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ne30 | ne120 before 8/10/16 | ne120 after 8/10/16 | Explanation | ||
---|---|---|---|---|---|
dtime | 30 min | 15 min | 15 min | Timestep used for most physics processes and for coupling between physics and dynamics | |
se_nsplit | 2 | 4 | 6* | dtime/se_nsplit = time between vertical remaps of the semi-Lagrangian vertical coordinate. | |
se_qsplit | 1 | 1 | 1 | dtime/(se_nsplit*se_qsplit) = timestep used for tracer advection | |
se_rsplit | 4 | 3 | 2* | dtime/(se_nsplit*se_qsplit*se_rsplit) = timestep used for dynamics calculations | |
hypervis_subcycle | 3 | 4 | 4 | dtime/(se_nsplit_se_qsplit*se_rsplit*hypervis_subcycle) = timestep used for hyperviscosity calculation | |
hypervis_subcycle_q | 1 | 1 | 1 | dtime/(se_nsplit_se_qsplit*se_rsplit*hypervis_subcycle_q) = timestep used for hyperviscosity calculation in tracer advection (namelist_definition.xml indicates that only '1' is supported in CAM?) | |
cld_macmic_num_steps | 6 | 3* | 3 | Number of times the code surrounding macrophysics + microphysics is subcycled. This means that dtime/cld_macmic_num_steps = timestep used for macrophysics and microphysics. | |
clubb_timestep | 300 sec | 300 sec | 300 sec | I'm not sure what this means or how it relates to cld_macmic_num_steps | |
IRADSW | 2 steps | 4 steps (1 hr) | 4 steps (1 hr) | How frequently to compute SW radiation (in multiples of dtime). Radiation tendencies are taken from previous steps for steps when radiation is not recalculated. I think some scaling is made to account for zenith angle changes? | |
IRADLW | 2 steps | 4 steps | 4 steps | How frequently to compute LW radiation (in multiples of dtime). Radiation tendencies are taken from previous steps for steps when radiation is not recalculated. | |
*since AV1C-04 | *suggest to use |