\begin{tabular}{|l|r|l|} \hline Name & Default & Description \\ \hline & & \\ {\bf nlat } & 32 & 0: Number of latitudes \\ {\bf nlev } & 10 & 1: Number of levels \\ & & \\ \hline \end{tabular} \newpage \begin{tabular}{|l|r|l|} \hline Name & Default & Description \\ \hline & & \\ {\bf kick } & 1 & 0: no initial noise ($p_s$ = const.) \\ {\bf } & & 1: initial random white noise \\ {\bf } & & 2: equator symmetric random white noise \\ {\bf } & & 3: mode (1,2) reproducable initialization \\ {\bf lat1oro } & & used in preprocessor \\ {\bf lat1tgt } & & used in preprocessor \\ {\bf lat2oro } & & used in preprocessor \\ {\bf lat2tgr } & & used in preprocessor \\ {\bf lon1oro } & & used in preprocessor \\ {\bf lon1tgt } & & used in preprocessor \\ {\bf lon2oro } & & used in preprocessor \\ {\bf lon2tgr } & & used in preprocessor \\ {\bf nafter } & 24 & outputinterval: obsolete, replaced by nwpd \\ {\bf ncoeff } & 0 & number of coefficients to print in {\bf wrspam} \\ {\bf ncorrect} & & used in preprocessor \\ {\bf ncu } & 0 & $ncu > 0$ : write debug info to file unit (ncu) \\ {\bf ndel } & 6 & order of hyperdiffusion for each level (2*h) \\ {\bf ndiag } & 12 & output interval for diagnostics [timesteps] \\ {\bf nextout } & 0 & extended output: ps at t-1 and t-2 \\ {\bf nfls } & & used in preprocessor \\ {\bf ngui } & 0 & 1: run with GUI \\ {\bf nguidbg } & 0 & 1: switch on GUI debug output \\ {\bf nhz } & 0 & $nhz > 0$: Held \& Suarez setups \\ {\bf nkits } & 3 & number of short initial timesteps \\ {\bf nlevt } & 0 & number of tropospheric levels (if nvg = 1) \\ {\bf nextout } & 0 & 1:extended output (entropy production) \\ {\bf nmonths } & 0 & simulation time in months \\ {\bf noro } & & used in preprocessor \\ {\bf norox } & & used in preprocessor \\ {\bf noutput } & 1 & 1:write model output to file {\bf puma\_output} \\ {\bf nreverse} & & used in preprocessor \\ {\bf nruido } & 0 & 1:add noise on every time step \\ {\bf nrun } & 0 & number of timesteps to run - 0: use nyears and nmonths \\ {\bf nsponge } & 0 & 1:use sponge layer at top \\ {\bf nsrv } & & used in preprocessor \\ {\bf nstep } & 0 & current timestep \\ {\bf nstop } & 0 & stop step - 0: compute from nyears 6 nmonths \\ {\bf nstrato } & & used in preprocessor \\ {\bf ntgr } & & used in preprocessor \\ {\bf ntspd } & 24 & number of time steps per day \\ {\bf nvg } & 0 & vertical grid type 0:linear 1:Scinocca 2:Polvani \\ {\bf nwpd } & 1 & number of writes per day (to {\bf puma\_output}) \\ {\bf nwspini } & 1 & 1: Write initial sp(:) to file {\bf puma\_sp\_ini}\\ {\bf nyears } & 1 & simulation time in years \\ {\bf nyoden } & & used in preprocessor \\ & & \\ \hline \end{tabular} \newpage \begin{tabular}{|l|r||l|} \hline Name & Default & Description \\ \hline & & \\ {\bf alrpv } & & used in preprocessor \\ {\bf alrs } & & used in preprocessor \\ {\bf disp } & 0.0 & noise amplitude for nruido = 1 \\ {\bf dorox } & & used in preprocessor \\ {\bf doroxs } & & used in preprocessor \\ {\bf doroy } & & used in preprocessor \\ {\bf doroys } & & used in preprocessor \\ {\bf dt } & & used in preprocessor \\ {\bf dtep } & 60.0 & temperature difference at surface for $T_R$ \\ {\bf } & & equator - pole (forcing) \\ {\bf dtns } & 0.0 & temperature difference at surface for $T_R$ \\ {\bf } & & North pole - South pole (season simulation) \\ {\bf dtrop } & 12000.0 & height of tropopause [m] \\ {\bf dttrp } & 2.0 & temperature increment controlling the sharpness \\ {\bf } & & of the tropopause in $T_R$ \\ {\bf dtzz } & & used in preprocessor \\ {\bf dvdiff } & 0.0 & vertical diffusion coefficient \\ {\bf edgepv } & & used in preprocessor \\ {\bf flsamp } & & used in preprocessor \\ {\bf flsdp } & & used in preprocessor \\ {\bf flsp0 } & & used in preprocessor \\ {\bf flsoff } & & used in preprocessor \\ {\bf horo } & & used in preprocessor \\ {\bf oroano } & & used in preprocessor \\ {\bf orofac } & & used in preprocessor \\ {\bf pac } & 0.0 & phase of annual cycle in [days] \\ {\bf pmaxpv } & & used in preprocessor \\ {\bf pspon } & 50.0 & sponge layer limit \\ {\bf psurf } & 101100.0 & global mean sea level pressure [Pa] \\ {\bf radpv } & & used in preprocessor \\ {\bf rotspd } & 1.0 & Earth rotation speed factor \\ {\bf sigmax } & 0.0 & sigma value of top half level \\ {\bf sponk } & 0.5 & max. damping coefficient in sponge layer \\ {\bf tac } & 0.0 & length of annual cycle in [days] \\ {\bf tauta } & 40.0 & far surface heating time scale $nhz > 0$ \\ {\bf tauts } & 0.0 & near surface heating time scale $nhz > 0$ \\ {\bf tdiss } & 0.2 & diffusion time scale for divergence [days] \\ {\bf tgr } & 288.0 & global mean temperature of ground used to set $T_R$ \\ {\bf tgrano } & 0.0 & used in preprocessor \\ {\bf ttp } & & used in preprocessor \\ & & \\ \hline \end{tabular} \begin{tabular}{|l|l|r|r||l|} \hline Name & Type & Dimension & Default & Description \\ \hline & & & & \\ {\bf ndl } & integer & NLEV & 0 & 1: activate spectral printouts for this level \\ {\bf restim } & real & NLEV & 15.0 & restoration timescale for each level \\ {\bf sigmah } & real & NLEV & 0.0 & define your own half-level layout \\ {\bf t0k } & real & NLEV & 250.0 & reference $T_R$-temperature profile \\ {\bf tfrc } & real & NLEV & 0,0,0,.. ,1 & Rayleigh friction timescale $\tau_F$ in days \\ {\bf nselect } & integer & NTP1 & 1 & enable (1) or disable (0) zonal waves \\ {\bf nspecsel } & integer & NCSP & 1 & enable (1) or disable (0) modes \\ & & & & \\ \hline \end{tabular}