dy = 50000, (同理,y 方向的网格空间分辨率) map_proj ='lambert', (投影类型,可选择:'lambert'、'polar'、'mercator'、'lat-lon') ref_lat = 42.9, (最外层domain中心纬度值,再加上网格数和网格间距就可以确定了模拟区域) ref_lon = 110.0, (同理,最外层domain中心经度值) truelat1 = 30.0, (真...
import cartopy.feature as cfeat from cnmaps import get_adm_maps, draw_map, draw_maps,clip_contours_by_map from cnmaps.sample import load_dem importcmapsfrom matplotlib.colors import ListedColormap 其中cnmaps 用来提供地图行政边界线,cmaps 用来制作地形高程的色标。 读取WRF 与 CMAQ 多层网格边界 # ...
from cartopy.mpl.tickerimportLongitudeFormatter,LatitudeFormatter from cartopy.mpl.gridlinerimportLATITUDE_FORMATTER,LONGITUDE_FORMATTERimportcmaps from cnmapsimportget_adm_maps,draw_map from globimportglobimportmetpy.calcasmpcalcimportmetpy.constantsasconstants 代码语言:javascript 代码运行次数:0 运行 变量提取与...
[0,0,.88]]) # 21 Lake cm = ListedColormap(C[inds]) labels = ['Evergreen Needleleaf Forest', 'Evergreen Broadleaf Forest', 'Deciduous Needleleaf Forest', 'Deciduous Broadleaf Forest', 'Mixed Forests', 'Closed Shrublands', 'Open Shrublands', 'Woody Savannas', 'Savannas', '...
定义投影方式,关于投影方式说明可以参考WRF官网 map_proj ='mercator'!定义区域的中心经纬度坐标 ref_lat =25.00, ref_lon = -89.00, !投影的三个参数值,随投影方式不同设定不同 truelat1 =0.0, truelat2 =0.0, stand_lon = -89.0, !geog_data_path ='地表数据存储路径'geog_data_path ='/home/wrf...
( $CORES_PER_L3CACHE / $OMP_NUM_THREADS )) MPI_OPTS=” -np $MPI_RANKS --bind-to core --map-by ppr:$RANKS_PER_L3CACHE:l3cache:pe=${OMP_NUM_THREADS} “ export OMP_STACKSIZE="64M" export OMP_PROC_BIND=TRUE export OMP_PLACES=threads export WRFIO_NCD_NO_LARGE_FILE_SUPPORT=1 ...
( $CORES_PER_L3CACHE / $OMP_NUM_THREADS )) MPI_OPTS=” -np $MPI_RANKS --bind-to core --map-by ppr:$RANKS_PER_L3CACHE:l3cache:pe=${OMP_NUM_THREADS} “ export OMP_STACKSIZE="64M" export OMP_PROC_BIND=TRUE export OMP_PLACES=threads export WRFIO_NCD_NO_LARGE_FILE_SUPPORT=1 ...
定义投影方式,关于投影方式说明可以参考WRF官网 map_proj ='mercator'!定义区域的中心经纬度坐标 ref_lat =25.00, ref_lon = -89.00, !投影的三个参数值,随投影方式不同设定不同 truelat1 =0.0, truelat2 =0.0, stand_lon = -89.0, !geog_data_path ='地表数据存储路径'geog_data_path ='/home/wrf...
map_proj = 'lambert', (投影类型,可选择:'lambert'、'polar'、'mercator'、'lat-lon') ref_lat = 42.9, (最外层domain中心纬度值,再加上网格数和网格间距就可以确定了模拟区域) ref_lon = 110.0, (同理,最外层domain中心经度值) truelat1 = 30.0, (真实纬度,与投影方式有关,与投影方式有关) ...
定义投影方式,关于投影方式说明可以参考WRF官网 map_proj ='mercator'!定义区域的中心经纬度坐标 ref_lat =25.00, ref_lon = -89.00, !投影的三个参数值,随投影方式不同设定不同 truelat1 =0.0, truelat2 =0.0, stand_lon = -89.0, !geog_data_path ='地表数据存储路径'geog_data_path ='/home/wrf...