diff --git a/modules/amv/aeolus.py b/modules/amv/aeolus.py
index 6c86e5039a68b7c9757a67aabd2142167c175241..25d344b04414610d72e77c499971a44f9d6bd375 100644
--- a/modules/amv/aeolus.py
+++ b/modules/amv/aeolus.py
@@ -32,59 +32,59 @@ num_elems = 5424
 num_lines = 5424
 
 
-def time_dict_to_cld_layers(time_dict):
-    time_dict_layers = {}
-
-    keys = list(time_dict.keys())
-    for key in keys:
-        prof_s = time_dict[key]
-        layers = []
-        prof = prof_s[0]
-
-        if len(prof) == 1:
-            tup = prof[0]
-            layers.append((tup[0], tup[1], tup[3], tup[4]))
-            time_dict_layers[key] = layers
-            continue
-
-        top = -9999.9
-        last_bot = -9999.9
-        tup = None
-        for i in range(len(prof)):
-            tup = prof[i]
-
-            if i == 0:
-                top = tup[3]
-                bot = tup[4]
-                last_bot = bot
-            else:
-                if math.fabs(last_bot - tup[3]) > 10.0:
-                    layers.append((tup[0], tup[1], top, last_bot))
-                    top = tup[3]
-                last_bot = tup[4]
-
-        layers.append((tup[0], tup[1], top, tup[4]))
-
-        time_dict_layers[key] = layers
-
-    return time_dict_layers
-
-
-def time_dict_to_nd_2(time_dict):
-    keys = list(time_dict.keys())
-    for key in keys:
-        vals = time_dict[key]
-        if vals is not None:
-            time_dict[key] = np.stack(vals)
-
-    return time_dict
-
-
-def get_cloud_layers_dict(filename, lon360=False):
-    a_d = get_aeolus_time_dict(filename, lon360=lon360)
-    c_d = time_dict_to_cld_layers(a_d)
-    cld_lyr_dct = time_dict_to_nd_2(c_d)
-    return cld_lyr_dct
+# def time_dict_to_cld_layers(time_dict):
+#     time_dict_layers = {}
+#
+#     keys = list(time_dict.keys())
+#     for key in keys:
+#         prof_s = time_dict[key]
+#         layers = []
+#         prof = prof_s[0]
+#
+#         if len(prof) == 1:
+#             tup = prof[0]
+#             layers.append((tup[0], tup[1], tup[3], tup[4]))
+#             time_dict_layers[key] = layers
+#             continue
+#
+#         top = -9999.9
+#         last_bot = -9999.9
+#         tup = None
+#         for i in range(len(prof)):
+#             tup = prof[i]
+#
+#             if i == 0:
+#                 top = tup[3]
+#                 bot = tup[4]
+#                 last_bot = bot
+#             else:
+#                 if math.fabs(last_bot - tup[3]) > 10.0:
+#                     layers.append((tup[0], tup[1], top, last_bot))
+#                     top = tup[3]
+#                 last_bot = tup[4]
+#
+#         layers.append((tup[0], tup[1], top, tup[4]))
+#
+#         time_dict_layers[key] = layers
+#
+#     return time_dict_layers
+#
+#
+# def time_dict_to_nd_2(time_dict):
+#     keys = list(time_dict.keys())
+#     for key in keys:
+#         vals = time_dict[key]
+#         if vals is not None:
+#             time_dict[key] = np.stack(vals)
+#
+#     return time_dict
+#
+#
+# def get_cloud_layers_dict(filename, lon360=False):
+#     a_d = get_aeolus_time_dict(filename, lon360=lon360)
+#     c_d = time_dict_to_cld_layers(a_d)
+#     cld_lyr_dct = time_dict_to_nd_2(c_d)
+#     return cld_lyr_dct
 
 
 def compare_aeolus_max_height(aeolus_dict, files_path, grid_value_name='cld_height_acha', one_cld_layer_only=False, highest_layer=False):