Diagnostics from sub-sets of CMIP6 models (see Table 1),  
following 1% rise in atmospheric CO2

DT_models.nc: time series of surface air temperature change, DT (K), Fig. 1a-c

DT_glob_mean, DT_glob_std: inter-model mean and STD of planetary DT
DT_global: planetary mean DT for each model
DT_SO_mean, DT_SO_std: inter-model mean and STD of S Ocean DT
DT_SO: mean DT over S Ocean for each model
models: model names

Global Ocean and S Ocean heat uptake and storage changes, Fig. 2 a-c

SO_and_global_mean_std_uptake_and_storage.nc: 
global_mean_content_anom: global emsemble mean heat content anomaly (J)
global_std_content_anom: STD of the global heat content anomaly (J)
global_mean_cumulative_flux: global emsemble mean cumulative heat flux (J)
global_std_cumulative_flux: STD of the global cumulative heat flux (J)
SO_mean_content_anom: S Ocean emsemble mean heat content anomaly (J)
SO_std_content_anom: STD of the S Ocean heat content anomaly (J)
SO_mean_cumulative_flux: S Ocean emsemble mean cumulative heat flux (J)
SO_std_cumulative_flux: STD of the S Ocean cumulative heat flux (J)

SO_heat_uptake_and_content_timeseries.nc
so_cumulative_flux_all: S Ocean cumulative heat flux for 13 CMIP6 models (J)
so_htcontent_anom_all: S Ocean heat content anomaly for 13 CMIP6 models (J)


DF_N_DR.nc: time series of radiative forcing (DF), heat uptake (N) and

radiative response (DR), all in (W/m^2), Fig. 4a-f
DF_global, DF_STD: inter-model mean and STD of planetary DF
DF_SO, DF_SO_STD: inter-model mean and STD of S Ocean DF
DR_global, DR_STD: inter-model mean and STD of planetary DR
DR_SO, DR_SO_STD: inter-model mean and STD of S Ocean DR
N_global, N_STD: inter-model mean and STD of planetary N
N_SO, N_SO_STD: inter-model mean and STD of S Ocean N

Lambda.nc: (Fig. 6) Physical climate feedback parameter, lambda 

lambda (net) and lambda components from (Wm^-2K^-1):
T (Planck), LR lapse rate, RH relative humidity, alb albedo, SW/LW clouds SW/LW
Planetary: lambda, lam_T, lam_LR, lam_RH, lam_alb, lam_SW, lam_LW
S Ocean  : lam_SO, lam_T_SO, lam_LR_SO, lam_RH_SO, lam_alb_SO, lam_SW_SO, lam_LW_SO
values from 21 models for each variable; 'model' - model names
Lambda temporal change from year 75 to year 150 (Fig. 6b): 
D added in front of the above variables - Dlambda, Dlam_SO, Dlam_T, Dlam_T_SO  etc.

Carbon_1pctCO2_CMIP6.nc: Increase in ocean carbon inventories (PgC), Fig.8 a-c

DCocean: Global ocean carbon storage
Focean : Cumulative global ocean carbon uptake
DCso   : Southern Ocean carbon storage
Fso    : Cumulative Southern Ocean carbon uptake
models_name: 11 CMIP6 models (1:11) + their mean (12) and standard deviation (13)

CMIP6_TCRE.nc: TCRE, normalised TCRE and components for 12 CMIP6 models (Fig. 10)

DT: surface warming (K), Iem: cumulative carbon emissions (PgC) over 151 years

Normalised spread for the TCRE for 12 CMIP6 models over years 121 to 140 
defined by the individual model response divided by the mean of the models
TCRE   : Transient Climate Response to Emissions 
N      : planetary heat uptake
lam_rec: reciprocal of planetary feedback parameter
dIo dIl: global ocean and land carbon storage 
dT_dF  : thermal contribution
dF_dIa : radiative contribution
dIa_Iem: carbon contribution