don't want to commit the rDot to the main-trunk until + we've actually tested it... + +checkpoint12 + Tidy up and added generic genmake script (formerly + configure script). + Released to testers. + +checkpoint11 + Re-arranged initialise() and introduced ini_vertical_grid() + and ini_masks_etc(). + +checkpoint10 + Introduced the configure script. + Separated out the diags package. + Added template for writing time-averages of tile/intermediate quantities. + Updated SIZE.h in exp2 and made the data big-endian. + +checkpoint9 + MPI fix. Filename changes (meta/data). salbin*y stuff. + General tidy-up. + SST.bin SSS.bin added to verification/exp2 + +checkpoint8 + Inludes time-dependant forcing and time-averaging. + Works at 4x4 and 2.8125x2.8125 global + +checkpoint7-4degree-ref + Branch from checkpoint7. Released for application to + global modeling and general modeling - process studies, regional + model etc.. + Configured for verification/exp2 - 4 degree global, two process. + checkpoint7 Created by cnh Simple 4 degree global simulation