Commit 01db0f2bdda0bede2ac141a667f24fa59840b467 - cmor

* New upstream release * Standards-Version: 4.6.1 Alastair McKinstry authored 1 year, 8 months ago Debian Janitor committed 1 year, 8 months ago

48 changed file(s) with 11813 addition(s) and 399 deletion(s). Raw diff Collapse all Expand all

-0

.gitignore less more

4	4	*.gcno
5	5	*.gcda
6	6	*.dSYM
	7	*.mod
7	8	.cproject
8	9	.project
9	10	.settings/
	11	.vscode/
10	12	Test/CMIP5
11	13	CMIP5
12	14	Makefile
13	15	build
	16	dist
	17	test_bin
	18	tests
	19	tests_html
14	20	config.log
15	21	compile_line.txt
16	22	config.status

19	25	setup.py
20	26	include/cmor_locale.h
21	27	recipes/cmor/meta.yaml
	28	CMOR.egg-info⏎

-0

.gitmodules less more

	0	[submodule "cmip6-cmor-tables"]
	1	path = cmip6-cmor-tables
	2	url = https://github.com/PCMDI/cmip6-cmor-tables.git

+67

-0

.zenodo.json less more

	0	{
	1	"description": "<p>Climate Model Output Rewriter</p>",
	2	"access_right": "open",
	3	"license": "BSD-3-Clause",
	4	"title": "PCMDI/CMOR: CMOR v3.7.0",
	5	"version": "v3.7.0",
	6	"upload_type": "software",
	7	"publication_date": "2022-08-22",
	8	"creators": [
	9	{
	10	"name": "Mauzey, Chris",
	11	"affiliation": "Lawrence Livermore National Laboratory",
	12	"orcid": "0000-0003-1156-6774"
	13	},
	14	{
	15	"name": "Durack, Paul",
	16	"affiliation": "Lawrence Livermore National Laboratory",
	17	"orcid": "0000-0003-2835-1438"
	18	},
	19	{
	20	"name": "Taylor, Karl E.",
	21	"affiliation": "Lawrence Livermore National Laboratory",
	22	"orcid": "0000-0002-6491-2135"
	23	},
	24	{
	25	"name": "Florek, Piotr",
	26	"affiliation": "Met Office Hadley Centre",
	27	"orcid": "0000-0002-1849-7620"
	28	},
	29	{
	30	"name": "Doutriaux, Charles",
	31	"affiliation": "Lawrence Livermore National Laboratory"
	32	},
	33	{
	34	"name": "Nadeau, Denis",
	35	"affiliation": "Lawrence Livermore National Laboratory (formerly)"
	36	},
	37	{
	38	"name": "Hogan, Emma"
	39	},
	40	{
	41	"name": "Kettleborough, Jamie"
	42	},
	43	{
	44	"name": "Weigel, Tobias"
	45	},
	46	{
	47	"name": "kjoti"
	48	},
	49	{
	50	"name": "jmrgonza"
	51	},
	52	{
	53	"name": "Nicholls, Zeb",
	54	"orcid": "0000-0002-4767-2723"
	55	},
	56	{
	57	"name": "Betts, Edward"
	58	},
	59	{
	60	"name": "Seddon, Jon"
	61	},
	62	{
	63	"name": "Wachsmann, Fabian"
	64	}
	65	]
	66	}⏎

-2

INSTALL less more

0	0	INSTALLATION INSTRUCTIONS
1	1	-------------------------
2		Climate Model Output Rewriter (CMOR) version 3.6.0 installation instructions.
	2	Climate Model Output Rewriter (CMOR) version 3.7.0 installation instructions.
3	3
4	4
5	5	DOWNLOAD

12	12
13	13	INSTALLATION
14	14	------------
15		CMOR 3.6.0 requires external packages that need to be installed first.
	15	CMOR 3.7.0 requires external packages that need to be installed first.
16	16	It can be compiled/linked against either NetCDF3 or NetCDF4. If you
17	17	decide to go with NetCDF4 be sure to build NetCDF4 with the
18	18	--enable-netcdf-4 option!

+23

-60

LICENSE less more

0		CCLRC License for CCLRC Software forming part of the Climate Model Output
1		Rewriter Tools Package.
	0	BSD 3-Clause License
2	1
3		The Council for the Central Laboratory of the Research Councils (CCLRC)
4		grants any person who obtains a copy of this software (the Software),
5		free of charge, the non-exclusive, worldwide right to use, copy, modify,
6		distribute and sub-license the use of the Software on the terms and
7		conditions appearing below:
	2	Copyright (c) 2017, PCMDI (Program for Climate Model Diagnosis and Intercomparison)
	3	All rights reserved.
8	4
9		1)The Software may be used only as part of the Climate Data Analysis
10		Tools Package, made available to users free of charge.
	5	Redistribution and use in source and binary forms, with or without
	6	modification, are permitted provided that the following conditions are met:
11	7
12		2)The CCLRC copyright notice and any other notice placed by CCLRC on the
13		Software must be reproduced on every copy of the Software, and on every
14		Derived Work. A Derived Work means any modification of, or enhancement
15		or improvement to, any of the Software, and any software or other work
16		developed or derived from any of the Software.
	8	1. Redistributions of source code must retain the above copyright notice, this
	9	list of conditions and the following disclaimer.
17	10
18		3)CCLRC gives no warranty and makes no representation in relation to
19		the Software. The Licensee and anyone to whom the Licensee makes the
20		Software or any Derived Work available, use the Software at their own
21		risk.
	11	2. Redistributions in binary form must reproduce the above copyright notice,
	12	this list of conditions and the following disclaimer in the documentation
	13	and/or other materials provided with the distribution.
22	14
23		4)All warranties, conditions, terms, undertakings and obligations on the
24		part of CCLRC, implied by statute, common law, custom, trade usage,
25		course of dealing or in any other way are excluded to the fullest extent
26		permitted by law.
	15	3. Neither the name of the copyright holder nor the names of its
	16	contributors may be used to endorse or promote products derived from
	17	this software without specific prior written permission.
27	18
28		5)Subject to condition 6, CCLRC will not be liable for:
29		a)any loss of profits, loss of revenue, loss or corruption
30		of data, loss of contracts or opportunity, loss of savings or third
31		party claims (in each case whether direct or indirect);
32		b)any indirect loss or damage arising out of or in
33		connection with the Software;
34		c)any direct loss or damage arising out of, or in connection
35		with, the Software in each case, whether that loss arises as a result of
36		CCLRC's negligence, or in any other way, even if CCLRC has been
37		advised of the possibility of that loss arising, or if it was within
38		CCLRC's contemplation.
39
40		6)None of these conditions limits or excludes CCLRC's liability for
41		death or personal injury caused by its negligence or for any fraud, or
42		for any sort of liability that, by law, cannot be limited or excluded.
43
44		7)These conditions set out the entire agreement relating to the
45		Software. The licensee acknowledges that it has not relied on any
46		warranty, representation, statement, agreement or undertaking given by
47		CCLRC, and waives any claim in respect of any of the same.
48
49		8)The rights granted above will cease immediately on any breach of these
50		conditions and the licensee will destroy all copies of the Software and
51		any Derived Work in its control or possession. Conditions 3, 4, 5, 6, 7,
52		8, 9 and 10 will survive termination and continue indefinitely.
53
54		9)The licence and these conditions are governed by, and are to be
55		construed in accordance with, English law. The English Courts will have
56		exclusive jurisdiction to deal with any dispute which has arisen or may
57		arise out of or in connection with the Software, the rights granted and
58		these conditions, except that CCLRC may bring proceedings for an
59		injunction in any jurisdiction.
60
61		10)If the whole or any part of these conditions are void or
62		unenforceable in any jurisdiction, the other provisions, and the rest of
63		the void or unenforceable provision, will continue in force in that
64		jurisdiction, and the validity and enforceability of that provision in
65		any other jurisdiction will not be affected.
	19	THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
	20	AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	21	IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
	22	DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE
	23	FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
	24	DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
	25	SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER
	26	CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY,
	27	OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	28	OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

-1

Lib/__init__.py less more

11	11	set_cur_dataset_attribute, get_cur_dataset_attribute,
12	12	has_cur_dataset_attribute, set_variable_attribute, get_variable_attribute,
13	13	has_variable_attribute, get_final_filename, set_deflate, set_furtherinfourl,
14		set_climatology, get_climatology, set_terminate_signal, get_terminate_signal)
	14	set_climatology, get_climatology, set_terminate_signal, get_terminate_signal,
	15	calculate_leadtime_coord)
15	16
16	17	try:
17	18	from check_CMOR_compliant import checkCMOR

-5

Lib/pywrapper.py less more

429	429	raise Exception("error allowed data data_type are: int32, int64, float32, float64, string")
430	430
431	431	if data_type == 'S' or data_type == 'U':
	432	if data_type == 'S':
	433	coord_vals = numpy.char.decode(coord_vals, encoding='utf-8')
432	434	data_type = 'c'
433	435	cbnds = 0
434		for s in coord_vals:
435		# print 'testing:',s,len(s)
436		if len(s) > cbnds:
437		cbnds = len(s)
438		# cbnds+=1
439	436	else:
440	437	l = 0
441	438	data_type = 'd'

459	456
460	457	return _cmor.axis(table_entry, units, l, coord_vals,
461	458	str.encode(data_type), cell_bounds, cbnds, interval)
	459
	460
	461	def calculate_leadtime_coord(var_id):
	462	return _cmor.calculate_leadtime_coord(var_id)
462	463
463	464
464	465	def variable(table_entry, units, axis_ids, data_type='f', missing_value=None,

-6

LibCV/PrePARE/PrePARE.py less more

492	492	for attr in ['branch_time_in_child', 'branch_time_in_parent']:
493	493	if attr in list(self.dictGbl.keys()):
494	494	self.set_double_value(attr)
495		if not numpy.issubdtype(self.dictGbl[attr], numpy.float64):
	495	if not numpy.issubdtype(type(self.dictGbl[attr]), numpy.float64):
496	496	msg = "{} is not a double: {}".format(attr, type(self.dictGbl[attr]))
497	497	self.prepare_print(msg, 'FAIL', no_text_color, lines=True)
498	498	self.errors += 1
499	499	for attr in ['realization_index', 'initialization_index', 'physics_index', 'forcing_index']:
500	500	try:
501		if not numpy.issubdtype(self.dictGbl[attr], numpy.integer):
	501	if not numpy.issubdtype(type(self.dictGbl[attr]), numpy.integer):
502	502	msg = "{} is not an integer: {}".format(attr, type(self.dictGbl[attr]))
503	503	self.prepare_print(msg, 'FAIL', no_text_color, lines=True)
504	504	self.errors += 1

616	616	table_value = file_value
617	617	if key == "cell_methods":
618	618	# Remove text that is inside parentheses i.e. comments
619		file_value = re.sub(r"$.*$", "", file_value)
620		table_value = re.sub(r"$.*$", "", table_value)
	619	file_value = re.sub(r"$.*?$", "", file_value)
	620	table_value = re.sub(r"$.*?$", "", table_value)
621	621	# Remove extra whitespace
622	622	file_value = " ".join(file_value.split())
623	623	table_value = " ".join(table_value.split())

930	930	remove_ansi = re.compile(r'\x1b\[[0-?][ -/][@-~]')
931	931	for logfile in set(logfiles):
932	932	if not os.stat(logfile).st_size == 0:
933		with open(logfile, 'r') as f:
	933	with open(logfile, 'r', encoding='utf8', errors='ignore') as f:
934	934	log_text = f.read()
935	935	if args.no_text_color:
936	936	log_text = remove_ansi.sub('', log_text)

954	954	logfile, rc = process(source)
955	955	errors += rc
956	956	if not os.stat(logfile).st_size == 0:
957		with open(logfile, 'r') as f:
	957	with open(logfile, 'r', encoding='utf8', errors='ignore') as f:
958	958	log_text = f.read()
959	959	if args.no_text_color:
960	960	log_text = remove_ansi.sub('', log_text)

-4

Makefile.in less more

10	10	USERFFLAGS=@USERFFLAGS@
11	11	#MODULE_SUFFIX="mod"
12	12	PREFIX=@prefix@
13		PYTHONPATH:=@prefix@/lib/python2.7/site-packages:${PYTHONPATH}
	13	PYTHONPATH:=@prefix@/lib/python/site-packages:${PYTHONPATH}
14	14	DIR=$(shell echo ${PYTHONPATH} \| cut -d: -f1)
15	15	FCFLAGS=@FCFLAGS@
16	16	PYTHONEXEC=@PYTHONEXEC@

145	145	endif
146	146	python:
147	147	@echo "Building Python interface"
148		#if [ ! -d "${DIR}" ]; then mkdir -p ${DIR}; fi
149		LDSHARED=${LDSHARED} ${PYTHONEXEC} setup.py install @CDATPREFIX@
	148	LDSHARED=${LDSHARED} ${PYTHONEXEC} -m pip install --no-deps $(srcdir)
150	149	test_a_python:
151	150	@echo "${OK_COLOR}Testing ${TEST_NAME} ${NO_COLOR}"
152	151	${PYTHONEXEC} ${TEST_NAME} ${VERB}

221	220	env TEST_NAME=Test/test_python_filename_time_range.py make test_a_python
222	221	env TEST_NAME=Test/test_cmor_half_levels.py make test_a_python
223	222	env TEST_NAME=Test/test_cmor_half_levels_wrong_generic_level.py make test_a_python
224		env TEST_NAME=Test/test_cmor_double_singleton.py make test_a_python
225	223	env TEST_NAME=Test/test_cmor_python_not_enough_data.py make test_a_python
226	224	env TEST_NAME=Test/test_cmor_python_not_enough_times_written.py make test_a_python
	225	env TEST_NAME=Test/test_python_forecast_coordinates.py make test_a_python
227	226	test_python_2gb:
228	227	env TEST_NAME=Test/test_python_2Gb_file.py make test_a_python
229	228	env TEST_NAME=Test/test_python_2Gb_slice.py make test_a_python

-2

README.md less more

3	3	CMOR 3.6 documentation can be found here: http://cmor.llnl.gov
4	4
5	5
6		[![DOI](https://zenodo.org/badge/DOI/10.5281/zenodo.3355583.svg)](https://doi.org/10.5281/zenodo.3355583)
7		[![stable version](https://img.shields.io/badge/stable%20version-3.6.0-brightgreen.svg)](https://github.com/PCMDI/cmor/releases/tag/3.6.0)
	6
	7	[![DOI](https://zenodo.org/badge/DOI/10.5281/zenodo.4328851.svg)](https://doi.org/10.5281/zenodo.4328851)
	8	[![stable version](https://img.shields.io/badge/stable%20version-3.6.1-brightgreen.svg)](https://github.com/PCMDI/cmor/releases/tag/3.6.1)
8	9	![platforms](https://img.shields.io/badge/platforms-linux%20\|%20osx-lightgrey.svg)
9	10	[![Anaconda-Server Badge](https://anaconda.org/pcmdi/cmor/badges/installer/conda.svg)](https://conda.anaconda.org/pcmdi)
10	11	[![Anaconda-Server Badge](https://anaconda.org/pcmdi/cmor/badges/downloads.svg)](https://anaconda.org/pcmdi)

+39

-11

Src/_cmormodule.c less more

457	457	static PyObject PyCMOR_axis(PyObject self, PyObject * args)
458	458	{
459	459	signal(signal_to_catch, signal_handler);
460		int ierr, axis_id, n = 0;
	460	int ierr, axis_id, i, n = 0;
	461	int string_length, max_string_length;
461	462	char *name;
462	463	char *units;
463	464	char *interval;

467	468	void *cell_bounds;
468	469	int cell_bounds_ndim;
469	470	char *tmpstr = NULL;
470		PyObject coords_obj, bounds_obj;
	471	char *dataptr;
	472	npy_intp stride;
	473	PyObject coords_obj, bounds_obj, *tmp;
471	474	PyArrayObject coords = NULL, bounds = NULL;
472	475
473	476	/************************************************************************/

495	498	coord_vals = (void *)PyArray_DATA(coords);
496	499	n = cell_bounds_ndim;
497	500	} else {
	501	stride = PyArray_STRIDE(coords, 0);
	502	dataptr = PyArray_DATA(coords);
	503
	504	// Find maximum size of string
	505	max_string_length = 0;
	506	for (i = 0; i < length; i++) {
	507	tmp = PyArray_GETITEM(coords, dataptr);
	508	#if PY_MAJOR_VERSION >= 3
	509	string_length = PyUnicode_GET_LENGTH(tmp);
	510	#else
	511	string_length = PyString_Size(tmp);
	512	#endif
	513	if(string_length > max_string_length){
	514	max_string_length = string_length;
	515	}
	516	dataptr += stride;
	517	}
	518
	519	// Copy strings from array
	520	dataptr = PyArray_DATA(coords);
498	521	tmpstr =
499		(char )malloc(sizeof(char) length * (cell_bounds_ndim + 1));
500		for (ierr = 0; ierr < length; ierr++) {
501		coord_vals = (void *)PyArray_GETPTR1(coords, ierr);
502		strncpy(&tmpstr[ierr * (cell_bounds_ndim + 1)],
503		coord_vals, cell_bounds_ndim);
504		tmpstr[ierr * (cell_bounds_ndim + 1) + cell_bounds_ndim] = '\0';
	522	(char )malloc(sizeof(char) length * (max_string_length + 1));
	523	for (i = 0; i < length; i++) {
	524	tmp = PyArray_GETITEM(coords, dataptr);
	525	#if PY_MAJOR_VERSION >= 3
	526	strncpy(&tmpstr[i * (max_string_length + 1)],
	527	PyUnicode_AsUTF8(tmp), max_string_length);
	528	tmpstr[i * (max_string_length + 1) + max_string_length] = '\0';
	529	#else
	530	strncpy(&tmpstr[i * (max_string_length + 1)],
	531	PyString_AsString(tmp), max_string_length);
	532	tmpstr[i * (max_string_length + 1) + max_string_length] = '\0';
	533	#endif
	534	dataptr += stride;
505	535	}
506	536	coord_vals = &tmpstr[0];
507		n = cell_bounds_ndim + 1;
508		for (ierr = 0; ierr < length; ierr++) {
509		}
	537	n = max_string_length + 1;
510	538	}
511	539	}
512	540

+289

-1

Src/cmor.c less more

1122	1122
1123	1123	if (ut_get_status() != UT_SUCCESS) {
1124	1124	snprintf(msg, CMOR_MAX_STRING,
1125		"Udunits: creating Practical Salinty Scale 78 unit");
	1125	"Udunits: creating Practical Salinity Scale 78 unit");
1126	1126	cmor_handle_error(msg, CMOR_CRITICAL);
1127	1127	}
1128	1128	if (perunit != NULL)

2729	2729	}
2730	2730	cmor_pop_traceback();
2731	2731	return (ncid);
	2732	}
	2733
	2734	/************************************************************************/
	2735	/* cmor_setDefaultGblAttr() */
	2736	/************************************************************************/
	2737	int cmor_setDefaultGblAttr(int ref_table_id)
	2738	{
	2739	cmor_CV_def_t *CV_value;
	2740	cmor_CV_def_t *CV_source_id;
	2741	cmor_CV_def_t *CV_source_ids;
	2742	cmor_CV_def_t *required_attrs;
	2743	char source_id[CMOR_MAX_STRING];
	2744	char msg[CMOR_MAX_STRING];
	2745	int i, j, k;
	2746	int isRequired;
	2747	int ierr = 0;
	2748
	2749	cmor_add_traceback("cmor_setDefaultGblAttr");
	2750
	2751	/* -------------------------------------------------------------------- */
	2752	/* If this function was called without the dataset being initialized */
	2753	/* by cmor_dataset_json, then exit. */
	2754	/* -------------------------------------------------------------------- */
	2755	if (cmor_current_dataset.initiated == 0) {
	2756	cmor_pop_traceback();
	2757	return (0);
	2758	}
	2759
	2760	ierr = cmor_get_cur_dataset_attribute(GLOBAL_ATT_SOURCE_ID, source_id);
	2761	if (ierr != 0) {
	2762	snprintf(msg, CMOR_MAX_STRING, "Can't read dataset attribute %s",
	2763	GLOBAL_ATT_SOURCE_ID);
	2764	cmor_handle_error(msg, CMOR_CRITICAL);
	2765	return (1);
	2766	}
	2767
	2768	/* -------------------------------------------------------------------- */
	2769	/* Find source_id entry in CV table. */
	2770	/* -------------------------------------------------------------------- */
	2771	CV_source_ids = cmor_CV_rootsearch(cmor_tables[ref_table_id].CV, CV_KEY_SOURCE_IDS);
	2772	for(i = 0; i < CV_source_ids->nbObjects; i++){
	2773	CV_source_id = &CV_source_ids->oValue[i];
	2774	if (strncmp(CV_source_id->key, source_id, CMOR_MAX_STRING) == 0) {
	2775	break;
	2776	}
	2777	}
	2778
	2779	/* -------------------------------------------------------------------- */
	2780	/* Set default values for registered CV values. */
	2781	/* -------------------------------------------------------------------- */
	2782	required_attrs = cmor_CV_rootsearch(cmor_tables[ref_table_id].CV, CV_KEY_REQUIRED_GBL_ATTRS);
	2783	for(j = 0; j < CV_source_id->nbObjects; j++){
	2784	CV_value = &CV_source_id->oValue[j];
	2785
	2786	// Check if the attribute is required
	2787	isRequired = 0;
	2788	for (k = 0; k < required_attrs->anElements; k++) {
	2789	if(strcmp(CV_value->key, required_attrs->aszValue[k]) == 0)
	2790	isRequired = 1;
	2791	}
	2792
	2793	if(cmor_has_cur_dataset_attribute(CV_value->key) != 0){
	2794	if(CV_value->szValue[0] != '\0'){
	2795	ierr \|= cmor_set_cur_dataset_attribute_internal(CV_value->key, CV_value->szValue, 0);
	2796	if(strncmp(CV_value->key, GLOBAL_ATT_FURTHERINFOURL, CMOR_MAX_STRING) == 0){
	2797	strncpytrim(cmor_current_dataset.furtherinfourl, CV_value->szValue, CMOR_MAX_STRING);
	2798	}
	2799	} else if(CV_value->anElements == 1 && isRequired == 1){
	2800	ierr \|= cmor_set_cur_dataset_attribute_internal(CV_value->key, CV_value->aszValue[0], 0);
	2801	}
	2802	}
	2803	}
	2804	cmor_pop_traceback();
	2805	return ierr;
	2806
2732	2807	}
2733	2808
2734	2809	/************************************************************************/

4569	4644	/* Decides NetCDF mode */
4570	4645	/* -------------------------------------------------------------------- */
4571	4646	ncid = cmor_validateFilename(outname, file_suffix, var_id);
	4647	cmor_current_dataset.associated_file = ncid;
4572	4648	if(!bAppendMode) {
4573	4649	/* -------------------------------------------------------------------- */
4574	4650	/* we closed and reopened the same test, in case we */

4686	4762	nc_bnds_vars, nc_vars_af, nc_associated_vars, nc_singletons,
4687	4763	nc_singletons_bnds, nc_zfactors, zfactors, nzfactors,
4688	4764	nc_dim_chunking, outname);
	4765
	4766
4689	4767	}
4690	4768
4691	4769	} else {

4773	4851	}
4774	4852	cmor_write_var_to_file(ncid, &cmor_vars[var_id], data, type,
4775	4853	ntimes_passed, time_vals, time_bounds);
	4854	/* -------------------------------------------------------------------- */
	4855	/* Check if we need to add leadtime coordinate */
	4856	/* -------------------------------------------------------------------- */
	4857	if (strstr(cmor_tables[cmor_vars[var_id].ref_table_id].vars[cmor_vars[var_id].ref_var_id].dimensions_str, AXIS_FORECAST_LEADTIME)) {
	4858	calculate_leadtime_coord(var_id);
	4859	}
4776	4860	cmor_pop_traceback();
4777	4861	return (0);
4778	4862	}

6460	6544	i--;
6461	6545	}
6462	6546	}
	6547
	6548	/************************************************************************/
	6549	/* compare_txt_attributes() */
	6550	/************************************************************************/
	6551	int compare_txt_attributes(int ncid, int srcid, int destid, char* name) {
	6552	size_t attlen;
	6553	char *srcattr;
	6554	char *destattr;
	6555	char msg[CMOR_MAX_STRING];
	6556	int ierr;
	6557	int ret;
	6558
	6559	if (ierr = nc_inq_attlen(ncid, srcid, name, &attlen)) {
	6560	snprintf(msg, CMOR_MAX_STRING, "cannot determine size of attribute %s", name);
	6561	cmor_handle_error(msg, CMOR_CRITICAL);
	6562	};
	6563	srcattr = malloc(attlen * sizeof(char));
	6564
	6565	if (ierr = nc_get_att_text(ncid, srcid, name, srcattr)) {
	6566	snprintf(msg, CMOR_MAX_STRING, "cannot retrieve value of attribute %s", name);
	6567	cmor_handle_error(msg, CMOR_CRITICAL);
	6568	};
	6569
	6570	if (ierr = nc_inq_attlen(ncid, destid, name, &attlen)) {
	6571	snprintf(msg, CMOR_MAX_STRING, "cannot determine size of attribute %s", name);
	6572	cmor_handle_error(msg, CMOR_CRITICAL);
	6573	};
	6574	destattr = malloc(attlen * sizeof(char));
	6575
	6576	if (ierr = nc_get_att_text(ncid, destid, name, destattr)) {
	6577	snprintf(msg, CMOR_MAX_STRING, "cannot retrieve value of attribute %s", name);
	6578	cmor_handle_error(msg, CMOR_CRITICAL);
	6579	};
	6580	ret = strcmp(srcattr, destattr);
	6581	free(destattr);
	6582	free(srcattr);
	6583	if (ret != 0) {
	6584	snprintf(msg, CMOR_MAX_STRING, "'%s' attribute does not match", name);
	6585	cmor_handle_error(msg, CMOR_CRITICAL);
	6586	}
	6587	return ret;
	6588	}
	6589
	6590	/************************************************************************/
	6591	/* copy_txt_attribute() */
	6592	/************************************************************************/
	6593	int copy_txt_attribute(int ncid, int srcid, int destid, char* name, char* suffix) {
	6594	size_t attlen;
	6595	char *srcattr;
	6596	char *destattr;
	6597	char msg[CMOR_MAX_STRING];
	6598	int ierr;
	6599
	6600	if (ierr = nc_inq_attlen(ncid, srcid, name, &attlen)) {
	6601	snprintf(msg, CMOR_MAX_STRING, "cannot determine size of attribute %s", name);
	6602	cmor_handle_error(msg, CMOR_CRITICAL);
	6603	};
	6604	srcattr = malloc(attlen * sizeof(char));
	6605
	6606	if (ierr = nc_get_att_text(ncid, srcid, name, srcattr)) {
	6607	snprintf(msg, CMOR_MAX_STRING, "cannot retrieve value of attribute %s", name);
	6608	cmor_handle_error(msg, CMOR_CRITICAL);
	6609	};
	6610	if (suffix == "") {
	6611	destattr = srcattr;
	6612	} else {
	6613	destattr = malloc(strlen(srcattr) + strlen(suffix) + 1);
	6614	strcpy(destattr, srcattr);
	6615	strcat(destattr, suffix);
	6616
	6617	}
	6618	if (ierr = nc_put_att_text(ncid, destid, name, strlen(destattr) + 1, destattr)) {
	6619	snprintf(msg, CMOR_MAX_STRING, "cannot copy attribute %s", name);
	6620	cmor_handle_error(msg, CMOR_CRITICAL);
	6621	}
	6622	if (suffix != "") {
	6623	free(destattr);
	6624	}
	6625	free(srcattr);
	6626	return (0);
	6627	}
	6628
	6629	/************************************************************************/
	6630	/* set_txt_attribute() */
	6631	/************************************************************************/
	6632	int set_txt_attribute(int ncid, int destid, char* name, char* val){
	6633	char msg[CMOR_MAX_STRING];
	6634	int ierr;
	6635	if (ierr = nc_put_att_text(ncid, destid, name, strlen(val) + 1, val)) {
	6636	snprintf(msg, CMOR_MAX_STRING, "cannot write '%s' to attribute %s", val, name);
	6637	cmor_handle_error(msg, CMOR_CRITICAL);
	6638	}
	6639	return (0);
	6640	}
	6641
	6642	/************************************************************************/
	6643	/* calculate_leadtime_coord() */
	6644	/************************************************************************/
	6645	int calculate_leadtime_coord(int var_id) {
	6646	int i = 0;
	6647	int ncid = 0;
	6648	int retval = 0;
	6649	int ierr = 0;
	6650	int leadtime = 0;
	6651	int time_dim = 0;
	6652	int reftime = 0;
	6653	int time = 0;
	6654	char msg[CMOR_MAX_STRING];
	6655	size_t timelen;
	6656	double *time_vals;
	6657	double *leadtime_vals;
	6658	double *reftime_val;
	6659	static size_t start[] = {0};
	6660	static size_t count[] = {0};
	6661	extern cmor_dataset_def cmor_current_dataset;
	6662	extern cmor_var_t cmor_vars[CMOR_MAX_VARIABLES];
	6663
	6664	cmor_add_traceback("cmor_calculate_leadtime_coord");
	6665	cmor_is_setup();
	6666	ncid = cmor_current_dataset.associated_file;
	6667
	6668	/* need both time and reftime for leadtime calculation */
	6669	if (ierr = nc_inq_dimid(ncid, "time", &time_dim)) {
	6670	snprintf(msg, CMOR_MAX_STRING, "'time' dimension not present in the file");
	6671	cmor_handle_error(msg, CMOR_CRITICAL);
	6672	}
	6673	if (ierr = nc_inq_dimlen(ncid, time_dim, &timelen)) {
	6674	snprintf(msg, CMOR_MAX_STRING, "cannot determine length of the time dimension");
	6675	cmor_handle_error(msg, CMOR_CRITICAL);
	6676	}
	6677	if (ierr = nc_inq_varid(ncid, "reftime", &reftime)) {
	6678	snprintf(msg, CMOR_MAX_STRING, "'reftime' variable not present in the file");
	6679	cmor_handle_error(msg, CMOR_CRITICAL);
	6680	}
	6681	if (ierr = nc_inq_varid(ncid, "time", &time)) {
	6682	snprintf(msg, CMOR_MAX_STRING, "'time' variable not present in the file");
	6683	cmor_handle_error(msg, CMOR_CRITICAL);
	6684	}
	6685	if (compare_txt_attributes(ncid, time, reftime, "units") \|\| compare_txt_attributes(ncid, time, reftime, "calendar")) {
	6686	cmor_pop_traceback();
	6687	return(1);
	6688	}
	6689
	6690	reftime_val = malloc(sizeof(double));
	6691	time_vals = malloc(timelen * sizeof(double));
	6692	leadtime_vals = malloc(timelen * sizeof(double));
	6693
	6694	/* get values for the calculation */
	6695
	6696	/* reftime is scalar */
	6697	if (ierr = nc_get_var_double(ncid, reftime, reftime_val)) {
	6698	snprintf(msg, CMOR_MAX_STRING, "cannot retrieve value of 'reftime' variable");
	6699	cmor_handle_error(msg, CMOR_CRITICAL);
	6700	}
	6701
	6702	/* update length of the vector for time coord */
	6703	count[0] = timelen;
	6704
	6705	if (ierr = nc_get_vara_double(ncid, time, start, count, time_vals)) {
	6706	snprintf(msg, CMOR_MAX_STRING, "cannot retrieve values of 'time' variable");
	6707	cmor_handle_error(msg, CMOR_CRITICAL);
	6708	}
	6709	/* calculate leadtime */
	6710	for (i = 0; i < timelen; i++) {
	6711	leadtime_vals[i] = time_vals[i] - reftime_val[0];
	6712	if (leadtime_vals[i] < 0.0) {
	6713	snprintf(msg, CMOR_MAX_STRING, "'leadtime' for timestep %i is negative", i);
	6714	cmor_handle_error(msg, CMOR_CRITICAL);
	6715	}
	6716	}
	6717
	6718	/* activate define mode */
	6719	nc_redef(ncid);
	6720	/* add leadtime */
	6721	if (ierr = nc_def_var(ncid, "leadtime", NC_DOUBLE, 1, &time_dim, &leadtime)) {
	6722	snprintf(msg, CMOR_MAX_STRING, "cannot add 'leadtime' variable");
	6723	cmor_handle_error(msg, CMOR_CRITICAL);
	6724	}
	6725
	6726	/* variable attributes */
	6727	set_txt_attribute(ncid, leadtime, "axis", "T");
	6728	set_txt_attribute(ncid, leadtime, "units", "days");
	6729	set_txt_attribute(ncid, leadtime, "long_name", "Time elapsed since the start of the forecast");
	6730	set_txt_attribute(ncid, leadtime, "standard_name", "forecast_period");
	6731
	6732	/* update coordinates attribute */
	6733	copy_txt_attribute(ncid, cmor_vars[var_id].nc_var_id, cmor_vars[var_id].nc_var_id, "coordinates", " leadtime");
	6734
	6735	/* deactivate define mode */
	6736	ierr = nc_enddef(ncid);
	6737	if (ierr != NC_NOERR) {
	6738	snprintf(msg, CMOR_MAX_STRING, "NetCDF Error (%i: %s) leaving definition mode", ierr, nc_strerror(ierr));
	6739	cmor_handle_error_var(msg, CMOR_CRITICAL, var_id);
	6740	}
	6741	if (ierr = nc_put_vara_double(ncid, leadtime, start, count, leadtime_vals)) {
	6742	snprintf(msg, CMOR_MAX_STRING, "cannot save 'leadtime' coordinates");
	6743	cmor_handle_error(msg, CMOR_CRITICAL);
	6744	}
	6745
	6746	free(leadtime_vals);
	6747	free(time_vals);
	6748	free(reftime_val);
	6749	return (0);
	6750	}⏎

+139

-28

Src/cmor_CV.c less more

609	609	int nLen;
610	610	char msg[CMOR_MAX_STRING];
611	611	char CV_Filename[CMOR_MAX_STRING];
	612	char CMOR_Filename[CMOR_MAX_STRING];
612	613	int rc;
613	614	int i;
614	615	int j = 0;

616	617	cmor_is_setup();
617	618	cmor_add_traceback("_CV_checkSourceID");
618	619	cmor_get_cur_dataset_attribute(CV_INPUTFILENAME, CV_Filename);
	620	rc = cmor_has_cur_dataset_attribute(CMOR_INPUTFILENAME);
	621	if (rc == 0) {
	622	cmor_get_cur_dataset_attribute(CMOR_INPUTFILENAME, CMOR_Filename);
	623	} else {
	624	CMOR_Filename[0] = '\0';
	625	}
	626
619	627	/* -------------------------------------------------------------------- */
620	628	/* Find experiment_ids dictionary in Control Vocabulary */
621	629	/* -------------------------------------------------------------------- */

699	707	if (i == CV_source_ids->nbObjects) {
700	708
701	709	snprintf(msg, CMOR_MAX_STRING,
702		"The source_id, \"%s\", which you specified in your \n! "
703		"input file could not be found in \n! "
	710	"The source_id, \"%s\", found in your \n! "
	711	"input file (%s) could not be found in \n! "
704	712	"your Controlled Vocabulary file. (%s) \n! \n! "
705		"Please correct your input file or contact "
706		"cmor@listserv.llnl.gov to register\n! "
707		"a new source. ", szSource_ID, CV_Filename);
	713	"Please correct your input file by using a valid source_id listed in your MIP tables' CV file.\n! "
	714	"To add a new source_id to the %s file, open a new issue in the\n! "
	715	"table's Github repository. Managed project CMOR and MIP tables are listed at\n! "
	716	"https://wcrp-cmip.github.io/WGCM_Infrastructure_Panel/cmor_and_mip_tables.html. \n! "
	717	"Contact \"pcmdi-cmip@llnl.gov\" for additional guidance. \n! \n! "
	718	"See \"http://cmor.llnl.gov/mydoc_cmor3_CV/\" for further information about\n! "
	719	"the \"source_id\" and \"source\" global attributes. ",
	720	szSource_ID, CMOR_Filename, CV_Filename, CV_Filename);
708	721
709	722	cmor_handle_error(msg, CMOR_NORMAL);
710	723	cmor_pop_traceback();

819	832	char szVariant[CMOR_MAX_STRING];
820	833
821	834	char msg[CMOR_MAX_STRING];
	835	int ierr = 0;
822	836
823	837	cmor_add_traceback("_CV_checkSubExperiment");
824	838	// Initialize variables
825	839	cmor_get_cur_dataset_attribute(CV_INPUTFILENAME, CV_Filename);
826		cmor_get_cur_dataset_attribute(GLOBAL_ATT_EXPERIMENTID, szExperiment_ID);
	840	ierr = cmor_get_cur_dataset_attribute(GLOBAL_ATT_EXPERIMENTID, szExperiment_ID);
	841	if (ierr != 0) {
	842	snprintf(msg, CMOR_MAX_STRING,
	843	"Your \"%s\" is not defined, check your required attributes\n! "
	844	"See Control Vocabulary JSON file.(%s)\n! ",
	845	GLOBAL_ATT_EXPERIMENTID, CV_Filename);
	846	cmor_handle_error(msg, CMOR_NORMAL);
	847	cmor_pop_traceback();
	848	return (-1);
	849	}
827	850	// Look for sub_experiment_id section
828	851	CV_sub_experiment_id = cmor_CV_rootsearch(CV, CV_KEY_SUB_EXPERIMENT_ID);
829	852	if (CV_sub_experiment_id == NULL) {

1015	1038	cmor_add_traceback("_CV_checkParentExpID");
1016	1039
1017	1040	cmor_get_cur_dataset_attribute(CV_INPUTFILENAME, CV_Filename);
1018		cmor_get_cur_dataset_attribute(GLOBAL_ATT_EXPERIMENTID, szExperiment_ID);
	1041	ierr = cmor_get_cur_dataset_attribute(GLOBAL_ATT_EXPERIMENTID, szExperiment_ID);
	1042	if (ierr != 0) {
	1043	snprintf(msg, CMOR_MAX_STRING,
	1044	"Your \"%s\" is not defined, check your required attributes\n! "
	1045	"See Control Vocabulary JSON file.(%s)\n! ",
	1046	GLOBAL_ATT_EXPERIMENTID, CV_Filename);
	1047	cmor_handle_error(msg, CMOR_NORMAL);
	1048	cmor_pop_traceback();
	1049	return (-1);
	1050	}
1019	1051	// Look for experiment_id section
1020	1052	CV_experiment_ids = cmor_CV_rootsearch(CV, CV_KEY_EXPERIMENT_ID);
1021	1053	if (CV_experiment_ids == NULL) {

1377	1409	szExpValue[0] = '\0';
1378	1410	cmor_add_traceback("_CV_checkExperiment");
1379	1411	cmor_get_cur_dataset_attribute(CV_INPUTFILENAME, CV_Filename);
1380		cmor_get_cur_dataset_attribute(GLOBAL_ATT_EXPERIMENTID, szExperiment_ID);
	1412	ierr = cmor_get_cur_dataset_attribute(GLOBAL_ATT_EXPERIMENTID, szExperiment_ID);
	1413	if (ierr != 0) {
	1414	snprintf(msg, CMOR_MAX_STRING,
	1415	"Your \"%s\" is not defined, check your required attributes\n! "
	1416	"See Control Vocabulary JSON file.(%s)\n! ",
	1417	GLOBAL_ATT_EXPERIMENTID, CV_Filename);
	1418	cmor_handle_error(msg, CMOR_NORMAL);
	1419	cmor_pop_traceback();
	1420	return (-1);
	1421	}
1381	1422	/* -------------------------------------------------------------------- */
1382	1423	/* Find experiment_ids dictionary in Control Vocabulary */
1383	1424	/* -------------------------------------------------------------------- */

1824	1865
1825	1866	if (CV_institution == NULL) {
1826	1867	snprintf(msg, CMOR_MAX_STRING,
1827		"The institution_id, \"%s\", found in your \n! "
	1868	"The institution_id, \"%s\", found in your \n! "
1828	1869	"input file (%s) could not be found in \n! "
1829	1870	"your Controlled Vocabulary file. (%s) \n! \n! "
1830		"Please correct your input file or contact "
1831		"\"cmor@listserv.llnl.gov\" to register\n! "
1832		"a new institution_id. \n! \n! "
	1871	"Please correct your input file by using a valid institution_id listed in your MIP tables' CV file.\n! "
	1872	"To add a new institution_id to the %s file, open a new issue in the\n! "
	1873	"table's Github repository. Managed project CMOR and MIP tables are listed at\n! "
	1874	"https://wcrp-cmip.github.io/WGCM_Infrastructure_Panel/cmor_and_mip_tables.html. \n! "
	1875	"Contact \"pcmdi-cmip@llnl.gov\" for additional guidance. \n! \n! "
1833	1876	"See \"http://cmor.llnl.gov/mydoc_cmor3_CV/\" for further information about\n! "
1834	1877	"the \"institution_id\" and \"institution\" global attributes. ",
1835		szInstitution_ID, CMOR_Filename, CV_Filename);
	1878	szInstitution_ID, CMOR_Filename, CV_Filename, CV_Filename);
1836	1879	cmor_handle_error(msg, CMOR_NORMAL);
1837	1880	cmor_pop_traceback();
1838	1881	return (-1);

1908	1951	cmor_CV_def_t *key_CV;
1909	1952	cmor_CV_def_t *list_CV;
1910	1953	cmor_CV_def_t *CV_key;
	1954	cmor_CV_def_t *required_attrs;
1911	1955	char szValue[CMOR_MAX_STRING];
1912	1956	char msg[CMOR_MAX_STRING];
1913	1957	char CV_Filename[CMOR_MAX_STRING];
1914	1958	char szValids[CMOR_MAX_STRING];
1915	1959	char szOutput[CMOR_MAX_STRING];
1916	1960	char szTmp[CMOR_MAX_STRING];
1917		int i;
	1961	char tableValue[CMOR_MAX_STRING];
	1962	int i, j;
1918	1963	int nObjects;
1919	1964	regex_t regex;
1920	1965	int reti;
1921	1966	int ierr;
1922	1967	int nValueLen;
	1968	int isRequired;
1923	1969
1924	1970	cmor_add_traceback("_CV_ValidateAttribute");
1925	1971

1995	2041	return (0);
1996	2042	}
1997	2043	nObjects = list_CV->nbObjects;
	2044	required_attrs = cmor_CV_rootsearch(CV, CV_KEY_REQUIRED_GBL_ATTRS);
1998	2045	for (i = 0; i < nObjects; i++) {
1999	2046	CV_key = &list_CV->oValue[i];
	2047
	2048	// Check if the attribute is required
	2049	isRequired = 0;
	2050	for (j = 0; j < required_attrs->anElements; j++) {
	2051	if(strcmp(CV_key->key, required_attrs->aszValue[j]) == 0)
	2052	isRequired = 1;
	2053	}
	2054
2000	2055	if (CV_key->szValue[0] != '\0') {
2001		cmor_set_cur_dataset_attribute_internal(CV_key->key,
2002		CV_key->szValue, 1);
	2056	if(cmor_has_cur_dataset_attribute(CV_key->key) == 0){
	2057	cmor_get_cur_dataset_attribute(CV_key->key, szTmp);
	2058	if(szTmp[0] != '\0' && strcmp(CV_key->szValue, szTmp) != 0){
	2059	reti = cmor_get_table_attr(CV_key->key, &cmor_tables[CMOR_TABLE], tableValue);
	2060	if(reti == 0 && strcmp(tableValue, szTmp) == 0){
	2061	snprintf(msg, CMOR_MAX_STRING,
	2062	"The registered CV attribute \"%s\" as defined as \"%s\" "
	2063	"will be replaced with \n! "
	2064	"\"%s\" as defined in the table %s\n! ",
	2065	CV_key->key, CV_key->szValue, szTmp, cmor_tables[CMOR_TABLE].szTable_id);
	2066	cmor_handle_error(msg, CMOR_WARNING);
	2067	} else {
	2068	snprintf(msg, CMOR_MAX_STRING,
	2069	"The registered CV attribute \"%s\" as defined as \"%s\" "
	2070	"will be replaced with \n! "
	2071	"\"%s\" as defined in your user input file\n! ",
	2072	CV_key->key, CV_key->szValue, szTmp);
	2073	cmor_handle_error(msg, CMOR_WARNING);
	2074	}
	2075	} else {
	2076	cmor_set_cur_dataset_attribute_internal(CV_key->key,
	2077	CV_key->szValue, 1);
	2078	}
	2079	} else {
	2080	cmor_set_cur_dataset_attribute_internal(CV_key->key,
	2081	CV_key->szValue, 1);
	2082	}
	2083	} else if (CV_key->anElements == 1 && isRequired == 1) {
	2084	if(cmor_has_cur_dataset_attribute(CV_key->key) == 0){
	2085	cmor_get_cur_dataset_attribute(CV_key->key, szTmp);
	2086	if(szTmp[0] != '\0' && strcmp(CV_key->aszValue[0], szTmp) != 0){
	2087	reti = cmor_get_table_attr(CV_key->key, &cmor_tables[CMOR_TABLE], tableValue);
	2088	if(reti == 0 && strcmp(tableValue, szTmp) == 0){
	2089	snprintf(msg, CMOR_MAX_STRING,
	2090	"The registered CV attribute \"%s\" as defined as \"%s\" "
	2091	"will be replaced with \n! "
	2092	"\"%s\" as defined in the table %s\n! ",
	2093	CV_key->key, CV_key->aszValue[0], szTmp, cmor_tables[CMOR_TABLE].szTable_id);
	2094	cmor_handle_error(msg, CMOR_WARNING);
	2095	} else {
	2096	snprintf(msg, CMOR_MAX_STRING,
	2097	"The registered CV attribute \"%s\" as defined as \"%s\" "
	2098	"will be replaced with \n! "
	2099	"\"%s\" as defined in your user input file\n! ",
	2100	CV_key->key, CV_key->aszValue[0], szTmp);
	2101	cmor_handle_error(msg, CMOR_WARNING);
	2102	}
	2103	} else {
	2104	cmor_set_cur_dataset_attribute_internal(CV_key->key,
	2105	CV_key->aszValue[0], 1);
	2106	}
	2107	} else {
	2108	cmor_set_cur_dataset_attribute_internal(CV_key->key,
	2109	CV_key->aszValue[0], 1);
	2110	}
	2111	} else if (CV_key->anElements > 1 && isRequired == 1) {
	2112	if(cmor_has_cur_dataset_attribute(CV_key->key) != 0) {
	2113	snprintf(msg, CMOR_MAX_STRING,
	2114	"The registered CV attribute \"%s\" has multiple values \n! "
	2115	"defined in \"%s\"\n! "
	2116	"Please select one from the entry %s.%s.%s.",
	2117	CV_key->key, CV_Filename, szKey, szValue, CV_key->key);
	2118	cmor_handle_error(msg, CMOR_NORMAL);
	2119	cmor_pop_traceback();
	2120	return (-1);
	2121	}
2003	2122	}
2004	2123	}
2005	2124	}

2008	2127	/* We could not validate this attribute, exit. */
2009	2128	/* -------------------------------------------------------------------- */
2010	2129	if (i == (attr_CV->anElements)) {
2011		for (i = 0; i < attr_CV->anElements; i++) {
2012		strcat(szValids, "\"");
2013		strncpy(szOutput, attr_CV->aszValue[i], CMOR_MAX_STRING);
2014		strcat(szValids, szOutput);
2015		strcat(szValids, "\" ");
2016		}
2017
2018	2130	snprintf(msg, CMOR_MAX_STRING,
2019	2131	"The attribute \"%s\" could not be validated. \n! "
2020	2132	"The current input value is "
2021		"\"%s\" which is not valid \n! "
2022		"Valid values must match the regular expression:"
2023		"\n! \t[%s] \n! \n! "
2024		"Check your Control Vocabulary file \"%s\".\n! ",
2025		szKey, szValue, szValids, CV_Filename);
	2133	"\"%s\", which is not valid. \n! \n! "
	2134	"Valid values must match those found in the \"%s\" "
	2135	"section\n! of your Controlled Vocabulary (CV) file \"%s\".\n! ",
	2136	szKey, szValue, szKey, CV_Filename);
2026	2137
2027	2138	cmor_handle_error(msg, CMOR_NORMAL);
2028	2139	cmor_pop_traceback();

-2

Src/cmor_axes.c less more

890	890	axis = &cmor_axes[axis_id];
891	891	refaxis = &cmor_tables[axis->ref_table_id].axes[axis->ref_axis_id];
892	892
893		if ((refaxis->axis == 'T') \|\| strstr(units, "since")) {
	893	if ((refaxis->axis == 'T' && strcmp(refaxis->forecast, AXIS_FORECAST_LEADTIME) != 0) \|\| strstr(units, "since")) {
894	894
895	895	/* -------------------------------------------------------------------- */
896	896	/* ok this part will try to convert time values to the right units */

1673	1673	cmor_axes[cmor_naxes].type = type;
1674	1674	cmor_axes[cmor_naxes].store_in_netcdf = 1;
1675	1675
1676		if ((refaxis.axis == 'T') \|\| strstr(units, "since")) {
	1676	if ((refaxis.axis == 'T' && strcmp(refaxis.forecast, AXIS_FORECAST_LEADTIME) != 0) \|\| strstr(units, "since")) {
1677	1677	cmor_get_cur_dataset_attribute("calendar", ctmp);
1678	1678	cmor_set_axis_attribute(cmor_naxes, "calendar", 'c', ctmp);
1679	1679	cmor_convert_time_units(units, refaxis.units, &ctmp[0]);

2163	2163	axis->must_have_bounds = 0;
2164	2164	axis->must_call_cmor_grid = 0;
2165	2165	axis->generic_level_name[0] = '\0';
	2166	axis->forecast[0] = '\0';
2166	2167	}
2167	2168
2168	2169	/************************************************************************/

2247	2248	} else if (strcmp(att, AXIS_ATT_GEN_LEVEL_NAME) == 0) {
2248	2249
2249	2250	strncpy(axis->generic_level_name, val, CMOR_MAX_STRING);
	2251
	2252	} else if (strcmp(att, AXIS_ATT_FORECAST) == 0) {
	2253
	2254	strncpy(axis->forecast, val, CMOR_MAX_STRING);
2250	2255
2251	2256	} else if (strcmp(att, AXIS_ATT_AXIS) == 0) {
2252	2257

-2

Src/cmor_fortran_interface.f90 less more

805	805	integer, parameter:: CMOR_EXIT_ON_MAJOR = 0
806	806	integer, parameter:: CMOR_EXIT_ON_WARNING = 2
807	807
808		real, parameter:: CMOR_VERSION = 2.7
809		real, parameter:: CMOR_CF_VERSION = 1.4
	808	real, parameter:: CMOR_VERSION = 3.7
	809	real, parameter:: CMOR_CF_VERSION = 1.7
810	810
811	811	integer, parameter:: CMOR_WARNING = 20
812	812	integer, parameter:: CMOR_NORMAL = 21

-1

Src/cmor_tables.c less more

77	77	table->naxes = -1;
78	78	table->nexps = -1;
79	79	table->nmappings = -1;
80		table->cf_version = 1.6;
	80	table->cf_version = 1.7;
81	81	table->cmor_version = 3.0;
82	82	table->mip_era[0] = '\0';
83	83	table->szTable_id[0] = '\0';

602	602	rc = cmor_search_table(szTable, table_id);
603	603
604	604	if (rc == TABLE_FOUND) {
	605	cmor_setDefaultGblAttr(*table_id);
605	606	return (TABLE_SUCCESS);
606	607	}
607	608

645	646	} else if (rc == TABLE_FOUND) {
646	647	rc = TABLE_SUCCESS;
647	648	}
	649
	650	cmor_setDefaultGblAttr(*table_id);
648	651
649	652	free(szTableName);
650	653

-1

Src/cmor_variables.c less more

1942	1942	strncpy(var->comment, val, CMOR_MAX_STRING);
1943	1943
1944	1944	} else if (strcmp(att, VARIABLE_ATT_DIMENSIONS) == 0) {
1945
	1945	strncpy(var->dimensions_str, val, CMOR_MAX_STRING);
1946	1946	n0 = strlen(val);
1947	1947	for (i = 0; i < n0; i++) {
1948	1948

1972	1972	n = j;
1973	1973	break;
1974	1974	}
	1975	}
	1976	if (strcmp(AXIS_FORECAST_LEADTIME, cmor_tables[var->table_id].axes[n].forecast) == 0) {
	1977	/* this is a leadtime coordinate, we want to skip it at this point as it doesn't really count against
	1978	dimensionality of the variable, and is not present in the input data. This coordinate will be
	1979	inserted back as the final step of the variable creation */
	1980	continue;
1975	1981	}
1976	1982
1977	1983	if (n == -1) {

-1

Test/CMOR_input_TestTables.json less more

36	36	"grid_label": "gn",
37	37	"nominal_resolution": "10000 km",
38	38
39		"license": "CMIP6 model data produced by Lawrence Livermore PCMDI is licensed under a Creative Commons Attribution ShareAlike 4.0 International License (https://creativecommons.org/licenses). Consult https://pcmdi.llnl.gov/CMIP6/TermsOfUse for terms of use governing CMIP6 output, including citation requirements and proper acknowledgment. Further information about this data, including some limitations, can be found via the further_info_url (recorded as a global attribute in this file) and at https:///pcmdi.llnl.gov/. The data producers and data providers make no warranty, either express or implied, including, but not limited to, warranties of merchantability and fitness for a particular purpose. All liabilities arising from the supply of the information (including any liability arising in negligence) are excluded to the fullest extent permitted by law.",
	39	"license": "CMIP6 model data produced by Lawrence Livermore PCMDI is licensed under a Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/). Consult https://pcmdi.llnl.gov/CMIP6/TermsOfUse for terms of use governing CMIP6 output, including citation requirements and proper acknowledgment. Further information about this data, including some limitations, can be found via the further_info_url (recorded as a global attribute in this file) and at https:///pcmdi.llnl.gov/. The data producers and data providers make no warranty, either express or implied, including, but not limited to, warranties of merchantability and fitness for a particular purpose. All liabilities arising from the supply of the information (including any liability arising in negligence) are excluded to the fullest extent permitted by law.",
40	40
41	41	"#output": "Root directory for output (can be either a relative or full path)",
42	42	"outpath": "CMIP6",

-1

Test/CMOR_input_example.json less more

36	36	"grid_label": "gn",
37	37	"nominal_resolution": "10000 km",
38	38
39		"license": "CMIP6 model data produced by Lawrence Livermore PCMDI is licensed under a Creative Commons Attribution ShareAlike 4.0 International License (https://creativecommons.org/licenses). Consult https://pcmdi.llnl.gov/CMIP6/TermsOfUse for terms of use governing CMIP6 output, including citation requirements and proper acknowledgment. Further information about this data, including some limitations, can be found via the further_info_url (recorded as a global attribute in this file) and at https:///pcmdi.llnl.gov/. The data producers and data providers make no warranty, either express or implied, including, but not limited to, warranties of merchantability and fitness for a particular purpose. All liabilities arising from the supply of the information (including any liability arising in negligence) are excluded to the fullest extent permitted by law.",
	39	"license": "CMIP6 model data produced by Lawrence Livermore PCMDI is licensed under a Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/). Consult https://pcmdi.llnl.gov/CMIP6/TermsOfUse for terms of use governing CMIP6 output, including citation requirements and proper acknowledgment. Further information about this data, including some limitations, can be found via the further_info_url (recorded as a global attribute in this file) and at https:///pcmdi.llnl.gov/. The data producers and data providers make no warranty, either express or implied, including, but not limited to, warranties of merchantability and fitness for a particular purpose. All liabilities arising from the supply of the information (including any liability arising in negligence) are excluded to the fullest extent permitted by law.",
40	40
41	41	"#output": "Root directory for output (can be either a relative or full path)",
42	42	"outpath": "CMIP6",

-1

Test/common_user_inputNOBOUNDS.json less more

65	65	"#output_path_template": "Template for output path directory using tables keys or global attributes",
66	66	"output_path_template": "<activity_id><institution_id><source_id><experiment_id><variant_label><table><variable_id><grid_label><version>",
67	67	"output_file_template": "<variable_id><table><source_id><experiment_id><variant_label><grid_label>",
68		"license": "CMIP6 model data produced by Lawrence Livermore PCMDI is licensed under a Creative Commons Attribution ShareAlike 4.0 International License (https://creativecommons.org/licenses). Consult https://pcmdi.llnl.gov/CMIP6/TermsOfUse for terms of use governing CMIP6 output, including citation requirements and proper acknowledgment. Further information about this data, including some limitations, can be found via the further_info_url (recorded as a global attribute in this file) and at https:///pcmdi.llnl.gov/. The data producers and data providers make no warranty, either express or implied, including, but not limited to, warranties of merchantability and fitness for a particular purpose. All liabilities arising from the supply of the information (including any liability arising in negligence) are excluded to the fullest extent permitted by law."
	68	"license": "CMIP6 model data produced by Lawrence Livermore PCMDI is licensed under a Creative Commons Attribution 4.0 International License (https://creativecommons.org/licenses/by/4.0/). Consult https://pcmdi.llnl.gov/CMIP6/TermsOfUse for terms of use governing CMIP6 output, including citation requirements and proper acknowledgment. Further information about this data, including some limitations, can be found via the further_info_url (recorded as a global attribute in this file) and at https:///pcmdi.llnl.gov/. The data producers and data providers make no warranty, either express or implied, including, but not limited to, warranties of merchantability and fitness for a particular purpose. All liabilities arising from the supply of the information (including any liability arising in negligence) are excluded to the fullest extent permitted by law."
69	69
70	70
71	71	}

-73

~~Test/common_user_input_NOID.json~~ less more

0		{
1		"_controlled_vocabulary_file": "CMIP6_CV.json",
2		"_AXIS_ENTRY_FILE": "CMIP6_coordinate.json",
3		"_FORMULA_VAR_FILE": "CMIP6_formula_terms.json",
4		"_cmip6_option": "CMIP6",
5
6		"tracking_prefix": "hdl:21.14100",
7		"activity_id": "ISMIP6",
8
9		"branch_method": "standard",
10		"branch_time_in_child": "365.0",
11
12		"#output": "Output Path where files are written",
13		"outpath": "CMIP6",
14
15		"#experiment_id": "CMIP6 valid experiment_ids are found in CMIP6_CV.json",
16		"experiment_id": "piControl-withism",
17		"sub_experiment_id": "none",
18		"sub_experiment": "none",
19
20		"source_type": "AOGCM ISM AER",
21		"parent_mip_era": "N/A",
22		"mip_era": "CMIP6",
23		"calendar": "360_day",
24		"branch_time": "1.34",
25
26		"realization_index": "11",
27		"initialization_index": "1",
28		"physics_index": "1",
29		"forcing_index": "1",
30
31		"#contact ": "Not required",
32		"contact ": "Python Coder (coder@a.b.c.com)",
33
34		"#history": "not required, supplemented by CMOR",
35		"history": "Output from archivcl_A1.nce/giccm_03_std_2xCO2_2256.",
36
37		"#comment": "Not required",
38		"comment": "Equilibrium reached after 30-year spin-up after which data were output starting with nominal date of January 2030",
39
40		"#references": "Not required",
41		"references": "Model described by Koder and Tolkien (J. Geophys. Res., 2001, 576-591). Also see http://www.GICC.su/giccm/doc/index.html 2XCO2 simulation described in Dorkey et al. '(Clim. Dyn., 2003, 323-357.)'",
42
43		"grid": "gs1x1",
44		"grid_label": "gr",
45		"nominal_resolution": "5 km",
46
47
48		"parent_activity_id": "no parent",
49		"parent_experiment_id": "no parent",
50		"parent_source_id": "GFDL-CM2-1",
51		"parent_variant_label": "r1i1p1f3",
52
53
54		"#run_variant": "Description of run variant (Recommended).",
55		"run_variant": "forcing: black carbon aerosol only",
56
57		"#source_id": "Model Source",
58		"source_id": "PCMDI-test-1-0",
59
60		"#source": "source title, first part is source_id",
61		"source": "PCMDI-test 1.0 (1989)",
62
63
64		"#output_path_template": "Template for output path directory using tables keys or global attributes",
65		"output_path_template": "<activity_id><institution_id><source_id><experiment_id><variant_label><table><variable_id><grid_label><version>",
66		"output_file_template": "<variable_id><table><source_id><experiment_id><variant_label><grid_label>",
67
68		"license": "CMIP6 model data produced by Lawrence Livermore PCMDI is licensed under a Creative Commons Attribution ShareAlike 4.0 International License (https://creativecommons.org/licenses). Consult https://pcmdi.llnl.gov/CMIP6/TermsOfUse for terms of use governing CMIP6 output, including citation requirements and proper acknowledgment. Further information about this data, including some limitations, can be found via the further_info_url (recorded as a global attribute in this file) and at https:///pcmdi.llnl.gov/. The data producers and data providers make no warranty, either express or implied, including, but not limited to, warranties of merchantability and fitness for a particular purpose. All liabilities arising from the supply of the information (including any liability arising in negligence) are excluded to the fullest extent permitted by law."
69
70
71		}
72

-34

~~Test/test_cmor_double_singleton.py~~ less more

0		from __future__ import print_function
1		import common
2		import cmor
3		import os
4
5
6		pth = os.getcwd()
7		common.init_cmor(pth, "CMOR_input_example.json")
8		cmor.load_table(os.path.join(pth, 'Tables', 'CMIP6_6hrLev.json'))
9		itim, ilat, ilon = common.read_cmor_time1_lat_lon()
10
11		ilambda = cmor.axis(
12		table_entry='lambda550nm',
13		units='m',
14		length=1,
15		coord_vals=[550.,],
16		cell_bounds=[500.,600.])
17		# Creates two singleton dims?
18
19		varid = cmor.variable(table_entry=common.specs["BS"]["entry"],
20		units=common.specs["BS"]["units"],
21		axis_ids=[itim, ilat, ilon, ilambda],
22		missing_value=1.e28,
23		positive=common.specs["BS"]["positive"],
24		original_name="BS")
25		for index in range(2):
26		tim_array, bnds_tim = common.read_time(index)
27		data = common.read_2d_input_files(index, "BS", (common.lat, common.lon))
28		print(data.shape, data)
29		print(tim_array, bnds_tim)
30		cmor.write(var_id=varid, data=data, ntimes_passed=1,
31		time_vals=tim_array, time_bnds=bnds_tim)
32		print("Passed write")
33		cmor.close()

-0

Test/test_python_CMIP6_CV_badgridresolution.py less more

58	58	except BaseException:
59	59	pass
60	60	self.assertCV("\"335 km\"", "The current input")
	61	start_line = "Error: The attribute \"nominal_resolution\" could not be validated."
	62	find_line = "The current input value is \"335 km\", which is not valid."
	63	self.assertCV(find_line, start_line, 2)
61	64
62	65
63	66	if __name__ == '__main__':

-59

~~Test/test_python_CMIP6_CV_badinstitutionIDNotSet.py~~ less more

0		# If this example is not executed from the directory containing the
1		# CMOR code, please first complete the following steps:
2		#
3		# 1. In any directory, create 'Tables/', 'Test/' and 'CMIP6/' directories.
4		#
5		# 2. Download
6		# https://github.com/PCMDI/cmor/blob/master/TestTables/CMIP6_Omon.json
7		# and https://github.com/PCMDI/cmor/blob/master/TestTables/CMIP6_CV.json
8		# to the 'Tables/' directory.
9		#
10		# 3. Download
11		# https://github.com/PCMDI/cmor/blob/master/Test/<filename>.json
12		# to the 'Test/' directory.
13
14		import cmor
15		import numpy
16		import unittest
17		import sys
18		import os
19		import tempfile
20		import base_CMIP6_CV
21
22		def run():
23		unittest.main()
24
25
26		class TestCase(base_CMIP6_CV.BaseCVsTest):
27		def testCMIP6(self):
28		try:
29		# -------------------------------------------
30		# Try to call cmor with a bad institution_ID
31		# -------------------------------------------
32		cmor.setup(inpath='Tables', netcdf_file_action=cmor.CMOR_REPLACE, logfile=self.tmpfile)
33		cmor.dataset_json("Test/common_user_input_NOID.json")
34
35		# ------------------------------------------
36		# load Omon table and create masso variable
37		# ------------------------------------------
38		cmor.load_table("CMIP6_Omon.json")
39		itime = cmor.axis(table_entry="time", units='months since 2010',
40		coord_vals=numpy.array([0, 1, 2, 3, 4.]),
41		cell_bounds=numpy.array([0, 1, 2, 3, 4, 5.]))
42		ivar = cmor.variable(
43		table_entry="masso",
44		axis_ids=[itime],
45		units='kg')
46
47		data = numpy.random.random(5)
48		for i in range(0, 5):
49		cmor.write(ivar, data[i:i])
50		self.delete_files += [cmor.close(ivar, True)]
51		cmor.close()
52		except BaseException:
53		pass
54		self.assertCV("Control Vocabulary file")
55
56
57		if __name__ == '__main__':
58		run()

-4

Test/test_python_CMIP6_CV_externalvariables.py less more

172	172	cmor.write(ua_var_id, reshaped_data)
173	173	fname_ta = cmor.close(ta_var_id, file_name=True)
174	174	fname_ua = cmor.close(ua_var_id, file_name=True)
175		self.delete_files += [cmor.close(ta_var_id, True)]
176		self.delete_files += [cmor.close(ua_var_id, True)]
	175	self.delete_files += [fname_ta, fname_ua]
177	176	cmor.close()
178	177
179	178	f = netCDF4.Dataset(fname_ta, "r")

217	216	cmor.write(ua_var_id, reshaped_data)
218	217	fname_ta = cmor.close(ta_var_id, file_name=True)
219	218	fname_ua = cmor.close(ua_var_id, file_name=True)
220		self.delete_files += [cmor.close(ta_var_id, True)]
221		self.delete_files += [cmor.close(ua_var_id, True)]
	219	self.delete_files += [fname_ta, fname_ua]
222	220	cmor.close()
223	221
224	222	f = cdms2.open(fname_ta, "r")

+94

-0

Test/test_python_forecast_coordinates.py less more

	0	import json
	1	import numpy as np
	2	import cmor
	3	import unittest
	4
	5	from netCDF4 import Dataset
	6
	7	DATASET_INFO = {
	8	"_AXIS_ENTRY_FILE": "CMIP6_coordinate_leadtime.json",
	9	"_FORMULA_VAR_FILE": "Tables/CMIP6_formula_terms.json",
	10	"_control_vocabulary_file": "Tables/CMIP6_CV.json",
	11	"activity_id": "CMIP",
	12	"branch_method": "standard",
	13	"branch_time_in_child": 30.0,
	14	"branch_time_in_parent": 10800.0,
	15	"calendar": "360_day",
	16	"cv_version": "6.2.19.0",
	17	"experiment": "AMIP",
	18	"experiment_id": "amip",
	19	"forcing_index": "3",
	20	"further_info_url": "https://furtherinfo.es-doc.org/CMIP6.MOHC.HadGEM3-GC31-LL.amip.none.r1i1p1f3",
	21	"grid": "N96",
	22	"grid_label": "gn",
	23	"initialization_index": "1",
	24	"institution": "Met Office Hadley Centre, Fitzroy Road, Exeter, Devon, EX1 3PB, UK",
	25	"institution_id": "MOHC",
	26	"license": "CMIP6 model data produced by the Met Office Hadley Centre is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License (https://creativecommons.org/licenses). Consult https://pcmdi.llnl.gov/CMIP6/TermsOfUse for terms of use governing CMIP6 output, including citation requirements and proper acknowledgment. Further information about this data, including some limitations, can be found via the further_info_url (recorded as a global attribute in this file) and at https://ukesm.ac.uk/cmip6. The data producers and data providers make no warranty, either express or implied, including, but not limited to, warranties of merchantability and fitness for a particular purpose. All liabilities arising from the supply of the information (including any liability arising in negligence) are excluded to the fullest extent permitted by law.",
	27	"mip_era": "CMIP6",
	28	"nominal_resolution": "250 km",
	29	"outpath": ".",
	30	"parent_activity_id": "no parent",
	31	"physics_index": "1",
	32	"realization_index": "1",
	33	"source": "HadGEM3-GC31-LL",
	34	"source_id": "HadGEM3-GC31-LL",
	35	"source_type": "AGCM",
	36	"sub_experiment": "none",
	37	"sub_experiment_id": "none",
	38	"tracking_prefix": "hdl:21.14100",
	39	"variant_label": "r1i1p1f3"
	40	}
	41
	42
	43	class TestHasForecastCoordinates(unittest.TestCase):
	44	def setUp(self):
	45	"""
	46	Write out a simple file using CMOR
	47	"""
	48	# Set up CMOR
	49	cmor.setup(inpath="TestTables", netcdf_file_action=cmor.CMOR_REPLACE,
	50	logfile="cmor.log", create_subdirectories=0)
	51
	52	# Define dataset using DATASET_INFO
	53	with open("Test/input_leadtime.json", "w") as input_file_handle:
	54	json.dump(DATASET_INFO, input_file_handle, sort_keys=True, indent=4)
	55
	56	# read dataset info
	57	error_flag = cmor.dataset_json("Test/input_leadtime.json")
	58	if error_flag:
	59	raise RuntimeError("CMOR dataset_json call failed")
	60
	61	# load MIP table
	62	mip_table = "CMIP6_Amon_leadtime.json"
	63	table_id = cmor.load_table(mip_table)
	64
	65	# construct axes
	66	time = cmor.axis(table_entry="time", units="days since 2000-01-01",
	67	coord_vals=np.array([30.0, 60.0]),
	68	cell_bounds=np.array([15.0, 45.0, 75.0]))
	69	reftime = cmor.axis(table_entry="reftime1", units="days since 2000-01-01",
	70	coord_vals=np.array([10.0]))
	71	height2m = cmor.axis(table_entry="height2m", units="m", coord_vals=np.array((2.0,)))
	72	latitude = cmor.axis(table_entry="latitude", units="degrees_north",
	73	coord_vals=np.array(range(5)),
	74	cell_bounds=np.array(range(6)))
	75	longitude = cmor.axis(table_entry="longitude", units="degrees_east",
	76	coord_vals=np.array(range(5)),
	77	cell_bounds=np.array(range(6)))
	78	axis_ids = [longitude, latitude, time, reftime, height2m]
	79	tas_var_id = cmor.variable(table_entry="tas", axis_ids=axis_ids, units="K")
	80	data = np.random.random(50)
	81	reshaped_data = data.reshape((5, 5, 2, 1, 1))
	82	# write data
	83	cmor.write(tas_var_id, reshaped_data)
	84	self.filename = cmor.close(tas_var_id, file_name=True)
	85
	86	def test_has_forcast_coordinates(self):
	87	ds = Dataset(self.filename)
	88	np.testing.assert_array_equal(ds.variables['reftime'][:].data, [10.0])
	89	np.testing.assert_array_equal(ds.variables['leadtime'][:].data, [20.0, 50.0])
	90	ds.close()
	91
	92	if __name__ == '__main__':
	93	unittest.main()

-1

Test/test_python_sos_psu_units.py less more

99	99
100	100	def tearDown(self):
101	101	import shutil
102		shutil.rmtree("./CMIP6")
	102	# shutil.rmtree("./CMIP6")
103	103
104	104
105	105	if __name__ == '__main__':

+62

-25

Test/test_singletons.c less more

26	26	}
27	27
28	28
29		int test_bs550aer(const int *axes_ids, int num_axes, double basetime)
	29	int test_bs550aer(const int *axes_ids, int num_axes, int zfactor_id, double basetime)
30	30	{
31	31	double time, time_bnds[2];
32	32	int var_id;

41	41	NULL, &positive, NULL, NULL, NULL) != 0)
42	42	fail("cmor_variable(bs550aer)");
43	43
44		// Find singleton dimensions for bs550aer
	44	// Find singleton dimension for bs550aer
45	45	for(i = 0; i < cmor_vars[var_id].ndims; ++i){
46		if(strcmp(cmor_axes[cmor_vars[var_id].singleton_ids[i]].id, "scatangle") == 0)
47		scatangle_found++;
48	46	if(strcmp(cmor_axes[cmor_vars[var_id].singleton_ids[i]].id, "wavelength") == 0)
49	47	wavelength_found++;
50	48	}
51		if(scatangle_found != 1 \|\| wavelength_found != 1)
52		fail("error in singleton dimensions");
	49	if(wavelength_found != 1)
	50	fail("error in singleton dimension");
53	51
54	52	for (i = 0; i < 4; i++) {
55	53	time_bnds[0] = basetime + (i * 6.0) / 24.; /* 6hr */

59	57	fillf(values, NUM_ARRAY_ELEMENTS(values), i, 0.01);
60	58	if (cmor_write(var_id, values, 'f', NULL, 1,
61	59	&time, time_bnds, NULL) != 0)
62		fail("cmor_write()");
	60	fail("cmor_write(var_id)");
	61	if (cmor_write(zfactor_id, values, 'f', NULL, 1,
	62	&time, time_bnds, &var_id) != 0)
	63	fail("cmor_write(zfactor_id)");
63	64	}
64	65	return 0;
65	66	}

72	73	double lat[] = { -45., 45. };
73	74	double lon_bnds[] = { -45., 45, 135., 225., 315. };
74	75	double lat_bnds[] = { -90., 0, 90. };
	76	double alev[] = {0.996149986982346, 0.982649981975555,
	77	0.958955590856714, 0.92764596935028};
	78	double alev_bnds[] = {1, 0.992299973964691, 0.97299998998642,
	79	0.944911191727007, 0.910380746973552};
75	80	double scalar;
76		int nlon, nlat;
	81	int nlon, nlat, nlev;
	82	int zfactor_id;
77	83
78	84	int axes_ids[5];
79		int id_lon, id_lat, id_time, id_extra1, id_extra2;
	85	int zfactor_axis_ids[3];
	86	int id_lon, id_lat, id_alev, id_time, id_extra1;
80	87
81	88	nlon = NUM_ARRAY_ELEMENTS(lon);
82	89	nlat = NUM_ARRAY_ELEMENTS(lat);
	90	nlev = NUM_ARRAY_ELEMENTS(alev);
83	91
84	92	assert(NUM_ARRAY_ELEMENTS(lon_bnds) == nlon + 1);
85	93	assert(NUM_ARRAY_ELEMENTS(lat_bnds) == nlat + 1);
	94	assert(NUM_ARRAY_ELEMENTS(alev_bnds) == nlev + 1);
86	95
87	96	printf("Start...\n");
88	97
89	98	/*
90		* Setup time, lat, and lon.
	99	* Setup time, lat, lon, and alevel.
91	100	*/
92	101	if (cmor_axis(&id_time, "time1", "days since 1970-01-01", UNLIMITED,
93	102	NULL, 'd', NULL, 0, NULL) != 0)

101	110	lon, 'd', lon_bnds, 1, NULL) != 0)
102	111	fail("cmor_axis(lon)");
103	112
	113	if (cmor_axis(&id_alev, "standard_hybrid_sigma", "", nlev,
	114	alev, 'd', alev_bnds, 1, NULL) != 0)
	115	fail("cmor_axis(alev)");
	116
	117	/*
	118	* Setup zfactor.
	119	*/
	120	double p0[1] = {101325.0};
	121	double a_val[4] = {0, 0, 36.0317993164062, 171.845031738281};
	122	double a_bnds[5] = { 0, 0, 0, 72.0635986328125, 271.62646484375};
	123	double b_val[4] = {0, 0, 36.0317993164062, 171.845031738281};
	124	double b_bnds[5] = { 0, 0, 0, 72.0635986328125, 271.62646484375};
	125
	126	int lev_id_array[2];
	127	lev_id_array[0] = id_alev;
	128	zfactor_axis_ids[0] = id_lat;
	129	zfactor_axis_ids[1] = id_lon;
	130	zfactor_axis_ids[2] = id_time;
	131
	132	if (cmor_zfactor(&zfactor_id, id_alev, (char ) "p0", (char ) "Pa", 0, 0,
	133	'd', (void *) p0, NULL) != 0)
	134	fail("cmor_zfactor(p0)");
	135	if (cmor_zfactor(&zfactor_id, id_alev, (char ) "b", (char ) "", 1, &lev_id_array[0],
	136	'd', (void ) b_val, (void ) b_bnds) != 0)
	137	fail("cmor_zfactor(b)");
	138	if (cmor_zfactor(&zfactor_id, id_alev, (char ) "a", (char ) "", 1, &lev_id_array[0],
	139	'd', (void ) a_val, (void ) a_bnds) != 0)
	140	fail("cmor_zfactor(a)");
	141	if (cmor_zfactor(&zfactor_id, id_alev, (char ) "ps1", (char ) "Pa", 3, zfactor_axis_ids,
	142	'd', NULL, NULL) != 0)
	143	fail("cmor_zfactor(ps1)");
	144
104	145	/*
105	146	* No singleton dimensions are passed.
106	147	* CMOR adds them automatically (in cmor_variable()).

108	149	axes_ids[0] = id_time;
109	150	axes_ids[1] = id_lat;
110	151	axes_ids[2] = id_lon;
	152	axes_ids[3] = id_alev;
111	153
112	154	printf("test_bs550aer (1 of 3)\n");
113		test_bs550aer(axes_ids, 3, 360. * 10);
114
115		/*
116		* Setup singleton dimensions.
	155	test_bs550aer(axes_ids, 4, zfactor_id, 360. * 10);
	156
	157	/*
	158	* Setup singleton dimension.
117	159	*/
118	160	scalar = 550.;
119	161	if (cmor_axis(&id_extra1, "lambda550nm", "nm", 1,
120	162	&scalar, 'd', NULL, 0, NULL) != 0)
121	163	fail("cmor_axis(lambda550nm)");
122	164
123		scalar = 180.;
124		if (cmor_axis(&id_extra2, "scatter180", "degree", 1,
125		&scalar, 'd', NULL, 0, NULL) != 0)
126		fail("cmor_axis(scatter180)");
127
128	165	/*
129	166	* All axis IDs are passed.
130	167	*/
131		axes_ids[0] = id_extra2;
132		axes_ids[1] = id_extra1;
133		axes_ids[2] = id_time;
	168	axes_ids[0] = id_extra1;
	169	axes_ids[1] = id_time;
	170	axes_ids[2] = id_alev;
134	171	axes_ids[3] = id_lat;
135	172	axes_ids[4] = id_lon;
136	173
137	174	printf("test_bs550aer (2 of 3)\n");
138		test_bs550aer(axes_ids, 5, 360. * 11);
	175	test_bs550aer(axes_ids, 5, zfactor_id, 360. * 11);
139	176
140	177	/*
141	178	* Change the order of axis IDs in axes_ids.

143	180	axes_ids[0] = id_time;
144	181	axes_ids[1] = id_extra1;
145	182	axes_ids[2] = id_lat;
146		axes_ids[3] = id_extra2;
	183	axes_ids[3] = id_alev;
147	184	axes_ids[4] = id_lon;
148	185
149	186	printf("test_bs550aer (3 of 3)\n");
150		test_bs550aer(axes_ids, 5, 360. * 12);
	187	test_bs550aer(axes_ids, 5, zfactor_id, 360. * 12);
151	188	}
152	189
153	190

+36

-0

TestTables/CMIP6_Amon_leadtime.json less more

	0	{
	1	"Header": {
	2	"data_specs_version": "01.00.33",
	3	"cmor_version": "3.5",
	4	"table_id": "Table Amon",
	5	"realm": "atmos atmosChem",
	6	"table_date": "18 November 2020",
	7	"missing_value": "1e20",
	8	"int_missing_value": "-999",
	9	"product": "model-output",
	10	"approx_interval": "30.00000",
	11	"generic_levels": "alevel alevhalf",
	12	"mip_era": "CMIP6",
	13	"Conventions": "CF-1.7 CMIP-6.2"
	14	},
	15	"variable_entry": {
	16	"tas": {
	17	"frequency": "mon",
	18	"modeling_realm": "atmos",
	19	"standard_name": "air_temperature",
	20	"units": "K",
	21	"cell_methods": "area: time: mean",
	22	"cell_measures": "area: areacella",
	23	"long_name": "Near-Surface Air Temperature",
	24	"comment": "near-surface (usually, 2 meter) air temperature",
	25	"dimensions": "longitude latitude time reftime1 height2m leadtime",
	26	"out_name": "tas",
	27	"type": "real",
	28	"positive": "",
	29	"valid_min": "",
	30	"valid_max": "",
	31	"ok_min_mean_abs": "",
	32	"ok_max_mean_abs": ""
	33	}
	34	}
	35	}

+10604

-0

TestTables/CMIP6_CV.json less more

	0	{
	1	"CV":{
	2	"required_global_attributes":[
	3	"Conventions",
	4	"activity_id",
	5	"creation_date",
	6	"data_specs_version",
	7	"experiment",
	8	"experiment_id",
	9	"forcing_index",
	10	"frequency",
	11	"further_info_url",
	12	"grid",
	13	"grid_label",
	14	"initialization_index",
	15	"institution",
	16	"institution_id",
	17	"license",
	18	"mip_era",
	19	"nominal_resolution",
	20	"physics_index",
	21	"product",
	22	"realization_index",
	23	"realm",
	24	"source",
	25	"source_id",
	26	"source_type",
	27	"sub_experiment",
	28	"sub_experiment_id",
	29	"table_id",
	30	"tracking_id",
	31	"variable_id",
	32	"variant_label"
	33	],
	34	"version_metadata":{
	35	"CV_collection_modified":"Mon Jul 26 10:57:20 2021 -0700",
	36	"CV_collection_version":"6.2.56.4",
	37	"author":"Paul J. Durack <durack1@llnl.gov>",
	38	"experiment_id_CV_modified":"Tue Dec 15 12:25:59 2020 -0800",
	39	"experiment_id_CV_note":"Revise experiment_id historical parent experiments",
	40	"institution_id":"PCMDI",
	41	"previous_commit":"5afeb3ffd3b98e23b9c2ff76015fc7c87a5dbd71",
	42	"specs_doc":"v6.2.7 (10th September 2018; https://goo.gl/v1drZl)"
	43	},
	44	"activity_id":{
	45	"AerChemMIP":"Aerosols and Chemistry Model Intercomparison Project",
	46	"C4MIP":"Coupled Climate Carbon Cycle Model Intercomparison Project",
	47	"CDRMIP":"Carbon Dioxide Removal Model Intercomparison Project",
	48	"CFMIP":"Cloud Feedback Model Intercomparison Project",
	49	"CMIP":"CMIP DECK: 1pctCO2, abrupt4xCO2, amip, esm-piControl, esm-historical, historical, and piControl experiments",
	50	"CORDEX":"Coordinated Regional Climate Downscaling Experiment",
	51	"DAMIP":"Detection and Attribution Model Intercomparison Project",
	52	"DCPP":"Decadal Climate Prediction Project",
	53	"DynVarMIP":"Dynamics and Variability Model Intercomparison Project",
	54	"FAFMIP":"Flux-Anomaly-Forced Model Intercomparison Project",
	55	"GMMIP":"Global Monsoons Model Intercomparison Project",
	56	"GeoMIP":"Geoengineering Model Intercomparison Project",
	57	"HighResMIP":"High-Resolution Model Intercomparison Project",
	58	"ISMIP6":"Ice Sheet Model Intercomparison Project for CMIP6",
	59	"LS3MIP":"Land Surface, Snow and Soil Moisture",
	60	"LUMIP":"Land-Use Model Intercomparison Project",
	61	"OMIP":"Ocean Model Intercomparison Project",
	62	"PAMIP":"Polar Amplification Model Intercomparison Project",
	63	"PMIP":"Palaeoclimate Modelling Intercomparison Project",
	64	"RFMIP":"Radiative Forcing Model Intercomparison Project",
	65	"SIMIP":"Sea Ice Model Intercomparison Project",
	66	"ScenarioMIP":"Scenario Model Intercomparison Project",
	67	"VIACSAB":"Vulnerability, Impacts, Adaptation and Climate Services Advisory Board",
	68	"VolMIP":"Volcanic Forcings Model Intercomparison Project"
	69	},
	70	"institution_id":{
	71	"AER":"Research and Climate Group, Atmospheric and Environmental Research, 131 Hartwell Avenue, Lexington, MA 02421, USA",
	72	"AS-RCEC":"Research Center for Environmental Changes, Academia Sinica, Nankang, Taipei 11529, Taiwan",
	73	"AWI":"Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research, Am Handelshafen 12, 27570 Bremerhaven, Germany",
	74	"BCC":"Beijing Climate Center, Beijing 100081, China",
	75	"BNU":"Beijing Normal University, Beijing 100875, China",
	76	"CAMS":"Chinese Academy of Meteorological Sciences, Beijing 100081, China",
	77	"CAS":"Chinese Academy of Sciences, Beijing 100029, China",
	78	"CCCR-IITM":"Centre for Climate Change Research, Indian Institute of Tropical Meteorology Pune, Maharashtra 411 008, India",
	79	"CCCma":"Canadian Centre for Climate Modelling and Analysis, Environment and Climate Change Canada, Victoria, BC V8P 5C2, Canada",
	80	"CMCC":"Fondazione Centro Euro-Mediterraneo sui Cambiamenti Climatici, Lecce 73100, Italy",
	81	"CNRM-CERFACS":"CNRM (Centre National de Recherches Meteorologiques, Toulouse 31057, France), CERFACS (Centre Europeen de Recherche et de Formation Avancee en Calcul Scientifique, Toulouse 31057, France)",
	82	"CSIR-Wits-CSIRO":"CSIR (Council for Scientific and Industrial Research - Natural Resources and the Environment, Pretoria, 0001, South Africa), Wits (University of the Witwatersrand - Global Change Institute, Johannesburg 2050, South Africa), CSIRO (Commonwealth Scientific and Industrial Research Organisation, Aspendale, Victoria 3195, Australia)Mailing address: Wits, Global Change Institute, Johannesburg 2050, South Africa",
	83	"CSIRO":"Commonwealth Scientific and Industrial Research Organisation, Aspendale, Victoria 3195, Australia",
	84	"CSIRO-ARCCSS":"CSIRO (Commonwealth Scientific and Industrial Research Organisation, Aspendale, Victoria 3195, Australia), ARCCSS (Australian Research Council Centre of Excellence for Climate System Science). Mailing address: CSIRO, c/o Simon J. Marsland, 107-121 Station Street, Aspendale, Victoria 3195, Australia",
	85	"CSIRO-COSIMA":"CSIRO (Commonwealth Scientific and Industrial Research Organisation, Australia), COSIMA (Consortium for Ocean-Sea Ice Modelling in Australia). Mailing address: CSIRO, c/o Simon J. Marsland, 107-121 Station Street, Aspendale, Victoria 3195, Australia",
	86	"DKRZ":"Deutsches Klimarechenzentrum, Hamburg 20146, Germany",
	87	"DWD":"Deutscher Wetterdienst, Offenbach am Main 63067, Germany",
	88	"E3SM-Project":"LLNL (Lawrence Livermore National Laboratory, Livermore, CA 94550, USA); ANL (Argonne National Laboratory, Argonne, IL 60439, USA); BNL (Brookhaven National Laboratory, Upton, NY 11973, USA); LANL (Los Alamos National Laboratory, Los Alamos, NM 87545, USA); LBNL (Lawrence Berkeley National Laboratory, Berkeley, CA 94720, USA); ORNL (Oak Ridge National Laboratory, Oak Ridge, TN 37831, USA); PNNL (Pacific Northwest National Laboratory, Richland, WA 99352, USA); SNL (Sandia National Laboratories, Albuquerque, NM 87185, USA). Mailing address: LLNL Climate Program, c/o David C. Bader, Principal Investigator, L-103, 7000 East Avenue, Livermore, CA 94550, USA",
	89	"EC-Earth-Consortium":"AEMET, Spain; BSC, Spain; CNR-ISAC, Italy; DMI, Denmark; ENEA, Italy; FMI, Finland; Geomar, Germany; ICHEC, Ireland; ICTP, Italy; IDL, Portugal; IMAU, The Netherlands; IPMA, Portugal; KIT, Karlsruhe, Germany; KNMI, The Netherlands; Lund University, Sweden; Met Eireann, Ireland; NLeSC, The Netherlands; NTNU, Norway; Oxford University, UK; surfSARA, The Netherlands; SMHI, Sweden; Stockholm University, Sweden; Unite ASTR, Belgium; University College Dublin, Ireland; University of Bergen, Norway; University of Copenhagen, Denmark; University of Helsinki, Finland; University of Santiago de Compostela, Spain; Uppsala University, Sweden; Utrecht University, The Netherlands; Vrije Universiteit Amsterdam, the Netherlands; Wageningen University, The Netherlands. Mailing address: EC-Earth consortium, Rossby Center, Swedish Meteorological and Hydrological Institute/SMHI, SE-601 76 Norrkoping, Sweden",
	90	"ECMWF":"European Centre for Medium-Range Weather Forecasts, Reading RG2 9AX, UK",
	91	"FIO-QLNM":"FIO (First Institute of Oceanography, Ministry of Natural Resources, Qingdao 266061, China), QNLM (Qingdao National Laboratory for Marine Science and Technology, Qingdao 266237, China)",
	92	"HAMMOZ-Consortium":"ETH Zurich, Switzerland; Max Planck Institut fur Meteorologie, Germany; Forschungszentrum Julich, Germany; University of Oxford, UK; Finnish Meteorological Institute, Finland; Leibniz Institute for Tropospheric Research, Germany; Center for Climate Systems Modeling (C2SM) at ETH Zurich, Switzerland",
	93	"INM":"Institute for Numerical Mathematics, Russian Academy of Science, Moscow 119991, Russia",
	94	"INPE":"National Institute for Space Research, Cachoeira Paulista, SP 12630-000, Brazil",
	95	"IPSL":"Institut Pierre Simon Laplace, Paris 75252, France",
	96	"KIOST":"Korea Institute of Ocean Science and Technology, Busan 49111, Republic of Korea",
	97	"LLNL":"Lawrence Livermore National Laboratory, Livermore, CA 94550, USA. Mailing address: LLNL Climate Program, c/o Stephen A. Klein, Principal Investigator, L-103, 7000 East Avenue, Livermore, CA 94550, USA",
	98	"MESSy-Consortium":"The Modular Earth Submodel System (MESSy) Consortium, represented by the Institute for Physics of the Atmosphere, Deutsches Zentrum fur Luft- und Raumfahrt (DLR), Wessling, Bavaria 82234, Germany",
	99	"MIROC":"JAMSTEC (Japan Agency for Marine-Earth Science and Technology, Kanagawa 236-0001, Japan), AORI (Atmosphere and Ocean Research Institute, The University of Tokyo, Chiba 277-8564, Japan), NIES (National Institute for Environmental Studies, Ibaraki 305-8506, Japan), and R-CCS (RIKEN Center for Computational Science, Hyogo 650-0047, Japan)",
	100	"MOHC":"Met Office Hadley Centre, Fitzroy Road, Exeter, Devon, EX1 3PB, UK",
	101	"MPI-M":"Max Planck Institute for Meteorology, Hamburg 20146, Germany",
	102	"MRI":"Meteorological Research Institute, Tsukuba, Ibaraki 305-0052, Japan",
	103	"NASA-GISS":"Goddard Institute for Space Studies, New York, NY 10025, USA",
	104	"NASA-GSFC":"NASA Goddard Space Flight Center, Greenbelt, MD 20771, USA",
	105	"NCAR":"National Center for Atmospheric Research, Climate and Global Dynamics Laboratory, 1850 Table Mesa Drive, Boulder, CO 80305, USA",
	106	"NCC":"NorESM Climate modeling Consortium consisting of CICERO (Center for International Climate and Environmental Research, Oslo 0349), MET-Norway (Norwegian Meteorological Institute, Oslo 0313), NERSC (Nansen Environmental and Remote Sensing Center, Bergen 5006), NILU (Norwegian Institute for Air Research, Kjeller 2027), UiB (University of Bergen, Bergen 5007), UiO (University of Oslo, Oslo 0313) and UNI (Uni Research, Bergen 5008), Norway. Mailing address: NCC, c/o MET-Norway, Henrik Mohns plass 1, Oslo 0313, Norway",
	107	"NERC":"Natural Environment Research Council, STFC-RAL, Harwell, Oxford, OX11 0QX, UK",
	108	"NIMS-KMA":"National Institute of Meteorological Sciences/Korea Meteorological Administration, Climate Research Division, Seoho-bukro 33, Seogwipo-si, Jejudo 63568, Republic of Korea",
	109	"NIWA":"National Institute of Water and Atmospheric Research, Hataitai, Wellington 6021, New Zealand",
	110	"NOAA-GFDL":"National Oceanic and Atmospheric Administration, Geophysical Fluid Dynamics Laboratory, Princeton, NJ 08540, USA",
	111	"NTU":"National Taiwan University, Taipei 10650, Taiwan",
	112	"NUIST":"Nanjing University of Information Science and Technology, Nanjing, 210044, China",
	113	"PCMDI":"Program for Climate Model Diagnosis and Intercomparison, Lawrence Livermore National Laboratory, Livermore, CA 94550, USA",
	114	"PNNL-WACCEM":"PNNL (Pacific Northwest National Laboratory), Richland, WA 99352, USA",
	115	"RTE-RRTMGP-Consortium":"AER (Atmospheric and Environmental Research, Lexington, MA 02421, USA); UColorado (University of Colorado, Boulder, CO 80309, USA). Mailing address: AER c/o Eli Mlawer, 131 Hartwell Avenue, Lexington, MA 02421, USA",
	116	"RUBISCO":"ORNL (Oak Ridge National Laboratory, Oak Ridge, TN 37831, USA); ANL (Argonne National Laboratory, Argonne, IL 60439, USA); BNL (Brookhaven National Laboratory, Upton, NY 11973, USA); LANL (Los Alamos National Laboratory, Los Alamos, NM 87545); LBNL (Lawrence Berkeley National Laboratory, Berkeley, CA 94720, USA); NAU (Northern Arizona University, Flagstaff, AZ 86011, USA); NCAR (National Center for Atmospheric Research, Boulder, CO 80305, USA); UCI (University of California Irvine, Irvine, CA 92697, USA); UM (University of Michigan, Ann Arbor, MI 48109, USA). Mailing address: ORNL Climate Change Science Institute, c/o Forrest M. Hoffman, Laboratory Research Manager, Building 4500N Room F106, 1 Bethel Valley Road, Oak Ridge, TN 37831-6301, USA",
	117	"SNU":"Seoul National University, Seoul 08826, Republic of Korea",
	118	"THU":"Department of Earth System Science, Tsinghua University, Beijing 100084, China",
	119	"UA":"Department of Geosciences, University of Arizona, Tucson, AZ 85721, USA",
	120	"UCI":"Department of Earth System Science, University of California Irvine, Irvine, CA 92697, USA",
	121	"UHH":"Universitat Hamburg, Hamburg 20148, Germany",
	122	"UTAS":"Institute for Marine and Antarctic Studies, University of Tasmania, Hobart, Tasmania 7001, Australia",
	123	"UofT":"Department of Physics, University of Toronto, 60 St George Street, Toronto, ON M5S1A7, Canada"
	124	},
	125	"source_id":{
	126	"4AOP-v1-5":{
	127	"activity_participation":[
	128	"RFMIP"
	129	],
	130	"cohort":[
	131	"Registered"
	132	],
	133	"institution_id":[
	134	"IPSL"
	135	],
	136	"source_id":"4AOP-v1-5",
	137	"source":"4AOP-v1-5 (2019): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	138	},
	139	"ACCESS-CM2":{
	140	"activity_participation":[
	141	"CMIP",
	142	"DAMIP",
	143	"FAFMIP",
	144	"OMIP",
	145	"RFMIP",
	146	"SIMIP",
	147	"ScenarioMIP"
	148	],
	149	"cohort":[
	150	"Registered"
	151	],
	152	"institution_id":[
	153	"CSIRO-ARCCSS"
	154	],
	155	"source_id":"ACCESS-CM2",
	156	"source":"ACCESS-CM2 (2019): \naerosol: UKCA-GLOMAP-mode\natmos: MetUM-HadGEM3-GA7.1 (N96; 192 x 144 longitude/latitude; 85 levels; top level 85 km)\natmosChem: none\nland: CABLE2.5\nlandIce: none\nocean: ACCESS-OM2 (GFDL-MOM5, tripolar primarily 1deg; 360 x 300 longitude/latitude; 50 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: CICE5.1.2 (same grid as ocean)"
	157	},
	158	"ACCESS-ESM1-5":{
	159	"activity_participation":[
	160	"C4MIP",
	161	"CDRMIP",
	162	"CMIP",
	163	"DAMIP",
	164	"LUMIP",
	165	"OMIP",
	166	"PMIP",
	167	"RFMIP",
	168	"ScenarioMIP"
	169	],
	170	"cohort":[
	171	"Registered"
	172	],
	173	"institution_id":[
	174	"CSIRO"
	175	],
	176	"source_id":"ACCESS-ESM1-5",
	177	"source":"ACCESS-ESM1.5 (2019): \naerosol: CLASSIC (v1.0)\natmos: HadGAM2 (r1.1, N96; 192 x 145 longitude/latitude; 38 levels; top level 39255 m)\natmosChem: none\nland: CABLE2.4\nlandIce: none\nocean: ACCESS-OM2 (MOM5, tripolar primarily 1deg; 360 x 300 longitude/latitude; 50 levels; top grid cell 0-10 m)\nocnBgchem: WOMBAT (same grid as ocean)\nseaIce: CICE4.1 (same grid as ocean)"
	178	},
	179	"ACCESS-OM2":{
	180	"activity_participation":[
	181	"OMIP"
	182	],
	183	"cohort":[
	184	"Registered"
	185	],
	186	"institution_id":[
	187	"CSIRO-COSIMA"
	188	],
	189	"source_id":"ACCESS-OM2",
	190	"source":"ACCESS-OM2 (2020): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: ACCESS-OM2 (MOM5, tripolar primarily 1deg; 360 x 300 longitude/latitude; 50 levels; top grid cell 0-2.3 m)\nocnBgchem: WOMBAT (same grid as ocean)\nseaIce: CICE5.1.2 (same grid as ocean)"
	191	},
	192	"ACCESS-OM2-025":{
	193	"activity_participation":[
	194	"OMIP"
	195	],
	196	"cohort":[
	197	"Registered"
	198	],
	199	"institution_id":[
	200	"CSIRO-COSIMA"
	201	],
	202	"source_id":"ACCESS-OM2-025",
	203	"source":"ACCESS-OM2-025 (2020): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: ACCESS-OM2 (MOM5, tripolar primarily 1/4 deg; 1440 x 1080 longitude/latitude; 50 levels; top grid cell 0-2.3 m)\nocnBgchem: WOMBAT (same grid as ocean)\nseaIce: CICE5.1.2 (same grid as ocean)"
	204	},
	205	"ARTS-2-3":{
	206	"activity_participation":[
	207	"RFMIP"
	208	],
	209	"cohort":[
	210	"Registered"
	211	],
	212	"institution_id":[
	213	"UHH"
	214	],
	215	"source_id":"ARTS-2-3",
	216	"source":"ARTS 2.3 (2015): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	217	},
	218	"AWI-CM-1-1-HR":{
	219	"activity_participation":[
	220	"CMIP",
	221	"CORDEX",
	222	"HighResMIP",
	223	"OMIP",
	224	"SIMIP",
	225	"VIACSAB"
	226	],
	227	"cohort":[
	228	"Registered"
	229	],
	230	"institution_id":[
	231	"AWI"
	232	],
	233	"source_id":"AWI-CM-1-1-HR",
	234	"source":"AWI-CM 1.1 HR (2018): \naerosol: none\natmos: ECHAM6.3.04p1 (T127L95 native atmosphere T127 gaussian grid; 384 x 192 longitude/latitude; 95 levels; top level 80 km)\natmosChem: none\nland: JSBACH 3.20\nlandIce: none\nocean: FESOM 1.4 (unstructured grid in the horizontal with 1306775 wet nodes; 46 levels; top grid cell 0-5 m)\nocnBgchem: none\nseaIce: FESOM 1.4"
	235	},
	236	"AWI-CM-1-1-LR":{
	237	"activity_participation":[
	238	"CMIP",
	239	"CORDEX",
	240	"HighResMIP",
	241	"OMIP",
	242	"SIMIP",
	243	"ScenarioMIP",
	244	"VIACSAB"
	245	],
	246	"cohort":[
	247	"Registered"
	248	],
	249	"institution_id":[
	250	"AWI"
	251	],
	252	"source_id":"AWI-CM-1-1-LR",
	253	"source":"AWI-CM 1.1 LR (2018): \naerosol: none\natmos: ECHAM6.3.04p1 (T63L47 native atmosphere T63 gaussian grid; 192 x 96 longitude/latitude; 47 levels; top level 80 km)\natmosChem: none\nland: JSBACH 3.20\nlandIce: none\nocean: FESOM 1.4 (unstructured grid in the horizontal with 126859 wet nodes; 46 levels; top grid cell 0-5 m)\nocnBgchem: none\nseaIce: FESOM 1.4"
	254	},
	255	"AWI-CM-1-1-MR":{
	256	"activity_participation":[
	257	"CMIP",
	258	"CORDEX",
	259	"OMIP",
	260	"PAMIP",
	261	"SIMIP",
	262	"ScenarioMIP",
	263	"VIACSAB"
	264	],
	265	"cohort":[
	266	"Registered"
	267	],
	268	"institution_id":[
	269	"AWI"
	270	],
	271	"source_id":"AWI-CM-1-1-MR",
	272	"source":"AWI-CM 1.1 MR (2018): \naerosol: none\natmos: ECHAM6.3.04p1 (T127L95 native atmosphere T127 gaussian grid; 384 x 192 longitude/latitude; 95 levels; top level 80 km)\natmosChem: none\nland: JSBACH 3.20\nlandIce: none\nocean: FESOM 1.4 (unstructured grid in the horizontal with 830305 wet nodes; 46 levels; top grid cell 0-5 m)\nocnBgchem: none\nseaIce: FESOM 1.4"
	273	},
	274	"AWI-ESM-1-1-LR":{
	275	"activity_participation":[
	276	"CMIP",
	277	"PMIP"
	278	],
	279	"cohort":[
	280	"Registered"
	281	],
	282	"institution_id":[
	283	"AWI"
	284	],
	285	"source_id":"AWI-ESM-1-1-LR",
	286	"source":"AWI-ESM 1.1 LR (2018): \naerosol: none\natmos: ECHAM6.3.04p1 (T63L47 native atmosphere T63 gaussian grid; 192 x 96 longitude/latitude; 47 levels; top level 80 km)\natmosChem: none\nland: JSBACH 3.20 with dynamic vegetation\nlandIce: none\nocean: FESOM 1.4 (unstructured grid in the horizontal with 126859 wet nodes; 46 levels; top grid cell 0-5 m)\nocnBgchem: none\nseaIce: FESOM 1.4"
	287	},
	288	"AWI-ESM-2-1-LR":{
	289	"activity_participation":[
	290	"CMIP",
	291	"PMIP"
	292	],
	293	"cohort":[
	294	"Registered"
	295	],
	296	"institution_id":[
	297	"AWI"
	298	],
	299	"source_id":"AWI-ESM-2-1-LR",
	300	"source":"AWI-ESM 2.1 LR (2019): \naerosol: none\natmos: ECHAM6.3.04p1 (T63L47 native atmosphere T63 gaussian grid; 192 x 96 longitude/latitude; 47 levels; top level 80 km)\natmosChem: none\nland: JSBACH 3.20 with dynamic vegetation\nlandIce: none\nocean: FESOM 2 (unstructured grid in the horizontal with 126858 wet nodes; 48 levels; top grid cell 0-5 m)\nocnBgchem: none\nseaIce: FESOM 2"
	301	},
	302	"BCC-CSM2-HR":{
	303	"activity_participation":[
	304	"CMIP",
	305	"HighResMIP"
	306	],
	307	"cohort":[
	308	"Registered"
	309	],
	310	"institution_id":[
	311	"BCC"
	312	],
	313	"source_id":"BCC-CSM2-HR",
	314	"source":"BCC-CSM 2 HR (2017): \naerosol: none\natmos: BCC_AGCM3_HR (T266; 800 x 400 longitude/latitude; 56 levels; top level 0.1 hPa)\natmosChem: none\nland: BCC_AVIM2\nlandIce: none\nocean: MOM4 (1/3 deg 10S-10N, 1/3-1 deg 10-30 N/S, and 1 deg in high latitudes; 360 x 232 longitude/latitude; 40 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: SIS2"
	315	},
	316	"BCC-CSM2-MR":{
	317	"activity_participation":[
	318	"C4MIP",
	319	"CFMIP",
	320	"CMIP",
	321	"DAMIP",
	322	"DCPP",
	323	"GMMIP",
	324	"LS3MIP",
	325	"LUMIP",
	326	"RFMIP",
	327	"ScenarioMIP"
	328	],
	329	"cohort":[
	330	"Registered"
	331	],
	332	"institution_id":[
	333	"BCC"
	334	],
	335	"source_id":"BCC-CSM2-MR",
	336	"source":"BCC-CSM 2 MR (2017): \naerosol: none\natmos: BCC_AGCM3_MR (T106; 320 x 160 longitude/latitude; 46 levels; top level 1.46 hPa)\natmosChem: none\nland: BCC_AVIM2\nlandIce: none\nocean: MOM4 (1/3 deg 10S-10N, 1/3-1 deg 10-30 N/S, and 1 deg in high latitudes; 360 x 232 longitude/latitude; 40 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: SIS2"
	337	},
	338	"BCC-ESM1":{
	339	"activity_participation":[
	340	"AerChemMIP",
	341	"CMIP"
	342	],
	343	"cohort":[
	344	"Registered"
	345	],
	346	"institution_id":[
	347	"BCC"
	348	],
	349	"source_id":"BCC-ESM1",
	350	"source":"BCC-ESM 1 (2017): \naerosol: none\natmos: BCC_AGCM3_LR (T42; 128 x 64 longitude/latitude; 26 levels; top level 2.19 hPa)\natmosChem: BCC-AGCM3-Chem\nland: BCC_AVIM2\nlandIce: none\nocean: MOM4 (1/3 deg 10S-10N, 1/3-1 deg 10-30 N/S, and 1 deg in high latitudes; 360 x 232 longitude/latitude; 40 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: SIS2"
	351	},
	352	"BESM-2-9":{
	353	"activity_participation":[
	354	"CMIP",
	355	"DCPP",
	356	"ScenarioMIP"
	357	],
	358	"cohort":[
	359	"Registered"
	360	],
	361	"institution_id":[
	362	"INPE"
	363	],
	364	"source_id":"BESM-2-9",
	365	"source":"BESM 2.9 (2019): \naerosol: none\natmos: BAM (v1.0, T062L42; 192 x 96 longitude/latitude; 42 levels; top level 3 hPa)\natmosChem: none\nland: SSiB 2.0\nlandIce: none\nocean: MOM-5 (MOM5, tripolar, primarily 1 deg, 1/4 deg between 22.5S-22.5N, downgrading from 1/4 deg at 22.5N(S) to 1 deg at 45N(S), 1 deg between 22.5N(S) and 45N(S), upgrading from 1 deg at 45N(S) to 0.5 deg at 90N(S) ; 360 x 192 longitude/latitude; 50 levels; top grid cell 0-10 m)\nocnBgchem: TOPAZ 2.0\nseaIce: SIS 1.0"
	366	},
	367	"BNU-ESM-1-1":{
	368	"activity_participation":[
	369	"C4MIP",
	370	"CDRMIP",
	371	"CFMIP",
	372	"CMIP",
	373	"GMMIP",
	374	"GeoMIP",
	375	"OMIP",
	376	"RFMIP",
	377	"ScenarioMIP"
	378	],
	379	"cohort":[
	380	"Registered"
	381	],
	382	"institution_id":[
	383	"BNU"
	384	],
	385	"source_id":"BNU-ESM-1-1",
	386	"source":"BNU-ESM 1.1 (2016): \naerosol: CAM-chem; semi-interactive\natmos: CAM4 (2deg; 144 x 96 longitude/latitude; 26 levels; top level 2.194 mb)\natmosChem: none\nland: CoLM version 2014 with carbon-nitrogen interactions\nlandIce: none\nocean: MOM4p1 (tripolar, primarily 1deg latitude/longitude, down to 1/3deg within 30deg of the equatorial tropics; 360 x 200 longitude/latitude; 50 levels; top grid cell 0-10 m)\nocnBgchem: Dynamic ecosystem-carbon model version 1\nseaIce: CICE4.1"
	387	},
	388	"CAM-MPAS-HR":{
	389	"activity_participation":[
	390	"HighResMIP"
	391	],
	392	"cohort":[
	393	"Registered"
	394	],
	395	"institution_id":[
	396	"PNNL-WACCEM"
	397	],
	398	"source_id":"CAM-MPAS-HR",
	399	"source":"CAM-MPAS-HR (2018): \naerosol: none, prescribed MACv2-SP\natmos: CAM-MPAS (CAMv5.4 with Grell-Freitas deep convection; MPASv4, C-grid staggered centroidal Voronoi tesselation atmosphere 30 km mesh with 655362 cells and 1966080 edges; 32 levels, top level 40363 m)\natmosChem: none\nland: CLM (v4.0, same grid as atmos), River Transport Model (v1.0)\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	400	},
	401	"CAM-MPAS-LR":{
	402	"activity_participation":[
	403	"HighResMIP"
	404	],
	405	"cohort":[
	406	"Registered"
	407	],
	408	"institution_id":[
	409	"PNNL-WACCEM"
	410	],
	411	"source_id":"CAM-MPAS-LR",
	412	"source":"CAM-MPAS-LR (2018): \naerosol: none, prescribed MACv2-SP\natmos: CAM-MPAS (CAMv5.4 with Grell-Freitas deep convection; MPASv4, C-grid staggered centroidal Voronoi tesselation atmosphere 120 km mesh with 40962 cells and 122880 edges; 32 vertical levels, model top 40363 m)\natmosChem: none\nland: CLM (v4.0, same grid as atmos), River Transport Model (v1.0)\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	413	},
	414	"CAMS-CSM1-0":{
	415	"activity_participation":[
	416	"CFMIP",
	417	"CMIP",
	418	"GMMIP",
	419	"HighResMIP",
	420	"ScenarioMIP"
	421	],
	422	"cohort":[
	423	"Registered"
	424	],
	425	"institution_id":[
	426	"CAMS"
	427	],
	428	"source_id":"CAMS-CSM1-0",
	429	"source":"CAMS-CSM 1.0 (2016): \naerosol: none\natmos: ECHAM5_CAMS (T106; 320 x 160 longitude/latitude; 31 levels; top level 10 mb)\natmosChem: none\nland: CoLM 1.0\nlandIce: none\nocean: MOM4 (tripolar; 360 x 200 longitude/latitude, primarily 1deg latitude/longitude, down to 1/3deg within 30deg of the equatorial tropics; 50 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: SIS 1.0"
	430	},
	431	"CAS-ESM2-0":{
	432	"activity_participation":[
	433	"AerChemMIP",
	434	"C4MIP",
	435	"CFMIP",
	436	"CMIP",
	437	"CORDEX",
	438	"DAMIP",
	439	"DynVarMIP",
	440	"FAFMIP",
	441	"GMMIP",
	442	"GeoMIP",
	443	"HighResMIP",
	444	"LS3MIP",
	445	"LUMIP",
	446	"OMIP",
	447	"PMIP",
	448	"SIMIP",
	449	"ScenarioMIP",
	450	"VIACSAB",
	451	"VolMIP"
	452	],
	453	"cohort":[
	454	"Registered"
	455	],
	456	"institution_id":[
	457	"CAS"
	458	],
	459	"source_id":"CAS-ESM2-0",
	460	"source":"CAS-ESM 2.0 (2019): \naerosol: IAP AACM\natmos: IAP AGCM 5.0 (Finite difference dynamical core; 256 x 128 longitude/latitude; 35 levels; top level 2.2 hPa)\natmosChem: IAP AACM\nland: CoLM\nlandIce: none\nocean: LICOM2.0 (LICOM2.0, primarily 1deg; 362 x 196 longitude/latitude; 30 levels; top grid cell 0-10 m)\nocnBgchem: IAP OBGCM\nseaIce: CICE4"
	461	},
	462	"CESM1-1-CAM5-CMIP5":{
	463	"activity_participation":[
	464	"CMIP",
	465	"DCPP"
	466	],
	467	"cohort":[
	468	"Registered"
	469	],
	470	"institution_id":[
	471	"NCAR"
	472	],
	473	"source_id":"CESM1-1-CAM5-CMIP5",
	474	"source":"CESM1-1-CAM5-CMIP5 (2011): \naerosol: MAM3 (same grid as atmos)\natmos: CAM5.2 (0.9x1.25 finite volume grid; 288 x 192 longitude/latitude; 32 levels; top level 2.25 mb)\natmosChem: MAM3 (same grid as atmos)\nland: CLM4 (same grid as atmos)\nlandIce: none\nocean: POP2 (320x384 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: BEC (same grid as ocean)\nseaIce: CICE4 (same grid as ocean)"
	475	},
	476	"CESM1-CAM5-SE-HR":{
	477	"activity_participation":[
	478	"HighResMIP"
	479	],
	480	"cohort":[
	481	"Registered"
	482	],
	483	"institution_id":[
	484	"NCAR"
	485	],
	486	"source_id":"CESM1-CAM5-SE-HR",
	487	"source":"CESM1-CAM5-SE-HR (2012): \naerosol: MAM3 (same grid as atmos)\natmos: CAM5.2 (0.25 degree spectral element; 777602 cells; 30 levels; top level 2.25 mb)\natmosChem: MAM3 (same grid as atmos)\nland: CLM4 (same grid as atmos)\nlandIce: none\nocean: POP2 (3600x2400 longitude/latitude; 62 levels; top grid cell 0-10 m)\nocnBgchem: \"BEC (same grid as ocean)\nseaIce: CICE4 (same grid as ocean)"
	488	},
	489	"CESM1-CAM5-SE-LR":{
	490	"activity_participation":[
	491	"HighResMIP"
	492	],
	493	"cohort":[
	494	"Registered"
	495	],
	496	"institution_id":[
	497	"NCAR"
	498	],
	499	"source_id":"CESM1-CAM5-SE-LR",
	500	"source":"CESM1-CAM5-SE-LR (2012): \naerosol: MAM3 (same grid as atmos)\natmos: CAM5.2 (1 degree spectral element; 48602 cells; 30 levels; top level 2.25 mb)\natmosChem: MAM3 (same grid as atmos)\nland: CLM4 (same grid as atmos)\nlandIce: none\nocean: POP2 (320x384 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: \"BEC (same grid as ocean)\nseaIce: CICE4 (same grid as ocean)"
	501	},
	502	"CESM1-WACCM-SC":{
	503	"activity_participation":[
	504	"PAMIP"
	505	],
	506	"cohort":[
	507	"Registered"
	508	],
	509	"institution_id":[
	510	"UCI",
	511	"NCAR"
	512	],
	513	"source_id":"CESM1-WACCM-SC",
	514	"source":"CESM1-WACCM-SC (2011): \naerosol: MOZART-specified (same grid as atmos)\natmos: WACCM4 (1.9x2.5 finite volume grid; 144 x 96 longitude/latitude; 66 levels; top level 5.9e-06 mb)\natmosChem: MOZART-specified (same grid as atmos)\nland: CLM4.0\nlandIce: none\nocean: POP2 (320 x 384 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: BEC (same grid as ocean)\nseaIce: CICE4 (same as grid as ocean)"
	515	},
	516	"CESM2":{
	517	"activity_participation":[
	518	"AerChemMIP",
	519	"C4MIP",
	520	"CDRMIP",
	521	"CFMIP",
	522	"CMIP",
	523	"CORDEX",
	524	"DAMIP",
	525	"DCPP",
	526	"DynVarMIP",
	527	"FAFMIP",
	528	"GMMIP",
	529	"GeoMIP",
	530	"HighResMIP",
	531	"ISMIP6",
	532	"LS3MIP",
	533	"LUMIP",
	534	"OMIP",
	535	"PAMIP",
	536	"PMIP",
	537	"RFMIP",
	538	"RFMIP",
	539	"SIMIP",
	540	"ScenarioMIP",
	541	"VIACSAB",
	542	"VolMIP"
	543	],
	544	"cohort":[
	545	"Registered"
	546	],
	547	"institution_id":[
	548	"NCAR"
	549	],
	550	"source_id":"CESM2",
	551	"source":"CESM2 (2018): \naerosol: MAM4 (same grid as atmos)\natmos: CAM6 (0.9x1.25 finite volume grid; 288 x 192 longitude/latitude; 32 levels; top level 2.25 mb)\natmosChem: MAM4 (same grid as atmos)\nland: CLM5 (same grid as atmos)\nlandIce: CISM2.1\nocean: POP2 (320x384 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: MARBL (same grid as ocean)\nseaIce: CICE5.1 (same grid as ocean)"
	552	},
	553	"CESM2-FV2":{
	554	"activity_participation":[
	555	"CMIP"
	556	],
	557	"cohort":[
	558	"Registered"
	559	],
	560	"institution_id":[
	561	"NCAR"
	562	],
	563	"source_id":"CESM2-FV2",
	564	"source":"CESM2-FV2 (2019): \naerosol: MAM4 (same grid as atmos)\natmos: CAM6 (1.9x2.5 finite volume grid; 144 x 96 longitude/latitude; 32 levels; top level 2.25 mb)\natmosChem: MAM4 (same grid as atmos)\nland: CLM5 (same grid as atmos)\nlandIce: CISM2.1\nocean: POP2 (320x384 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: MARBL (same grid as ocean)\nseaIce: CICE5.1 (same grid as ocean)"
	565	},
	566	"CESM2-SE":{
	567	"activity_participation":[
	568	"CMIP",
	569	"HighResMIP"
	570	],
	571	"cohort":[
	572	"Registered"
	573	],
	574	"institution_id":[
	575	"NCAR"
	576	],
	577	"source_id":"CESM2-SE",
	578	"source":"CESM2-SE (2019): \naerosol: MAM4 (same grid as atmos)\natmos: CAM6 (0.25 degree spectral element; 777602 cells; 30 levels; top level 2.25 mb)\natmosChem: MAM4 (same grid as atmos)\nland: CLM5 (same grid as atmos)\nlandIce: CISM2.1\nocean: POP2 (320 x 384 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: MARBL (same grid as ocean)\nseaIce: CICE5.1 (same grid as ocean)"
	579	},
	580	"CESM2-WACCM":{
	581	"activity_participation":[
	582	"AerChemMIP",
	583	"CMIP",
	584	"GeoMIP",
	585	"RFMIP",
	586	"ScenarioMIP"
	587	],
	588	"cohort":[
	589	"Registered"
	590	],
	591	"institution_id":[
	592	"NCAR"
	593	],
	594	"source_id":"CESM2-WACCM",
	595	"source":"CESM2-WACCM (2018): \naerosol: MAM4 (same grid as atmos)\natmos: WACCM6 (0.9x1.25 finite volume grid; 288 x 192 longitude/latitude; 70 levels; top level 4.5e-06 mb)\natmosChem: MAM4 (same grid as atmos)\nland: CLM5 (same grid as atmos)\nlandIce: CISM2.1\nocean: POP2 (320 x 384 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: MARBL (same grid as ocean)\nseaIce: CICE5.1 (same grid as ocean)"
	596	},
	597	"CESM2-WACCM-FV2":{
	598	"activity_participation":[
	599	"CMIP"
	600	],
	601	"cohort":[
	602	"Registered"
	603	],
	604	"institution_id":[
	605	"NCAR"
	606	],
	607	"source_id":"CESM2-WACCM-FV2",
	608	"source":"CESM2-WACCM-FV2 (2019): \naerosol: MAM4 (same grid as atmos)\natmos: WACCM6 (1.9x2.5 finite volume grid; 144 x 96 longitude/latitude; 70 levels; top level 4.5e-06 mb)\natmosChem: MAM4 (same grid as atmos)\nland: CLM5 (same grid as atmos)\nlandIce: CISM2.1\nocean: POP2 (320x384 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: MARBL (same grid as ocean)\nseaIce: CICE5.1 (same grid as ocean)"
	609	},
	610	"CIESM":{
	611	"activity_participation":[
	612	"CFMIP",
	613	"CMIP",
	614	"CORDEX",
	615	"GMMIP",
	616	"HighResMIP",
	617	"OMIP",
	618	"SIMIP",
	619	"ScenarioMIP"
	620	],
	621	"cohort":[
	622	"Registered"
	623	],
	624	"institution_id":[
	625	"THU"
	626	],
	627	"source_id":"CIESM",
	628	"source":"CIESM (2017): \naerosol: MAM4\natmos: CIESM-AM (FV/FD; 288 x 192 longitude/latitude; 30 levels; top level 2.255 hPa)\natmosChem: trop_mam4\nland: CIESM-LM (modified CLM4.5)\nlandIce: none\nocean: CIESM-OM (FD, SCCGrid Displaced Pole; 720 x 560 longitude/latitude; 46 levels; top grid cell 0-6 m)\nocnBgchem: none\nseaIce: CICE4"
	629	},
	630	"CMCC-CM2-HR4":{
	631	"activity_participation":[
	632	"CMIP",
	633	"HighResMIP",
	634	"OMIP"
	635	],
	636	"cohort":[
	637	"Registered"
	638	],
	639	"institution_id":[
	640	"CMCC"
	641	],
	642	"source_id":"CMCC-CM2-HR4",
	643	"source":"CMCC-CM2-HR4 (2016): \naerosol: prescribed MACv2-SP\natmos: CAM4 (1deg; 288 x 192 longitude/latitude; 26 levels; top at ~2 hPa)\natmosChem: none\nland: CLM4.5 (SP mode)\nlandIce: none\nocean: NEMO3.6 (ORCA0.25 1/4 deg from the Equator degrading at the poles; 1442 x 1051 longitude/latitude; 50 vertical levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: CICE4.0"
	644	},
	645	"CMCC-CM2-SR5":{
	646	"activity_participation":[
	647	"CMIP",
	648	"DCPP",
	649	"GMMIP",
	650	"OMIP",
	651	"ScenarioMIP"
	652	],
	653	"cohort":[
	654	"Registered"
	655	],
	656	"institution_id":[
	657	"CMCC"
	658	],
	659	"source_id":"CMCC-CM2-SR5",
	660	"source":"CMCC-CM2-SR5 (2016): \naerosol: MAM3\natmos: CAM5.3 (1deg; 288 x 192 longitude/latitude; 30 levels; top at ~2 hPa)\natmosChem: none\nland: CLM4.5 (BGC mode)\nlandIce: none\nocean: NEMO3.6 (ORCA1 tripolar primarly 1 deg lat/lon with meridional refinement down to 1/3 degree in the tropics; 362 x 292 longitude/latitude; 50 vertical levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: CICE4.0"
	661	},
	662	"CMCC-CM2-VHR4":{
	663	"activity_participation":[
	664	"CMIP",
	665	"HighResMIP"
	666	],
	667	"cohort":[
	668	"Registered"
	669	],
	670	"institution_id":[
	671	"CMCC"
	672	],
	673	"source_id":"CMCC-CM2-VHR4",
	674	"source":"CMCC-CM2-VHR4 (2017): \naerosol: prescribed MACv2-SP\natmos: CAM4 (1/4deg; 1152 x 768 longitude/latitude; 26 levels; top at ~2 hPa)\natmosChem: none\nland: CLM4.5 (SP mode)\nlandIce: none\nocean: NEMO3.6 (ORCA0.25 1/4 deg from the Equator degrading at the poles; 1442 x 1051 longitude/latitude; 50 vertical levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: CICE4.0"
	675	},
	676	"CMCC-ESM2":{
	677	"activity_participation":[
	678	"C4MIP",
	679	"CMIP",
	680	"LS3MIP",
	681	"LUMIP",
	682	"OMIP",
	683	"ScenarioMIP"
	684	],
	685	"cohort":[
	686	"Registered"
	687	],
	688	"institution_id":[
	689	"CMCC"
	690	],
	691	"source_id":"CMCC-ESM2",
	692	"source":"CMCC-ESM2 (2017): \naerosol: MAM3\natmos: CAM5.3 (1deg; 288 x 192 longitude/latitude; 30 levels; top at ~2 hPa)\natmosChem: none\nland: CLM4.5 (BGC mode)\nlandIce: none\nocean: NEMO3.6 (ORCA1 tripolar primarly 1 deg lat/lon with meridional refinement down to 1/3 degree in the tropics; 362 x 292 longitude/latitude; 50 vertical levels; top grid cell 0-1 m)\nocnBgchem: BFM5.2\nseaIce: CICE4.0"
	693	},
	694	"CNRM-CM6-1":{
	695	"activity_participation":[
	696	"CFMIP",
	697	"CMIP",
	698	"DAMIP",
	699	"DCPP",
	700	"FAFMIP",
	701	"GMMIP",
	702	"HighResMIP",
	703	"ISMIP6",
	704	"LS3MIP",
	705	"OMIP",
	706	"PAMIP",
	707	"PMIP",
	708	"RFMIP",
	709	"ScenarioMIP"
	710	],
	711	"cohort":[
	712	"Registered"
	713	],
	714	"institution_id":[
	715	"CNRM-CERFACS"
	716	],
	717	"source_id":"CNRM-CM6-1",
	718	"source":"CNRM-CM6-1 (2017): \naerosol: prescribed monthly fields computed by TACTIC_v2 scheme\natmos: Arpege 6.3 (T127; Gaussian Reduced with 24572 grid points in total distributed over 128 latitude circles (with 256 grid points per latitude circle between 30degN and 30degS reducing to 20 grid points per latitude circle at 88.9degN and 88.9degS); 91 levels; top level 78.4 km)\natmosChem: OZL_v2\nland: Surfex 8.0c\nlandIce: none\nocean: Nemo 3.6 (eORCA1, tripolar primarily 1deg; 362 x 294 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: Gelato 6.1"
	719	},
	720	"CNRM-CM6-1-HR":{
	721	"activity_participation":[
	722	"CMIP",
	723	"DCPP",
	724	"GMMIP",
	725	"HighResMIP",
	726	"OMIP",
	727	"ScenarioMIP"
	728	],
	729	"cohort":[
	730	"Registered"
	731	],
	732	"institution_id":[
	733	"CNRM-CERFACS"
	734	],
	735	"source_id":"CNRM-CM6-1-HR",
	736	"source":"CNRM-CM6-1-HR (2017): \naerosol: prescribed monthly fields computed by TACTIC_v2 scheme\natmos: Arpege 6.3 (T359; Gaussian Reduced with 181724 grid points in total distributed over 360 latitude circles (with 720 grid points per latitude circle between 32.2degN and 32.2degS reducing to 18 grid points per latitude circle at 89.6degN and 89.6degS); 91 levels; top level 78.4 km)\natmosChem: OZL_v2\nland: Surfex 8.0c\nlandIce: none\nocean: Nemo 3.6 (eORCA025, tripolar primarily 1/4deg; 1442 x 1050 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: Gelato 6.1"
	737	},
	738	"CNRM-ESM2-1":{
	739	"activity_participation":[
	740	"AerChemMIP",
	741	"C4MIP",
	742	"CDRMIP",
	743	"CMIP",
	744	"CORDEX",
	745	"GMMIP",
	746	"GeoMIP",
	747	"LS3MIP",
	748	"LUMIP",
	749	"OMIP",
	750	"RFMIP",
	751	"ScenarioMIP"
	752	],
	753	"cohort":[
	754	"Registered"
	755	],
	756	"institution_id":[
	757	"CNRM-CERFACS"
	758	],
	759	"source_id":"CNRM-ESM2-1",
	760	"source":"CNRM-ESM2-1 (2017): \naerosol: TACTIC_v2\natmos: Arpege 6.3 (T127; Gaussian Reduced with 24572 grid points in total distributed over 128 latitude circles (with 256 grid points per latitude circle between 30degN and 30degS reducing to 20 grid points per latitude circle at 88.9degN and 88.9degS); 91 levels; top level 78.4 km)\natmosChem: REPROBUS-C_v2\nland: Surfex 8.0c\nlandIce: none\nocean: Nemo 3.6 (eORCA1, tripolar primarily 1deg; 362 x 294 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: Pisces 2.s\nseaIce: Gelato 6.1"
	761	},
	762	"CNRM-ESM2-1-HR":{
	763	"activity_participation":[
	764	"CMIP",
	765	"OMIP",
	766	"ScenarioMIP"
	767	],
	768	"cohort":[
	769	"Registered"
	770	],
	771	"institution_id":[
	772	"CNRM-CERFACS"
	773	],
	774	"source_id":"CNRM-ESM2-1-HR",
	775	"source":"CNRM-ESM2-1-HR (2017): \naerosol: TACTIC_v2\natmos: Arpege 6.3 (T359; Gaussian Reduced with 181724 grid points in total distributed over 360 latitude circles (with 720 grid points per latitude circle between 32.2degN and 32.2degS reducing to 18 grid points per latitude circle at 89.6degN and 89.6degS); 91 levels; top level 78.4 km)\natmosChem: REPROBUS-C_v2\nland: Surfex 8.0c\nlandIce: none\nocean: Nemo 3.6 (eORCA025, tripolar primarily 1/4deg; 1442 x 1050 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: Pisces 2.s\nseaIce: Gelato 6.1"
	776	},
	777	"CSIRO-Mk3L-1-3":{
	778	"activity_participation":[
	779	"CMIP",
	780	"PMIP"
	781	],
	782	"cohort":[
	783	"Registered"
	784	],
	785	"institution_id":[
	786	"UTAS"
	787	],
	788	"source_id":"CSIRO-Mk3L-1-3",
	789	"source":"CSIRO Mk3L 1.3 (2006): \naerosol: none\natmos: unnamed (R21; 64 x 56 longitude/latitude; 18 levels; top level 36355 m)\natmosChem: none\nland: unnamed\nlandIce: none\nocean: MOM1.x (128 x 112 longitude/latitude; 31 levels; top grid cell 0-10 m; bottom grid cell 4600-5000 m)\nocnBgchem: none\nseaIce: unnamed (same grid as atmosphere)"
	790	},
	791	"CanESM5":{
	792	"activity_participation":[
	793	"C4MIP",
	794	"CDRMIP",
	795	"CFMIP",
	796	"CMIP",
	797	"CORDEX",
	798	"DAMIP",
	799	"DCPP",
	800	"DynVarMIP",
	801	"FAFMIP",
	802	"GMMIP",
	803	"GeoMIP",
	804	"ISMIP6",
	805	"LS3MIP",
	806	"LUMIP",
	807	"OMIP",
	808	"PAMIP",
	809	"RFMIP",
	810	"SIMIP",
	811	"ScenarioMIP",
	812	"VIACSAB",
	813	"VolMIP"
	814	],
	815	"cohort":[
	816	"Registered"
	817	],
	818	"institution_id":[
	819	"CCCma"
	820	],
	821	"source_id":"CanESM5",
	822	"source":"CanESM5 (2019): \naerosol: interactive\natmos: CanAM5 (T63L49 native atmosphere, T63 Linear Gaussian Grid; 128 x 64 longitude/latitude; 49 levels; top level 1 hPa)\natmosChem: specified oxidants for aerosols\nland: CLASS3.6/CTEM1.2\nlandIce: specified ice sheets\nocean: NEMO3.4.1 (ORCA1 tripolar grid, 1 deg with refinement to 1/3 deg within 20 degrees of the equator; 361 x 290 longitude/latitude; 45 vertical levels; top grid cell 0-6.19 m)\nocnBgchem: Canadian Model of Ocean Carbon (CMOC); NPZD ecosystem with OMIP prescribed carbonate chemistry\nseaIce: LIM2"
	823	},
	824	"CanESM5-CanOE":{
	825	"activity_participation":[
	826	"C4MIP",
	827	"CDRMIP",
	828	"CMIP",
	829	"OMIP",
	830	"ScenarioMIP"
	831	],
	832	"cohort":[
	833	"Registered"
	834	],
	835	"institution_id":[
	836	"CCCma"
	837	],
	838	"source_id":"CanESM5-CanOE",
	839	"source":"CanESM5-CanOE (2019): \naerosol: interactive\natmos: CanAM5 (T63L49 native atmosphere, T63 Linear Gaussian Grid; 128 x 64 longitude/latitude; 49 levels; top level 1 hPa)\natmosChem: specified oxidants for aerosols\nland: CLASS3.6/CTEM1.2\nlandIce: specified ice sheets\nocean: NEMO3.4.1 (ORCA1 tripolar grid, 1 deg with refinement to 1/3 deg within 20 degrees of the equator; 361 x 290 longitude/latitude; 45 vertical levels; top grid cell 0-6.19 m)\nocnBgchem: Canadian Ocean Ecosystem (CanOE) with OMIP prescribed carbon chemistry\nseaIce: LIM2"
	840	},
	841	"E3SM-1-0":{
	842	"activity_participation":[
	843	"CFMIP",
	844	"CMIP",
	845	"PAMIP",
	846	"ScenarioMIP"
	847	],
	848	"cohort":[
	849	"Registered"
	850	],
	851	"institution_id":[
	852	"E3SM-Project",
	853	"LLNL"
	854	],
	855	"source_id":"E3SM-1-0",
	856	"source":"E3SM 1.0 (2018): \naerosol: MAM4 with resuspension, marine organics, and secondary organics (same grid as atmos)\natmos: EAM (v1.0, cubed sphere spectral-element grid; 5400 elements with p=3; 1 deg average grid spacing; 90 x 90 x 6 longitude/latitude/cubeface; 72 levels; top level 0.1 hPa)\natmosChem: Troposphere specified oxidants for aerosols. Stratosphere linearized interactive ozone (LINOZ v2) (same grid as atmos)\nland: ELM (v1.0, cubed sphere spectral-element grid; 5400 elements with p=3; 1 deg average grid spacing; 90 x 90 x 6 longitude/latitude/cubeface; satellite phenology mode), MOSART (v1.0, 0.5 degree latitude/longitude grid)\nlandIce: none\nocean: MPAS-Ocean (v6.0, oEC60to30 unstructured SVTs mesh with 235160 cells and 714274 edges, variable resolution 60 km to 30 km; 60 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: MPAS-Seaice (v6.0, same grid as ocean)"
	857	},
	858	"E3SM-1-1":{
	859	"activity_participation":[
	860	"C4MIP",
	861	"CMIP",
	862	"DAMIP",
	863	"LS3MIP",
	864	"ScenarioMIP"
	865	],
	866	"cohort":[
	867	"Registered"
	868	],
	869	"institution_id":[
	870	"E3SM-Project",
	871	"RUBISCO"
	872	],
	873	"source_id":"E3SM-1-1",
	874	"source":"E3SM 1.1 (2019): \naerosol: MAM4 with resuspension, marine organics, and secondary organics (same grid as atmos)\natmos: EAM (v1.1, cubed sphere spectral-element grid; 5400 elements with p=3; 1 deg average grid spacing; 90 x 90 x 6 longitude/latitude/cubeface; 72 levels; top level 0.1 hPa)\natmosChem: Troposphere specified oxidants for aerosols. Stratosphere linearized interactive ozone (LINOZ v2) (same grid as atmos)\nland: ELM (v1.1, same grid as atmos; active biogeochemistry using the Converging Trophic Cascade plant and soil carbon and nutrient mechanisms to represent carbon, nitrogen and phosphorus cycles), MOSART (v1.1, 0.5 degree latitude/longitude grid)\nlandIce: none\nocean: MPAS-Ocean (v6.0, oEC60to30 unstructured SVTs mesh with 235160 cells and 714274 edges, variable resolution 60 km to 30 km; 60 levels; top grid cell 0-10 m)\nocnBgchem: BEC (Biogeochemical Elemental Cycling model, NPZD-type with C/N/P/Fe/Si/O; same grid as ocean)\nseaIce: MPAS-Seaice (v6.0; same grid as ocean)"
	875	},
	876	"E3SM-1-1-ECA":{
	877	"activity_participation":[
	878	"C4MIP",
	879	"CMIP",
	880	"ScenarioMIP"
	881	],
	882	"cohort":[
	883	"Registered"
	884	],
	885	"institution_id":[
	886	"E3SM-Project"
	887	],
	888	"source_id":"E3SM-1-1-ECA",
	889	"source":"E3SM 1.1 ECA (2019): \naerosol: MAM4 with resuspension, marine organics, and secondary organics (same grid as atmos)\natmos: EAM (v1.1, cubed sphere spectral-element grid; 5400 elements with p=3; 1 deg average grid spacing; 90 x 90 x 6 longitude/latitude/cubeface; 72 levels; top level 0.1 hPa)\natmosChem: Troposphere specified oxidants for aerosols. Stratosphere linearized interactive ozone (LINOZ v2) (same grid as atmos)\nland: ELM (v1.1, same as atmos; active biogeochemistry using the Equilibrium Chemistry Approximation to represent plant and soil carbon and nutrient mechanisms especially carbon, nitrogen and phosphorus limitation), MOSART (v1.1, 0.5 degree latitude/longitude grid)\nlandIce: none\nocean: MPAS-Ocean (v6.0, oEC60to30 unstructured SVTs mesh with 235160 cells and 714274 edges, variable resolution 60 km to 30 km; 60 levels; top grid cell 0-10 m)\nocnBgchem: BEC (Biogeochemical Elemental Cycling model, NPZD-type with C/N/P/Fe/Si/O; same grid as ocean)\nseaIce: MPAS-Seaice (v6.0; same grid as ocean)"
	890	},
	891	"EC-Earth3":{
	892	"activity_participation":[
	893	"CMIP",
	894	"CORDEX",
	895	"DAMIP",
	896	"DCPP",
	897	"DynVarMIP",
	898	"LS3MIP",
	899	"OMIP",
	900	"PAMIP",
	901	"PMIP",
	902	"RFMIP",
	903	"SIMIP",
	904	"ScenarioMIP",
	905	"VIACSAB",
	906	"VolMIP"
	907	],
	908	"cohort":[
	909	"Registered"
	910	],
	911	"institution_id":[
	912	"EC-Earth-Consortium"
	913	],
	914	"source_id":"EC-Earth3",
	915	"source":"EC-Earth3 (2019): \naerosol: none\natmos: IFS cy36r4 (TL255, linearly reduced Gaussian grid equivalent to 512 x 256 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: none\nland: HTESSEL (land surface scheme built in IFS)\nlandIce: none\nocean: NEMO3.6 (ORCA1 tripolar primarily 1 deg with meridional refinement down to 1/3 degree in the tropics; 362 x 292 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM3"
	916	},
	917	"EC-Earth3-AerChem":{
	918	"activity_participation":[
	919	"AerChemMIP",
	920	"CMIP",
	921	"RFMIP",
	922	"ScenarioMIP"
	923	],
	924	"cohort":[
	925	"Registered"
	926	],
	927	"institution_id":[
	928	"EC-Earth-Consortium"
	929	],
	930	"source_id":"EC-Earth3-AerChem",
	931	"source":"EC-Earth3-AerChem (2019): \naerosol: TM5 (3 x 2 degrees; 120 x 90 longitude/latitude; 34 levels; top level: 0.1 hPa)\natmos: IFS cy36r4 (TL255, linearly reduced Gaussian grid equivalent to 512 x 256 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: TM5 (3 x 2 degrees; 120 x 90 longitude/latitude; 34 levels; top level: 0.1 hPa)\nland: HTESSEL (land surface scheme built in IFS)\nlandIce: none\nocean: NEMO3.6 (ORCA1 tripolar primarily 1 degree with meridional refinement down to 1/3 degree in the tropics; 362 x 292 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM3"
	932	},
	933	"EC-Earth3-CC":{
	934	"activity_participation":[
	935	"C4MIP",
	936	"CDRMIP",
	937	"CMIP",
	938	"LUMIP",
	939	"OMIP",
	940	"ScenarioMIP"
	941	],
	942	"cohort":[
	943	"Registered"
	944	],
	945	"institution_id":[
	946	"EC-Earth-Consortium"
	947	],
	948	"source_id":"EC-Earth3-CC",
	949	"source":"EC-Earth3-CC (2019): \naerosol: none\natmos: IFS cy36r4 (TL255, linearly reduced Gaussian grid equivalent to 512 x 256 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: TM5 (3 x 2 degrees; 120 x 90 longitude/latitude; 34 levels; top level: 0.1 hPa)\nland: HTESSEL (land surface scheme built in IFS) and LPJ-GUESS v4\nlandIce: none\nocean: NEMO3.6 (ORCA1 tripolar primarily 1 degree with meridional refinement down to 1/3 degree in the tropics; 362 x 292 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: PISCES v2\nseaIce: LIM3"
	950	},
	951	"EC-Earth3-GrIS":{
	952	"activity_participation":[
	953	"CMIP",
	954	"ISMIP6",
	955	"PMIP"
	956	],
	957	"cohort":[
	958	"Registered"
	959	],
	960	"institution_id":[
	961	"EC-Earth-Consortium"
	962	],
	963	"source_id":"EC-Earth3-GrIS",
	964	"source":"EC-Earth3-GrIS (2019): \naerosol: none\natmos: IFS cy36r4 (TL255, linearly reduced Gaussian grid equivalent to 512 x 256 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: none\nland: HTESSEL (land surface scheme built in IFS)\nlandIce: PISM 0.7 (5 km x 5 km, 442 levels)\nocean: NEMO3.6 (ORCA1 tripolar primarily 1 degree with meridional refinement down to 1/3 degree in the tropics; 362 x 292 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM3"
	965	},
	966	"EC-Earth3-HR":{
	967	"activity_participation":[
	968	"CMIP",
	969	"DCPP",
	970	"HighResMIP"
	971	],
	972	"cohort":[
	973	"Registered"
	974	],
	975	"institution_id":[
	976	"EC-Earth-Consortium"
	977	],
	978	"source_id":"EC-Earth3-HR",
	979	"source":"EC-Earth3-HR (2019): \naerosol: none\natmos: IFS cy36r4 (TL511, linearly reduced Gaussian grid equivalent to 1024 x 512 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: none\nland: HTESSEL (land surface scheme built in IFS)\nlandIce: none\nocean: NEMO3.6 (ORCA025 tripolar primarily 0.25 degrees; 1442 x 1921 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM3"
	980	},
	981	"EC-Earth3-LR":{
	982	"activity_participation":[
	983	"CMIP",
	984	"PMIP"
	985	],
	986	"cohort":[
	987	"Registered"
	988	],
	989	"institution_id":[
	990	"EC-Earth-Consortium"
	991	],
	992	"source_id":"EC-Earth3-LR",
	993	"source":"EC-Earth3-LR (2019): \naerosol: none\natmos: IFS cy36r4 (TL159, linearly reduced Gaussian grid equivalent to 320 x 160 longitude/latitude; 62 levels; top level 5 hPa)\natmosChem: none\nland: HTESSEL (land surface scheme built in IFS)\nlandIce: none\nocean: NEMO3.6 (ORCA1 tripolar primarily 1 degree with meridional refinement down to 1/3 degree in the tropics; 362 x 292 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM3"
	994	},
	995	"EC-Earth3-Veg":{
	996	"activity_participation":[
	997	"CDRMIP",
	998	"CMIP",
	999	"CORDEX",
	1000	"LS3MIP",
	1001	"LUMIP",
	1002	"ScenarioMIP"
	1003	],
	1004	"cohort":[
	1005	"Registered"
	1006	],
	1007	"institution_id":[
	1008	"EC-Earth-Consortium"
	1009	],
	1010	"source_id":"EC-Earth3-Veg",
	1011	"source":"EC-Earth3-Veg (2019): \naerosol: none\natmos: IFS cy36r4 (TL255, linearly reduced Gaussian grid equivalent to 512 x 256 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: none\nland: HTESSEL (land surface scheme built in IFS) and LPJ-GUESS v4\nlandIce: none\nocean: NEMO3.6 (ORCA1 tripolar primarily 1 degree with meridional refinement down to 1/3 degree in the tropics; 362 x 292 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM3"
	1012	},
	1013	"EC-Earth3-Veg-LR":{
	1014	"activity_participation":[
	1015	"CMIP",
	1016	"PMIP",
	1017	"ScenarioMIP"
	1018	],
	1019	"cohort":[
	1020	"Registered"
	1021	],
	1022	"institution_id":[
	1023	"EC-Earth-Consortium"
	1024	],
	1025	"source_id":"EC-Earth3-Veg-LR",
	1026	"source":"EC-Earth3-Veg-LR (2019): \naerosol: none\natmos: IFS cy36r4 (TL159, linearly reduced Gaussian grid equivalent to 320 x 160 longitude/latitude; 62 levels; top level 5 hPa)\natmosChem: none\nland: HTESSEL (land surface scheme built in IFS) and LPJ-GUESS v4\nlandIce: none\nocean: NEMO3.6 (ORCA1 tripolar primarily 1 degree with meridional refinement down to 1/3 degree in the tropics; 362 x 292 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM3"
	1027	},
	1028	"EC-Earth3P":{
	1029	"activity_participation":[
	1030	"CMIP",
	1031	"HighResMIP"
	1032	],
	1033	"cohort":[
	1034	"Registered"
	1035	],
	1036	"institution_id":[
	1037	"EC-Earth-Consortium"
	1038	],
	1039	"source_id":"EC-Earth3P",
	1040	"source":"EC-Earth3P (2017): \naerosol: none\natmos: IFS cy36r4 (TL255, linearly reduced Gaussian grid equivalent to 512 x 256 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: none\nland: HTESSEL (land surface scheme built in IFS)\nlandIce: none\nocean: NEMO3.6 (ORCA1 tripolar primarily 1 degree with meridional refinement down to 1/3 degree in the tropics; 362 x 292 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM3"
	1041	},
	1042	"EC-Earth3P-HR":{
	1043	"activity_participation":[
	1044	"HighResMIP"
	1045	],
	1046	"cohort":[
	1047	"Registered"
	1048	],
	1049	"institution_id":[
	1050	"EC-Earth-Consortium"
	1051	],
	1052	"source_id":"EC-Earth3P-HR",
	1053	"source":"EC-Earth3P-HR (2017): \naerosol: none\natmos: IFS cy36r4 (TL511, linearly reduced Gaussian grid equivalent to 1024 x 512 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: none\nland: HTESSEL (land surface scheme built in IFS)\nlandIce: none\nocean: NEMO3.6 (ORCA025; tripolar primarily 0.25 degrees; 1442 x 1921 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM3"
	1054	},
	1055	"EC-Earth3P-VHR":{
	1056	"activity_participation":[
	1057	"HighResMIP"
	1058	],
	1059	"cohort":[
	1060	"Registered"
	1061	],
	1062	"institution_id":[
	1063	"EC-Earth-Consortium"
	1064	],
	1065	"source_id":"EC-Earth3P-VHR",
	1066	"source":"EC-Earth3P-VHR (2017): \naerosol: none\natmos: IFS cy36r4 (TL1279, linearly reduced Gaussian grid equivalent to 2560 x 1280 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: none\nland: HTESSEL (land surface scheme built in IFS)\nlandIce: none\nocean: NEMO3.6 (ORCA012 tripolar primarily 0.08 degrees; 4322 x 3059 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM3"
	1067	},
	1068	"ECMWF-IFS-HR":{
	1069	"activity_participation":[
	1070	"HighResMIP"
	1071	],
	1072	"cohort":[
	1073	"Registered"
	1074	],
	1075	"institution_id":[
	1076	"ECMWF"
	1077	],
	1078	"source_id":"ECMWF-IFS-HR",
	1079	"source":"ECMWF-IFS-HR (2017): \naerosol: none\natmos: IFS (IFS CY43R1, Tco399, cubic octahedral reduced Gaussian grid equivalent to 1600 x 800 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: none\nland: HTESSEL (as implemented in IFS CY43R1)\nlandIce: none\nocean: NEMO3.4 (NEMO v3.4; ORCA025 tripolar grid; 1442 x 1021 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM2 (LIM v2; ORCA025 tripolar grid; 1442 x 1021 longitude/latitude)"
	1080	},
	1081	"ECMWF-IFS-LR":{
	1082	"activity_participation":[
	1083	"HighResMIP"
	1084	],
	1085	"cohort":[
	1086	"Registered"
	1087	],
	1088	"institution_id":[
	1089	"ECMWF"
	1090	],
	1091	"source_id":"ECMWF-IFS-LR",
	1092	"source":"ECMWF-IFS-LR (2017): \naerosol: none\natmos: IFS (IFS CY43R1, Tco199, cubic octahedral reduced Gaussian grid equivalent to 800 x 400 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: none\nland: HTESSEL (as implemented in IFS CY43R1)\nlandIce: none\nocean: NEMO3.4 (NEMO v3.4; ORCA1 tripolar grid; 362 x 292 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM2 (LIM v2; ORCA1 tripolar grid; 362 x 292 longitude/latitude)"
	1093	},
	1094	"ECMWF-IFS-MR":{
	1095	"activity_participation":[
	1096	"HighResMIP"
	1097	],
	1098	"cohort":[
	1099	"Registered"
	1100	],
	1101	"institution_id":[
	1102	"ECMWF"
	1103	],
	1104	"source_id":"ECMWF-IFS-MR",
	1105	"source":"ECMWF-IFS-MR (2017): \naerosol: none\natmos: IFS (IFS CY43R1, Tco199, cubic octahedral reduced Gaussian grid equivalent to 800 x 400 longitude/latitude; 91 levels; top level 0.01 hPa)\natmosChem: none\nland: HTESSEL (as implemented in IFS CY43R1)\nlandIce: none\nocean: NEMO3.4 (NEMO v3.4; ORCA025 tripolar grid; 1442 x 1021 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: LIM2 (LIM v2; ORCA025 tripolar grid; 1442 x 1021 longitude/latitude)"
	1106	},
	1107	"EMAC-2-53-Vol":{
	1108	"activity_participation":[
	1109	"CMIP",
	1110	"VolMIP"
	1111	],
	1112	"cohort":[
	1113	"Registered"
	1114	],
	1115	"institution_id":[
	1116	"MESSy-Consortium"
	1117	],
	1118	"source_id":"EMAC-2-53-Vol",
	1119	"source":"EMAC-2-53-Vol (2017): \naerosol: gmxe 2.2.x\natmos: ECHAM5.3.02 (modified; spectral T42; 128 x 64 longitude/latitude; 47 levels; top level 0.01 hPa)\natmosChem: MECCA 3.8.x\nland: same as Atmosphere\nlandIce: none\nocean: MPIOM 1.3.0-beta (bipolar GR1.5, approximately 1.5deg reducing toward the poles; 256 x 220 longitude/latitude; 40 levels; top grid cell 0-12 m)\nocnBgchem: none\nseaIce: thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model"
	1120	},
	1121	"EMAC-2-54-AerChem":{
	1122	"activity_participation":[
	1123	"AerChemMIP",
	1124	"CMIP"
	1125	],
	1126	"cohort":[
	1127	"Registered"
	1128	],
	1129	"institution_id":[
	1130	"MESSy-Consortium"
	1131	],
	1132	"source_id":"EMAC-2-54-AerChem",
	1133	"source":"EMAC-2-54-AerChem (2018): \naerosol: gmxe 2.2.x\natmos: ECHAM5.3.02 (modified, spectral T42; 128 x 64 longitude/latitude; 47 levels; top level 0.01 hPa)\natmosChem: MECCA 3.8.x\nland: same as Atmosphere\nlandIce: none\nocean: MPIOM 1.3.0-beta (bipolar GR1.5, approximately 1.5deg; 256 x 220 longitude/latitude; 40 levels; top grid cell 0-12 m)\nocnBgchem: none\nseaIce: thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model"
	1134	},
	1135	"FGOALS-f3-H":{
	1136	"activity_participation":[
	1137	"CMIP",
	1138	"HighResMIP",
	1139	"OMIP"
	1140	],
	1141	"cohort":[
	1142	"Registered"
	1143	],
	1144	"institution_id":[
	1145	"CAS"
	1146	],
	1147	"source_id":"FGOALS-f3-H",
	1148	"source":"FGOALS-f3-H (2017): \naerosol: none\natmos: FAMIL2.2 (Cubed-sphere, c384; 1440 x 720 longitude/latitude; 32 levels; top level 2.16 hPa)\natmosChem: none\nland: CLM4.0\nlandIce: none\nocean: LICOM3.0 (LICOM3.0, tripolar primarily 0.1deg; 3600 x 2302 longitude/latitude; 55 levels; top grid cell 0-5 m)\nocnBgchem: none\nseaIce: CICE4.0"
	1149	},
	1150	"FGOALS-f3-L":{
	1151	"activity_participation":[
	1152	"CMIP",
	1153	"DCPP",
	1154	"GMMIP",
	1155	"HighResMIP",
	1156	"OMIP",
	1157	"PAMIP",
	1158	"PMIP",
	1159	"SIMIP",
	1160	"ScenarioMIP"
	1161	],
	1162	"cohort":[
	1163	"Registered"
	1164	],
	1165	"institution_id":[
	1166	"CAS"
	1167	],
	1168	"source_id":"FGOALS-f3-L",
	1169	"source":"FGOALS-f3-L (2017): \naerosol: none\natmos: FAMIL2.2 (Cubed-sphere, c96; 360 x 180 longitude/latitude; 32 levels; top level 2.16 hPa)\natmosChem: none\nland: CLM4.0\nlandIce: none\nocean: LICOM3.0 (LICOM3.0, tripolar primarily 1deg; 360 x 218 longitude/latitude; 30 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: CICE4.0"
	1170	},
	1171	"FGOALS-g3":{
	1172	"activity_participation":[
	1173	"CMIP",
	1174	"CORDEX",
	1175	"DAMIP",
	1176	"DCPP",
	1177	"FAFMIP",
	1178	"GMMIP",
	1179	"LS3MIP",
	1180	"OMIP",
	1181	"PMIP",
	1182	"SIMIP",
	1183	"ScenarioMIP"
	1184	],
	1185	"cohort":[
	1186	"Registered"
	1187	],
	1188	"institution_id":[
	1189	"CAS"
	1190	],
	1191	"source_id":"FGOALS-g3",
	1192	"source":"FGOALS-g3 (2017): \naerosol: none\natmos: GAMIL3 (180 x 80 longitude/latitude; 26 levels; top level 2.19hPa)\natmosChem: none\nland: CAS-LSM\nlandIce: none\nocean: LICOM3.0 (LICOM3.0, tripolar primarily 1deg; 360 x 218 longitude/latitude; 30 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: CICE4.0"
	1193	},
	1194	"FIO-ESM-2-0":{
	1195	"activity_participation":[
	1196	"CMIP",
	1197	"DCPP",
	1198	"GMMIP",
	1199	"OMIP",
	1200	"ScenarioMIP",
	1201	"SIMIP"
	1202	],
	1203	"cohort":[
	1204	"Registered"
	1205	],
	1206	"institution_id":[
	1207	"FIO-QLNM"
	1208	],
	1209	"source_id":"FIO-ESM-2-0",
	1210	"source":"FIO-ESM 2.0 (2018): \naerosol: Prescribed monthly fields\natmos: CAM4 (0.9x1.25 finite volume grid; 192 x 288 longitude/latitude; 26 levels; top level ~2 hPa)\natmosChem: none\nland: CLM4.0 (same grid at atmos)\nlandIce: none\nocean: POP2-W (POP2 coupled with MASNUM surface wave model, Displaced Pole; 320 x 384 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: CICE4.0 (same grid as ocean)"
	1211	},
	1212	"GFDL-AM4":{
	1213	"activity_participation":[
	1214	"CMIP"
	1215	],
	1216	"cohort":[
	1217	"Registered"
	1218	],
	1219	"institution_id":[
	1220	"NOAA-GFDL"
	1221	],
	1222	"source_id":"GFDL-AM4",
	1223	"source":"GFDL-AM4 (2018): \naerosol: interactive\natmos: GFDL-AM4.0 (Cubed-sphere (c96) - 1 degree nominal horizontal resolution; 360 x 180 longitude/latitude; 33 levels; top level 1 hPa)\natmosChem: fast chemistry, aerosol only\nland: GFDL-LM4.0\nlandIce: GFDL-LM4.0\nocean: none\nocnBgchem: none\nseaIce: none"
	1224	},
	1225	"GFDL-CM4":{
	1226	"activity_participation":[
	1227	"CFMIP",
	1228	"CMIP",
	1229	"DAMIP",
	1230	"DynVarMIP",
	1231	"FAFMIP",
	1232	"GMMIP",
	1233	"OMIP",
	1234	"RFMIP",
	1235	"ScenarioMIP"
	1236	],
	1237	"cohort":[
	1238	"Registered"
	1239	],
	1240	"institution_id":[
	1241	"NOAA-GFDL"
	1242	],
	1243	"source_id":"GFDL-CM4",
	1244	"source":"GFDL-CM4 (2018): \naerosol: interactive\natmos: GFDL-AM4.0.1 (Cubed-sphere (c96) - 1 degree nominal horizontal resolution; 360 x 180 longitude/latitude; 33 levels; top level 1 hPa)\natmosChem: fast chemistry, aerosol only\nland: GFDL-LM4.0.1 (1 degree nominal horizontal resolution; 360 x 180 longitude/latitude; 20 levels; bottom level 10m); land-Veg:unnamed (dynamic vegetation, dynamic land use); land-Hydro:unnamed (soil water and ice, multi-layer snow, rivers and lakes)\nlandIce: GFDL-LM4.0.1\nocean: GFDL-OM4p25 (GFDL-MOM6, tripolar - nominal 0.25 deg; 1440 x 1080 longitude/latitude; 75 levels; top grid cell 0-2 m)\nocnBgchem: GFDL-BLINGv2\nseaIce: GFDL-SIM4p25 (GFDL-SIS2.0, tripolar - nominal 0.25 deg; 1440 x 1080 longitude/latitude; 5 layers; 5 thickness categories)"
	1245	},
	1246	"GFDL-CM4C192":{
	1247	"activity_participation":[
	1248	"HighResMIP"
	1249	],
	1250	"cohort":[
	1251	"Registered"
	1252	],
	1253	"institution_id":[
	1254	"NOAA-GFDL"
	1255	],
	1256	"source_id":"GFDL-CM4C192",
	1257	"source":"GFDL-CM4C192 (2018): \naerosol: interactive\natmos: GFDL-AM4C192 (Cubed-sphere (c192) - 0.5 degree nominal horizontal resolution; 720 x 360 longitude/latitude; 33 levels; top level 1 hPa)\natmosChem: fast chemistry, aerosol only\nland: GFDL-LM4.0.1\nlandIce: GFDL-LM4.0.1\nocean: GFDL-OM4p25 (GFDL-MOM6, tripolar - nominal 0.25 deg; 1440 x 1080 longitude/latitude; 75 levels; top grid cell 0-2 m)\nocnBgchem: none\nseaIce: GFDL-SIM4p25 (GFDL-SIS2.0, tripolar - nominal 0.25 deg; 1440 x 1080 longitude/latitude; 5 layers; 5 thickness categories)"
	1258	},
	1259	"GFDL-ESM2M":{
	1260	"activity_participation":[
	1261	"FAFMIP"
	1262	],
	1263	"cohort":[
	1264	"Registered"
	1265	],
	1266	"institution_id":[
	1267	"NOAA-GFDL"
	1268	],
	1269	"source_id":"GFDL-ESM2M",
	1270	"source":"GFDL-ESM2M (2012): \naerosol: prescribed\natmos: GFDL-AM2 (144 x 90 longitude/latitude; 24 levels; top level 1 hPa)\natmosChem: prescribed\nland: GFDL-LM3.0\nlandIce: GFDL-LM3.0\nocean: GFDL-MOM4p1 (tripolar - nominal 1 deg; 360 x 200 longitude/latitude; 50 levels; top grid cell 0-10 m)\nocnBgchem: GFDL-TOPAZ2\nseaIce: GFDL-SIM2 (GFDL-SIS, tripolar - nominal 1 deg; 360 x 200 longitude/latitude; 3 layers; 5 thickness categories)"
	1271	},
	1272	"GFDL-ESM4":{
	1273	"activity_participation":[
	1274	"AerChemMIP",
	1275	"C4MIP",
	1276	"CDRMIP",
	1277	"CMIP",
	1278	"DAMIP",
	1279	"DynVarMIP",
	1280	"FAFMIP",
	1281	"LUMIP",
	1282	"RFMIP",
	1283	"ScenarioMIP"
	1284	],
	1285	"cohort":[
	1286	"Registered"
	1287	],
	1288	"institution_id":[
	1289	"NOAA-GFDL"
	1290	],
	1291	"source_id":"GFDL-ESM4",
	1292	"source":"GFDL-ESM4 (2018): \naerosol: interactive\natmos: GFDL-AM4.1 (Cubed-sphere (c96) - 1 degree nominal horizontal resolution; 360 x 180 longitude/latitude; 49 levels; top level 1 Pa)\natmosChem: GFDL-ATMCHEM4.1 (full atmospheric chemistry)\nland: GFDL-LM4.1\nlandIce: GFDL-LM4.1\nocean: GFDL-OM4p5 (GFDL-MOM6, tripolar - nominal 0.5 deg; 720 x 576 longitude/latitude; 75 levels; top grid cell 0-2 m)\nocnBgchem: GFDL-COBALTv2\nseaIce: GFDL-SIM4p5 (GFDL-SIS2.0, tripolar - nominal 0.5 deg; 720 x 576 longitude/latitude; 5 layers; 5 thickness categories)"
	1293	},
	1294	"GFDL-GLOBAL-LBL":{
	1295	"activity_participation":[
	1296	"RFMIP"
	1297	],
	1298	"cohort":[
	1299	"Registered"
	1300	],
	1301	"institution_id":[
	1302	"NOAA-GFDL"
	1303	],
	1304	"source_id":"GFDL-GLOBAL-LBL",
	1305	"source":"GFDL-GLOBAL-LBL (2019): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	1306	},
	1307	"GFDL-GRTCODE":{
	1308	"activity_participation":[
	1309	"RFMIP"
	1310	],
	1311	"cohort":[
	1312	"Registered"
	1313	],
	1314	"institution_id":[
	1315	"NOAA-GFDL"
	1316	],
	1317	"source_id":"GFDL-GRTCODE",
	1318	"source":"GFDL-GRTCODE (2019): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	1319	},
	1320	"GFDL-OM4p5B":{
	1321	"activity_participation":[
	1322	"OMIP"
	1323	],
	1324	"cohort":[
	1325	"Registered"
	1326	],
	1327	"institution_id":[
	1328	"NOAA-GFDL"
	1329	],
	1330	"source_id":"GFDL-OM4p5B",
	1331	"source":"GFDL-OM4p5B (2018): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: GFDL-OM4p5 (GFDL-MOM6, tripolar - nominal 0.5 deg; 720 x 576 longitude/latitude; 75 levels; top grid cell 0-2 m)\nocnBgchem: GFDL-BLINGv2\nseaIce: GFDL-SIM4p5 (GFDL-SIS2.0, tripolar - nominal 0.5 deg; 720 x 576 longitude/latitude; 5 layers; 5 thickness categories)"
	1332	},
	1333	"GFDL-RFM-DISORT":{
	1334	"activity_participation":[
	1335	"RFMIP"
	1336	],
	1337	"cohort":[
	1338	"Registered"
	1339	],
	1340	"institution_id":[
	1341	"NOAA-GFDL"
	1342	],
	1343	"source_id":"GFDL-RFM-DISORT",
	1344	"source":"GFDL-RFM-DISORT (2019): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	1345	},
	1346	"GISS-E2-1-G":{
	1347	"activity_participation":[
	1348	"AerChemMIP",
	1349	"C4MIP",
	1350	"CFMIP",
	1351	"CMIP",
	1352	"DAMIP",
	1353	"DynVarMIP",
	1354	"FAFMIP",
	1355	"GMMIP",
	1356	"ISMIP6",
	1357	"LS3MIP",
	1358	"LUMIP",
	1359	"OMIP",
	1360	"PAMIP",
	1361	"PMIP",
	1362	"RFMIP",
	1363	"SIMIP",
	1364	"ScenarioMIP",
	1365	"VIACSAB",
	1366	"VolMIP"
	1367	],
	1368	"cohort":[
	1369	"Registered"
	1370	],
	1371	"institution_id":[
	1372	"NASA-GISS"
	1373	],
	1374	"source_id":"GISS-E2-1-G",
	1375	"source":"GISS-E2.1G (2019): \naerosol: Varies with physics-version (p==1 none, p==3 OMA, p==4 TOMAS, p==5 MATRIX)\natmos: GISS-E2.1 (2.5x2 degree; 144 x 90 longitude/latitude; 40 levels; top level 0.1 hPa)\natmosChem: Varies with physics-version (p==1 Non-interactive, p>1 GPUCCINI)\nland: GISS LSM\nlandIce: none\nocean: GISS Ocean (GO1, 1 degree; 360 x 180 longitude/latitude; 40 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: GISS SI"
	1376	},
	1377	"GISS-E2-1-G-CC":{
	1378	"activity_participation":[
	1379	"C4MIP",
	1380	"CMIP"
	1381	],
	1382	"cohort":[
	1383	"Registered"
	1384	],
	1385	"institution_id":[
	1386	"NASA-GISS"
	1387	],
	1388	"source_id":"GISS-E2-1-G-CC",
	1389	"source":"GISS-E2-1-G-CC (2019): \naerosol: varies with physics-version (p==1 none, p==3 OMA, p==4 TOMAS, p==5 MATRIX)\natmos: GISS-E2.1 (2 x 2.5 degrees; 144 x 90 longitude/latitude; 40 levels; top level 0.1 hPa)\natmosChem: varies with physics-version (p==1 Non-interactive, p>1 GPUCCINI)\nland: GISS LSM\nlandIce: Fixed\nocean: GISS Ocean (1 deg; 360 x 180 longitude/latitude; 40 levels; top grid cell 0-10m)\nocnBgchem: NOBM (NASA Ocean Biogeochemistry Model; same grid as ocean)\nseaIce: GISS SI (same grid as ocean)"
	1390	},
	1391	"GISS-E2-1-H":{
	1392	"activity_participation":[
	1393	"CFMIP",
	1394	"CMIP",
	1395	"OMIP",
	1396	"PAMIP",
	1397	"SIMIP",
	1398	"ScenarioMIP"
	1399	],
	1400	"cohort":[
	1401	"Registered"
	1402	],
	1403	"institution_id":[
	1404	"NASA-GISS"
	1405	],
	1406	"source_id":"GISS-E2-1-H",
	1407	"source":"GISS-E2.1H (2019): \naerosol: Varies with physics-version (p==1 none, p==3 OMA, p==4 TOMAS, p==5 MATRIX)\natmos: GISS-E2.1 (2.5x2 degree; 144 x 90 longitude/latitude; 40 levels; top level 0.1 hPa)\natmosChem: Varies with physics-version (p==1 Non-interactive, p>1 GPUCCINI)\nland: GISS LSM\nlandIce: none\nocean: HYCOM Ocean (~1 degree tripolar grid; 360 x 180 longitude/latitude; 32 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: GISS SI"
	1408	},
	1409	"GISS-E2-2-G":{
	1410	"activity_participation":[
	1411	"AerChemMIP",
	1412	"CFMIP",
	1413	"CMIP",
	1414	"DAMIP",
	1415	"DynVarMIP",
	1416	"FAFMIP",
	1417	"GMMIP",
	1418	"ISMIP6",
	1419	"LS3MIP",
	1420	"LUMIP",
	1421	"OMIP",
	1422	"PAMIP",
	1423	"PMIP",
	1424	"RFMIP",
	1425	"SIMIP",
	1426	"ScenarioMIP",
	1427	"VIACSAB",
	1428	"VolMIP"
	1429	],
	1430	"cohort":[
	1431	"Registered"
	1432	],
	1433	"institution_id":[
	1434	"NASA-GISS"
	1435	],
	1436	"source_id":"GISS-E2-2-G",
	1437	"source":"GISS-E2-2-G (2019): \naerosol: varies with physics-version (p==1 none, p==3 OMA, p==4 TOMAS, p==5 MATRIX)\natmos: GISS-E2.2 (High-top, 2 x 2.5 degrees; 144 x 90 longitude/latitude; 102 levels; top level 0.002 hPa)\natmosChem: varies with physics-version (p==1 Non-interactive, p>1 GPUCCINI)\nland: GISS LSM\nlandIce: Fixed\nocean: GISS Ocean (GO1, 1 degree; 360 x 180 longitude/latitude; 40 levels; top grid cell 0-10m)\nocnBgchem: none\nseaIce: GISS SI"
	1438	},
	1439	"GISS-E2-2-H":{
	1440	"activity_participation":[
	1441	"CMIP",
	1442	"SIMIP",
	1443	"ScenarioMIP"
	1444	],
	1445	"cohort":[
	1446	"Registered"
	1447	],
	1448	"institution_id":[
	1449	"NASA-GISS"
	1450	],
	1451	"source_id":"GISS-E2-2-H",
	1452	"source":"GISS-E2.2H (2021): \naerosol: Varies with physics-version (p==1 none, p==3 OMA, p==4 TOMAS, p==5 MATRIX)\natmos: GISS-E2.2 (High Top, 2.5x2 degree; 144 x 90 longitude/latitude; 102 levels; top level 0.002 hPa)\natmosChem: Varies with physics-version (p==1 Non-interactive, p>1 GPUCCINI)\nland: GISS LSM\nlandIce: none\nocean: HYCOM Ocean (~1 degree tripolar grid; 360 x 180 longitude/latitude; 32 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: GISS SI (same grid as atmos)"
	1453	},
	1454	"GISS-E3-G":{
	1455	"activity_participation":[
	1456	"AerChemMIP",
	1457	"C4MIP",
	1458	"CFMIP",
	1459	"CMIP",
	1460	"DAMIP",
	1461	"DynVarMIP",
	1462	"FAFMIP",
	1463	"GMMIP",
	1464	"ISMIP6",
	1465	"LS3MIP",
	1466	"LUMIP",
	1467	"OMIP",
	1468	"PAMIP",
	1469	"PMIP",
	1470	"RFMIP",
	1471	"SIMIP",
	1472	"ScenarioMIP",
	1473	"VIACSAB",
	1474	"VolMIP"
	1475	],
	1476	"cohort":[
	1477	"Registered"
	1478	],
	1479	"institution_id":[
	1480	"NASA-GISS"
	1481	],
	1482	"source_id":"GISS-E3-G",
	1483	"source":"GISS-E3-G (2020): \naerosol: Varies with physics-version (p==1 none, p==3 OMA, p==4 TOMAS, p==5 MATRIX)\natmos: GISS-E3 (Cubed sphere, C90; 90 x 90 x 6 gridboxes/cubeface, grid resolution aligns with longitude/latitude along central lines for each cubeface; 102 levels; top level 0.002 hPa)\natmosChem: Varies with physics-version (p==1 Non-interactive, p>1 GPUCCINI)\nland: GISS LSM\nlandIce: none\nocean: GISS Ocean (1 degree; 360 x 180 longitude/latitude; 32 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: GISS SI"
	1484	},
	1485	"HadGEM3-GC31-HH":{
	1486	"activity_participation":[
	1487	"CMIP",
	1488	"HighResMIP"
	1489	],
	1490	"cohort":[
	1491	"Registered"
	1492	],
	1493	"institution_id":[
	1494	"MOHC",
	1495	"NERC"
	1496	],
	1497	"source_id":"HadGEM3-GC31-HH",
	1498	"source":"HadGEM3-GC31-HH (2016): \naerosol: UKCA-GLOMAP-mode\natmos: MetUM-HadGEM3-GA7.1 (N512; 1024 x 768 longitude/latitude; 85 levels; top level 85 km)\natmosChem: none\nland: JULES-HadGEM3-GL7.1\nlandIce: none\nocean: NEMO-HadGEM3-GO6.0 (eORCA12 tripolar primarily 1/12 deg; 4320 x 3604 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: CICE-HadGEM3-GSI8 (eORCA12 tripolar primarily 1/12 deg; 4320 x 3604 longitude/latitude)"
	1499	},
	1500	"HadGEM3-GC31-HM":{
	1501	"activity_participation":[
	1502	"CMIP",
	1503	"HighResMIP"
	1504	],
	1505	"cohort":[
	1506	"Registered"
	1507	],
	1508	"institution_id":[
	1509	"MOHC",
	1510	"NERC"
	1511	],
	1512	"source_id":"HadGEM3-GC31-HM",
	1513	"source":"HadGEM3-GC31-HM (2016): \naerosol: UKCA-GLOMAP-mode\natmos: MetUM-HadGEM3-GA7.1 (N512; 1024 x 768 longitude/latitude; 85 levels; top level 85 km)\natmosChem: none\nland: JULES-HadGEM3-GL7.1\nlandIce: none\nocean: NEMO-HadGEM3-GO6.0 (eORCA025 tripolar primarily 0.25 deg; 1440 x 1205 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: CICE-HadGEM3-GSI8 (eORCA025 tripolar primarily 0.25 deg; 1440 x 1205 longitude/latitude)"
	1514	},
	1515	"HadGEM3-GC31-LL":{
	1516	"activity_participation":[
	1517	"CFMIP",
	1518	"CMIP",
	1519	"DAMIP",
	1520	"FAFMIP",
	1521	"HighResMIP",
	1522	"LS3MIP",
	1523	"LUMIP",
	1524	"PMIP",
	1525	"RFMIP",
	1526	"ScenarioMIP"
	1527	],
	1528	"cohort":[
	1529	"Registered"
	1530	],
	1531	"institution_id":[
	1532	"MOHC",
	1533	"NERC"
	1534	],
	1535	"source_id":"HadGEM3-GC31-LL",
	1536	"source":"HadGEM3-GC31-LL (2016): \naerosol: UKCA-GLOMAP-mode\natmos: MetUM-HadGEM3-GA7.1 (N96; 192 x 144 longitude/latitude; 85 levels; top level 85 km)\natmosChem: none\nland: JULES-HadGEM3-GL7.1\nlandIce: none\nocean: NEMO-HadGEM3-GO6.0 (eORCA1 tripolar primarily 1 deg with meridional refinement down to 1/3 degree in the tropics; 360 x 330 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: CICE-HadGEM3-GSI8 (eORCA1 tripolar primarily 1 deg; 360 x 330 longitude/latitude)"
	1537	},
	1538	"HadGEM3-GC31-LM":{
	1539	"activity_participation":[
	1540	"CMIP",
	1541	"HighResMIP"
	1542	],
	1543	"cohort":[
	1544	"Registered"
	1545	],
	1546	"institution_id":[
	1547	"MOHC"
	1548	],
	1549	"source_id":"HadGEM3-GC31-LM",
	1550	"source":"HadGEM3-GC31-LM (2016): \naerosol: UKCA-GLOMAP-mode\natmos: MetUM-HadGEM3-GA7.1 (N96; 192 x 144 longitude/latitude; 85 levels; top level 85 km)\natmosChem: none\nland: JULES-HadGEM3-GL7.1\nlandIce: none\nocean: NEMO-HadGEM3-GO6.0 (eORCA025 tripolar primarily 0.25 deg; 1440 x 1205 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: CICE-HadGEM3-GSI8 (eORCA025 tripolar primarily 0.25 deg; 1440 x 1205 longitude/latitude)"
	1551	},
	1552	"HadGEM3-GC31-MH":{
	1553	"activity_participation":[
	1554	"CMIP",
	1555	"HighResMIP"
	1556	],
	1557	"cohort":[
	1558	"Registered"
	1559	],
	1560	"institution_id":[
	1561	"MOHC"
	1562	],
	1563	"source_id":"HadGEM3-GC31-MH",
	1564	"source":"HadGEM3-GC31-MH (2016): \naerosol: UKCA-GLOMAP-mode\natmos: MetUM-HadGEM3-GA7.1 (N216; 432 x 324 longitude/latitude; 85 levels; top level 85 km)\natmosChem: none\nland: JULES-HadGEM3-GL7.1\nlandIce: none\nocean: NEMO-HadGEM3-GO6.0 (eORCA12 tripolar primarily 1/12 deg; 4320 x 3604 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: CICE-HadGEM3-GSI8 (eORCA12 tripolar primarily 1/12 deg; 4320 x 3604 longitude/latitude)"
	1565	},
	1566	"HadGEM3-GC31-MM":{
	1567	"activity_participation":[
	1568	"CMIP",
	1569	"DCPP",
	1570	"GMMIP",
	1571	"HighResMIP",
	1572	"LS3MIP",
	1573	"OMIP",
	1574	"PAMIP",
	1575	"ScenarioMIP"
	1576	],
	1577	"cohort":[
	1578	"Registered"
	1579	],
	1580	"institution_id":[
	1581	"MOHC"
	1582	],
	1583	"source_id":"HadGEM3-GC31-MM",
	1584	"source":"HadGEM3-GC31-MM (2016): \naerosol: UKCA-GLOMAP-mode\natmos: MetUM-HadGEM3-GA7.1 (N216; 432 x 324 longitude/latitude; 85 levels; top level 85 km)\natmosChem: none\nland: JULES-HadGEM3-GL7.1\nlandIce: none\nocean: NEMO-HadGEM3-GO6.0 (eORCA025 tripolar primarily 0.25 deg; 1440 x 1205 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: CICE-HadGEM3-GSI8 (eORCA025 tripolar primarily 0.25 deg; 1440 x 1205 longitude/latitude)"
	1585	},
	1586	"HiRAM-SIT-HR":{
	1587	"activity_participation":[
	1588	"HighResMIP"
	1589	],
	1590	"cohort":[
	1591	"Registered"
	1592	],
	1593	"institution_id":[
	1594	"AS-RCEC"
	1595	],
	1596	"source_id":"HiRAM-SIT-HR",
	1597	"source":"HiRAM-SIT-HR (2018): \naerosol: none\natmos: GFDL-HiRAM (Cubed-sphere (c384) - 0.25 degree nominal horizontal resolution; 1536 x 768 longitude/latitude; 32 levels; top level 1 hPa)\natmosChem: none\nland: GFDL-LM3 (same grid as atmos)\nlandIce: none\nocean: SIT (1-D, tripolar - nominal 0.25 deg; 1440 x 1080 longitude/latitude; 50 levels with skin layer and 1 m resolution for uppermost 10 m)\nocnBgchem: none\nseaIce: none"
	1598	},
	1599	"HiRAM-SIT-LR":{
	1600	"activity_participation":[
	1601	"HighResMIP"
	1602	],
	1603	"cohort":[
	1604	"Registered"
	1605	],
	1606	"institution_id":[
	1607	"AS-RCEC"
	1608	],
	1609	"source_id":"HiRAM-SIT-LR",
	1610	"source":"HiRAM-SIT-LR (2018): \naerosol: none\natmos: GFDL-HiRAM (Cubed-sphere (c192) - 0.5 degree nominal horizontal resolution; 768 x 384 longitude/latitude; 32 levels; top level 1 hPa)\natmosChem: none\nland: GFDL-LM3 (same grid as atmos)\nlandIce: none\nocean: SIT (1-D, tripolar - nominal 0.25 deg; 1440 x 1080 longitude/latitude; 50 levels with skin layer and 1 m resolution for uppermost 10 m)\nocnBgchem: none\nseaIce: none"
	1611	},
	1612	"ICON-ESM-LR":{
	1613	"activity_participation":[
	1614	"CMIP",
	1615	"OMIP",
	1616	"SIMIP"
	1617	],
	1618	"cohort":[
	1619	"Registered"
	1620	],
	1621	"institution_id":[
	1622	"MPI-M"
	1623	],
	1624	"source_id":"ICON-ESM-LR",
	1625	"source":"ICON-ESM-LR (2017): \naerosol: none, prescribed MACv2-SP\natmos: ICON-A (icosahedral/triangles; 160 km; 47 levels; top level 80 km)\natmosChem: none\nland: JSBACH4.20\nlandIce: none/prescribed\nocean: ICON-O (icosahedral/triangles; 40 km; 40 levels; top grid cell 0-12 m)\nocnBgchem: HAMOCC\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)"
	1626	},
	1627	"IITM-ESM":{
	1628	"activity_participation":[
	1629	"CMIP",
	1630	"GMMIP",
	1631	"ScenarioMIP"
	1632	],
	1633	"cohort":[
	1634	"Registered"
	1635	],
	1636	"institution_id":[
	1637	"CCCR-IITM"
	1638	],
	1639	"source_id":"IITM-ESM",
	1640	"source":"IITM-ESM (2015): \naerosol: prescribed MAC-v2\natmos: IITM-GFSv1 (T62L64, Linearly Reduced Gaussian Grid; 192 x 94 longitude/latitude; 64 levels; top level 0.2 mb)\natmosChem: none\nland: NOAH LSMv2.7.1\nlandIce: none\nocean: MOM4p1 (tripolar, primarily 1deg; 360 x 200 longitude/latitude; 50 levels; top grid cell 0-10 m)\nocnBgchem: TOPAZv2.0\nseaIce: SISv1.0"
	1641	},
	1642	"INM-CM4-8":{
	1643	"activity_participation":[
	1644	"CMIP",
	1645	"PMIP",
	1646	"ScenarioMIP"
	1647	],
	1648	"cohort":[
	1649	"Registered"
	1650	],
	1651	"institution_id":[
	1652	"INM"
	1653	],
	1654	"source_id":"INM-CM4-8",
	1655	"source":"INM-CM4-8 (2016): \naerosol: INM-AER1\natmos: INM-AM4-8 (2x1.5; 180 x 120 longitude/latitude; 21 levels; top level sigma = 0.01)\natmosChem: none\nland: INM-LND1\nlandIce: none\nocean: INM-OM5 (North Pole shifted to 60N, 90E; 360 x 318 longitude/latitude; 40 levels; sigma vertical coordinate)\nocnBgchem: none\nseaIce: INM-ICE1"
	1656	},
	1657	"INM-CM5-0":{
	1658	"activity_participation":[
	1659	"CMIP",
	1660	"ScenarioMIP"
	1661	],
	1662	"cohort":[
	1663	"Registered"
	1664	],
	1665	"institution_id":[
	1666	"INM"
	1667	],
	1668	"source_id":"INM-CM5-0",
	1669	"source":"INM-CM5-0 (2016): \naerosol: INM-AER1\natmos: INM-AM5-0 (2x1.5; 180 x 120 longitude/latitude; 73 levels; top level sigma = 0.0002)\natmosChem: none\nland: INM-LND1\nlandIce: none\nocean: INM-OM5 (North Pole shifted to 60N, 90E. 0.5x0.25; 720 x 720 longitude/latitude; 40 levels; vertical sigma coordinate)\nocnBgchem: none\nseaIce: INM-ICE1"
	1670	},
	1671	"INM-CM5-H":{
	1672	"activity_participation":[
	1673	"CMIP",
	1674	"HighResMIP"
	1675	],
	1676	"cohort":[
	1677	"Registered"
	1678	],
	1679	"institution_id":[
	1680	"INM"
	1681	],
	1682	"source_id":"INM-CM5-H",
	1683	"source":"INM-CM5-H (2016): \naerosol: INM-AER1\natmos: INM-AM5-H (0.67x0.5; 540 x 360 longitude/latitude; 73 levels; top level sigma = 0.0002)\natmosChem: none\nland: INM-LND1\nlandIce: none\nocean: INM-OM5-H (North Pole shifted to 60N, 90E. 0.167x0.125; 2160x1440 longitude/latitude; 40 levels; vertical sigma coordinate)\nocnBgchem: none\nseaIce: INM-ICE1"
	1684	},
	1685	"IPSL-CM5A2-INCA":{
	1686	"activity_participation":[
	1687	"AerChemMIP",
	1688	"LUMIP",
	1689	"ScenarioMIP"
	1690	],
	1691	"cohort":[
	1692	"Registered"
	1693	],
	1694	"institution_id":[
	1695	"IPSL"
	1696	],
	1697	"source_id":"IPSL-CM5A2-INCA",
	1698	"source":"IPSL-CM5A2-INCA (2019): \naerosol: INCA v6 NMHC-AER-S\natmos: LMDZ (APv5; 96 x 96 longitude/latitude; 39 levels; top level 80000 m)\natmosChem: INCA v6 NMHC-AER-S\nland: ORCHIDEE (IPSLCM5A2.1, Water/Carbon/Energy mode)\nlandIce: none\nocean: NEMO-OPA (v3.6, ORCA2 tripolar primarily 2deg; 182 x 149 longitude/latitude; 31 levels; top grid cell 0-10 m)\nocnBgchem: NEMO-PISCES\nseaIce: NEMO-LIM2"
	1699	},
	1700	"IPSL-CM6A-ATM-HR":{
	1701	"activity_participation":[
	1702	"HighResMIP"
	1703	],
	1704	"cohort":[
	1705	"Registered"
	1706	],
	1707	"institution_id":[
	1708	"IPSL"
	1709	],
	1710	"source_id":"IPSL-CM6A-ATM-HR",
	1711	"source":"IPSL-CM6A-ATM-HR (2018): \naerosol: none\natmos: LMDZ (NPv6, N256; 512 x 360 longitude/latitude; 79 levels; top level 80000 m)\natmosChem: none\nland: ORCHIDEE (v2.0, Water/Carbon/Energy mode)\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	1712	},
	1713	"IPSL-CM6A-LR":{
	1714	"activity_participation":[
	1715	"C4MIP",
	1716	"CDRMIP",
	1717	"CFMIP",
	1718	"CMIP",
	1719	"DAMIP",
	1720	"DCPP",
	1721	"FAFMIP",
	1722	"GMMIP",
	1723	"GeoMIP",
	1724	"HighResMIP",
	1725	"LS3MIP",
	1726	"LUMIP",
	1727	"OMIP",
	1728	"PAMIP",
	1729	"PMIP",
	1730	"RFMIP",
	1731	"ScenarioMIP",
	1732	"VolMIP"
	1733	],
	1734	"cohort":[
	1735	"Registered"
	1736	],
	1737	"institution_id":[
	1738	"IPSL"
	1739	],
	1740	"source_id":"IPSL-CM6A-LR",
	1741	"source":"IPSL-CM6A-LR (2017): \naerosol: none\natmos: LMDZ (NPv6, N96; 144 x 143 longitude/latitude; 79 levels; top level 80000 m)\natmosChem: none\nland: ORCHIDEE (v2.0, Water/Carbon/Energy mode)\nlandIce: none\nocean: NEMO-OPA (eORCA1.3, tripolar primarily 1deg; 362 x 332 longitude/latitude; 75 levels; top grid cell 0-2 m)\nocnBgchem: NEMO-PISCES\nseaIce: NEMO-LIM3"
	1742	},
	1743	"IPSL-CM6A-LR-INCA":{
	1744	"activity_participation":[
	1745	"AerChemMIP",
	1746	"RFMIP"
	1747	],
	1748	"cohort":[
	1749	"Registered"
	1750	],
	1751	"institution_id":[
	1752	"IPSL"
	1753	],
	1754	"source_id":"IPSL-CM6A-LR-INCA",
	1755	"source":"IPSL-CM6A-LR-INCA (2019): \naerosol: INCA v6 AER\natmos: LMDZ (NPv6 ; 144 x 143 longitude/latitude; 79 levels; top level 80000 m)\natmosChem: none\nland: ORCHIDEE (v2.0, Water/Carbon/Energy mode)\nlandIce: none\nocean: NEMO-OPA (eORCA1.3, tripolar primarily 1deg; 362 x 332 longitude/latitude; 75 levels; top grid cell 0-2 m)\nocnBgchem: NEMO-PISCES\nseaIce: NEMO-LIM3"
	1756	},
	1757	"IPSL-CM6A-MR025":{
	1758	"activity_participation":[
	1759	"CMIP"
	1760	],
	1761	"cohort":[
	1762	"Registered"
	1763	],
	1764	"institution_id":[
	1765	"IPSL"
	1766	],
	1767	"source_id":"IPSL-CM6A-MR025",
	1768	"source":"IPSL-CM6A-MR025 (2021): \naerosol: none\natmos: LMDZ (NPv6; 256 x 256 longitude/latitude; 79 levels; top level 80000 m)\natmosChem: none\nland: ORCHIDEE (v2.2, Water/Carbon/Energy mode; same grid as atmos)\nlandIce: none\nocean: NEMO-OPA (eORCA025, tripolar primarily 0.25deg; 1442 x 1207 longitude/latitude; 75 levels; top grid cell 0-2 m)\nocnBgchem: none\nseaIce: NEMO-LIM3 (same grid as ocean)"
	1769	},
	1770	"IPSL-CM6A-MR1":{
	1771	"activity_participation":[
	1772	"CMIP"
	1773	],
	1774	"cohort":[
	1775	"Registered"
	1776	],
	1777	"institution_id":[
	1778	"IPSL"
	1779	],
	1780	"source_id":"IPSL-CM6A-MR1",
	1781	"source":"IPSL-CM6A-MR1 (2021): \naerosol: none\natmos: LMDZ (NPv6; 256 x 256 longitude/latitude; 79 levels; top level 80000 m)\natmosChem: none\nland: ORCHIDEE (v2.2, Water/Carbon/Energy mode; same grid as atmos)\nlandIce: none\nocean: NEMO-OPA (eORCA1.3, tripolar primarily 1deg; 362 x 332 longitude/latitude; 75 levels; top grid cell 0-2 m)\nocnBgchem: NEMO-PISCES (same grid as ocean)\nseaIce: NEMO-LIM3 (same grid as ocean)"
	1782	},
	1783	"IPSL-CM7A-ATM-HR":{
	1784	"activity_participation":[
	1785	"HighResMIP"
	1786	],
	1787	"cohort":[
	1788	"Registered"
	1789	],
	1790	"institution_id":[
	1791	"IPSL"
	1792	],
	1793	"source_id":"IPSL-CM7A-ATM-HR",
	1794	"source":"IPSL-CM7A-ATM-HR (2019): \naerosol: none\natmos: DYNAMICO-LMDZ (NPv6; 256000-point icosahedral-hexagonal; 79 levels; top level 80000 m)\natmosChem: none\nland: ORCHIDEE (v2.2, Water/Carbon/Energy mode)\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	1795	},
	1796	"IPSL-CM7A-ATM-LR":{
	1797	"activity_participation":[
	1798	"HighResMIP"
	1799	],
	1800	"cohort":[
	1801	"Registered"
	1802	],
	1803	"institution_id":[
	1804	"IPSL"
	1805	],
	1806	"source_id":"IPSL-CM7A-ATM-LR",
	1807	"source":"IPSL-CM7A-ATM-LR (2019): \naerosol: none\natmos: DYNAMICO-LMDZ (NPv6; 16000-point icosahedral-hexagonal; 79 levels; top level 80000 m)\natmosChem: none\nland: ORCHIDEE (v2.2, Water/Carbon/Energy mode)\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	1808	},
	1809	"KACE-1-0-G":{
	1810	"activity_participation":[
	1811	"CMIP",
	1812	"ScenarioMIP"
	1813	],
	1814	"cohort":[
	1815	"Registered"
	1816	],
	1817	"institution_id":[
	1818	"NIMS-KMA"
	1819	],
	1820	"source_id":"KACE-1-0-G",
	1821	"source":"KACE1.0-G (2018): \naerosol: UKCA-GLOMAP-mode\natmos: MetUM-HadGEM3-GA7.1 (N96; 192 x 144 longitude/latitude; 85 levels; top level 85 km)\natmosChem: none\nland: JULES-HadGEM3-GL7.1\nlandIce: none\nocean: MOM4p1 (tripolar primarily 1deg; 360 x 200 longitude/latitude; 50 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: CICE-HadGEM3-GSI8 (tripolar primarily 1deg; 360 x 200 longitude/latitude)"
	1822	},
	1823	"KIOST-ESM":{
	1824	"activity_participation":[
	1825	"C4MIP",
	1826	"CMIP",
	1827	"DynVarMIP",
	1828	"PMIP",
	1829	"ScenarioMIP"
	1830	],
	1831	"cohort":[
	1832	"Registered"
	1833	],
	1834	"institution_id":[
	1835	"KIOST"
	1836	],
	1837	"source_id":"KIOST-ESM",
	1838	"source":"KIOST-ESM (2018): \naerosol: none\natmos: GFDL-AM2.0 (cubed sphere (C48); 192 x 96 longitude/latitude; 32 vertical levels; top level 2 hPa)\natmosChem: Simple carbon aerosol model (emission type)\nland: NCAR-CLM4\nlandIce: NCAR-CLM4\nocean: GFDL-MOM5.0 (tripolar - nominal 1.0 deg; 360 x 200 longitude/latitude; 52 levels; top grid cell 0-2 m; NK mixed layer scheme)\nocnBgchem: TOPAZ2\nseaIce: GFDL-SIS"
	1839	},
	1840	"LBLRTM-12-8":{
	1841	"activity_participation":[
	1842	"RFMIP"
	1843	],
	1844	"cohort":[
	1845	"Registered"
	1846	],
	1847	"institution_id":[
	1848	"AER"
	1849	],
	1850	"source_id":"LBLRTM-12-8",
	1851	"source":"LBLRTM 12.8 (2017): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	1852	},
	1853	"MCM-UA-1-0":{
	1854	"activity_participation":[
	1855	"CMIP",
	1856	"FAFMIP",
	1857	"PMIP",
	1858	"ScenarioMIP"
	1859	],
	1860	"cohort":[
	1861	"Registered"
	1862	],
	1863	"institution_id":[
	1864	"UA"
	1865	],
	1866	"source_id":"MCM-UA-1-0",
	1867	"source":"MCM-UA-1-0 (1991): \naerosol: Modifies surface albedoes (Haywood et al. 1997, doi: 10.1175/1520-0442(1997)010<1562:GCMCOT>2.0.CO;2)\natmos: R30L14 (3.75 X 2.5 degree (long-lat) configuration; 96 x 80 longitude/latitude; 14 levels; top level 0.015 sigma, 15 mb)\natmosChem: none\nland: Standard Manabe bucket hydrology scheme (Manabe 1969, doi: 10.1175/1520-0493(1969)097<0739:CATOC>2.3.CO;2)\nlandIce: Specified location - invariant in time, has high albedo and latent heat capacity\nocean: MOM1.0 (MOM1, 1.875 X 2.5 deg; 192 x 80 longitude/latitude; 18 levels; top grid cell 0-40 m)\nocnBgchem: none\nseaIce: Thermodynamic ice model (free drift dynamics)"
	1868	},
	1869	"MIROC-ES2H":{
	1870	"activity_participation":[
	1871	"AerChemMIP",
	1872	"C4MIP",
	1873	"CMIP",
	1874	"DynVarMIP",
	1875	"GeoMIP",
	1876	"ScenarioMIP",
	1877	"VIACSAB"
	1878	],
	1879	"cohort":[
	1880	"Registered"
	1881	],
	1882	"institution_id":[
	1883	"MIROC"
	1884	],
	1885	"source_id":"MIROC-ES2H",
	1886	"source":"MIROC-ES2H (2018): \naerosol: SPRINTARS6.0\natmos: CCSR AGCM (T85; 256 x 128 longitude/latitude; 81 levels; top level 0.004 hPa)\natmosChem: CHASER4.0 (T42; 128 x 64 longitude/latitude; 81 levels; top level 0.004 hPa)\nland: MATSIRO6.0+VISIT-e ver.1.0\nlandIce: none\nocean: COCO4.9 (tripolar primarily 1deg; 360 x 256 longitude/latitude; 63 levels; top grid cell 0-2 m)\nocnBgchem: OECO ver.2.0; NPZD-type with C/N/P/Fe/O cycles\nseaIce: COCO4.9"
	1887	},
	1888	"MIROC-ES2H-NB":{
	1889	"activity_participation":[
	1890	"AerChemMIP",
	1891	"CMIP"
	1892	],
	1893	"cohort":[
	1894	"Registered"
	1895	],
	1896	"institution_id":[
	1897	"MIROC"
	1898	],
	1899	"source_id":"MIROC-ES2H-NB",
	1900	"source":"MIROC-ES2H-NB (2019): \naerosol: SPRINTARS6.0\natmos: CCSR AGCM (T85; 256 x 128 longitude/latitude; 81 levels; top level 0.004 hPa)\natmosChem: CHASER4.0 (T42; 128 x 64 longitude/latitude; 81 levels; top level 0.004 hPa)\nland: MATSIRO6\nlandIce: none\nocean: COCO4.9 (tripolar primarily 1deg; 360 x 256 longitude/latitude; 63 levels; top grid cell 0-2 m)\nocnBgchem: none\nseaIce: COCO4.9"
	1901	},
	1902	"MIROC-ES2L":{
	1903	"activity_participation":[
	1904	"C4MIP",
	1905	"CDRMIP",
	1906	"CMIP",
	1907	"DAMIP",
	1908	"DynVarMIP",
	1909	"GeoMIP",
	1910	"LUMIP",
	1911	"OMIP",
	1912	"PMIP",
	1913	"ScenarioMIP",
	1914	"VIACSAB",
	1915	"VolMIP"
	1916	],
	1917	"cohort":[
	1918	"Registered"
	1919	],
	1920	"institution_id":[
	1921	"MIROC"
	1922	],
	1923	"source_id":"MIROC-ES2L",
	1924	"source":"MIROC-ES2L (2018): \naerosol: SPRINTARS6.0\natmos: CCSR AGCM (T42; 128 x 64 longitude/latitude; 40 levels; top level 3 hPa)\natmosChem: none\nland: MATSIRO6.0+VISIT-e ver.1.0\nlandIce: none\nocean: COCO4.9 (tripolar primarily 1deg; 360 x 256 longitude/latitude; 63 levels; top grid cell 0-2 m)\nocnBgchem: OECO ver.2.0; NPZD-type with C/N/P/Fe/O cycles\nseaIce: COCO4.9"
	1925	},
	1926	"MIROC6":{
	1927	"activity_participation":[
	1928	"AerChemMIP",
	1929	"CFMIP",
	1930	"CMIP",
	1931	"DAMIP",
	1932	"DCPP",
	1933	"DynVarMIP",
	1934	"FAFMIP",
	1935	"GMMIP",
	1936	"HighResMIP",
	1937	"LS3MIP",
	1938	"OMIP",
	1939	"PAMIP",
	1940	"RFMIP",
	1941	"SIMIP",
	1942	"ScenarioMIP",
	1943	"VIACSAB"
	1944	],
	1945	"cohort":[
	1946	"Registered"
	1947	],
	1948	"institution_id":[
	1949	"MIROC"
	1950	],
	1951	"source_id":"MIROC6",
	1952	"source":"MIROC6 (2017): \naerosol: SPRINTARS6.0\natmos: CCSR AGCM (T85; 256 x 128 longitude/latitude; 81 levels; top level 0.004 hPa)\natmosChem: none\nland: MATSIRO6.0\nlandIce: none\nocean: COCO4.9 (tripolar primarily 1deg; 360 x 256 longitude/latitude; 63 levels; top grid cell 0-2 m)\nocnBgchem: none\nseaIce: COCO4.9"
	1953	},
	1954	"MPI-ESM-1-2-HAM":{
	1955	"activity_participation":[
	1956	"AerChemMIP",
	1957	"CMIP",
	1958	"RFMIP",
	1959	"ScenarioMIP"
	1960	],
	1961	"cohort":[
	1962	"Registered"
	1963	],
	1964	"institution_id":[
	1965	"HAMMOZ-Consortium"
	1966	],
	1967	"source_id":"MPI-ESM-1-2-HAM",
	1968	"source":"MPI-ESM1.2-HAM (2017): \naerosol: HAM2.3\natmos: ECHAM6.3 (spectral T63; 192 x 96 longitude/latitude; 47 levels; top level 0.01 hPa)\natmosChem: sulfur chemistry (unnamed)\nland: JSBACH 3.20\nlandIce: none\nocean: MPIOM1.63 (bipolar GR1.5, approximately 1.5deg; 256 x 220 longitude/latitude; 40 levels; top grid cell 0-12 m)\nocnBgchem: HAMOCC6\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)"
	1969	},
	1970	"MPI-ESM1-2-HR":{
	1971	"activity_participation":[
	1972	"CMIP",
	1973	"CORDEX",
	1974	"DCPP",
	1975	"DynVarMIP",
	1976	"FAFMIP",
	1977	"GeoMIP",
	1978	"HighResMIP",
	1979	"OMIP",
	1980	"SIMIP",
	1981	"ScenarioMIP",
	1982	"VolMIP"
	1983	],
	1984	"cohort":[
	1985	"Registered"
	1986	],
	1987	"institution_id":[
	1988	"MPI-M",
	1989	"DWD",
	1990	"DKRZ"
	1991	],
	1992	"source_id":"MPI-ESM1-2-HR",
	1993	"source":"MPI-ESM1.2-HR (2017): \naerosol: none, prescribed MACv2-SP\natmos: ECHAM6.3 (spectral T127; 384 x 192 longitude/latitude; 95 levels; top level 0.01 hPa)\natmosChem: none\nland: JSBACH3.20\nlandIce: none/prescribed\nocean: MPIOM1.63 (tripolar TP04, approximately 0.4deg; 802 x 404 longitude/latitude; 40 levels; top grid cell 0-12 m)\nocnBgchem: HAMOCC6\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)"
	1994	},
	1995	"MPI-ESM1-2-LR":{
	1996	"activity_participation":[
	1997	"C4MIP",
	1998	"CDRMIP",
	1999	"CFMIP",
	2000	"CMIP",
	2001	"DAMIP",
	2002	"DCPP",
	2003	"DynVarMIP",
	2004	"FAFMIP",
	2005	"GMMIP",
	2006	"GeoMIP",
	2007	"ISMIP6",
	2008	"LS3MIP",
	2009	"LUMIP",
	2010	"OMIP",
	2011	"PMIP",
	2012	"RFMIP",
	2013	"SIMIP",
	2014	"ScenarioMIP",
	2015	"VolMIP"
	2016	],
	2017	"cohort":[
	2018	"Registered"
	2019	],
	2020	"institution_id":[
	2021	"MPI-M",
	2022	"AWI",
	2023	"DKRZ"
	2024	],
	2025	"source_id":"MPI-ESM1-2-LR",
	2026	"source":"MPI-ESM1.2-LR (2017): \naerosol: none, prescribed MACv2-SP\natmos: ECHAM6.3 (spectral T63; 192 x 96 longitude/latitude; 47 levels; top level 0.01 hPa)\natmosChem: none\nland: JSBACH3.20\nlandIce: none/prescribed\nocean: MPIOM1.63 (bipolar GR1.5, approximately 1.5deg; 256 x 220 longitude/latitude; 40 levels; top grid cell 0-12 m)\nocnBgchem: HAMOCC6\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)"
	2027	},
	2028	"MPI-ESM1-2-XR":{
	2029	"activity_participation":[
	2030	"HighResMIP"
	2031	],
	2032	"cohort":[
	2033	"Registered"
	2034	],
	2035	"institution_id":[
	2036	"MPI-M"
	2037	],
	2038	"source_id":"MPI-ESM1-2-XR",
	2039	"source":"MPI-ESM1.2-XR (2017): \naerosol: none, prescribed MACv2-SP\natmos: ECHAM6.3 (spectral T255; 768 x 384 longitude/latitude; 95 levels; top level 0.01 hPa)\natmosChem: none\nland: JSBACH3.20\nlandIce: none/prescribed\nocean: MPIOM1.63 (tripolar TP04, approximately 0.4deg; 802 x 404 longitude/latitude; 40 levels; top grid cell 0-12 m)\nocnBgchem: HAMOCC6\nseaIce: unnamed (thermodynamic (Semtner zero-layer) dynamic (Hibler 79) sea ice model)"
	2040	},
	2041	"MRI-AGCM3-2-H":{
	2042	"activity_participation":[
	2043	"DynVarMIP",
	2044	"HighResMIP"
	2045	],
	2046	"cohort":[
	2047	"Registered"
	2048	],
	2049	"institution_id":[
	2050	"MRI"
	2051	],
	2052	"source_id":"MRI-AGCM3-2-H",
	2053	"source":"MRI-AGCM3-2-H (2017): \naerosol: Prescribed from MRI-ESM2.0\natmos: MRI-AGCM3.2H (TL319; 640 x 320 longitude/latitude; 64 levels; top level 0.01 hPa)\natmosChem: none\nland: SIB0109\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	2054	},
	2055	"MRI-AGCM3-2-S":{
	2056	"activity_participation":[
	2057	"CMIP",
	2058	"DynVarMIP",
	2059	"HighResMIP"
	2060	],
	2061	"cohort":[
	2062	"Registered"
	2063	],
	2064	"institution_id":[
	2065	"MRI"
	2066	],
	2067	"source_id":"MRI-AGCM3-2-S",
	2068	"source":"MRI-AGCM3-2-S (2017): \naerosol: Prescribed from MRI-ESM2.0\natmos: MRI-AGCM3.2S (TL959; 1920 x 960 longitude/latitude; 64 levels; top level 0.01 hPa)\natmosChem: none\nland: SIB0109\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	2069	},
	2070	"MRI-ESM2-0":{
	2071	"activity_participation":[
	2072	"AerChemMIP",
	2073	"C4MIP",
	2074	"CFMIP",
	2075	"CMIP",
	2076	"CORDEX",
	2077	"DAMIP",
	2078	"DCPP",
	2079	"DynVarMIP",
	2080	"FAFMIP",
	2081	"GMMIP",
	2082	"GeoMIP",
	2083	"LS3MIP",
	2084	"OMIP",
	2085	"PMIP",
	2086	"RFMIP",
	2087	"SIMIP",
	2088	"ScenarioMIP",
	2089	"VolMIP"
	2090	],
	2091	"cohort":[
	2092	"Registered"
	2093	],
	2094	"institution_id":[
	2095	"MRI"
	2096	],
	2097	"source_id":"MRI-ESM2-0",
	2098	"source":"MRI-ESM2.0 (2017): \naerosol: MASINGAR mk2r4 (TL95; 192 x 96 longitude/latitude; 80 levels; top level 0.01 hPa)\natmos: MRI-AGCM3.5 (TL159; 320 x 160 longitude/latitude; 80 levels; top level 0.01 hPa)\natmosChem: MRI-CCM2.1 (T42; 128 x 64 longitude/latitude; 80 levels; top level 0.01 hPa)\nland: HAL 1.0\nlandIce: none\nocean: MRI.COM4.4 (tripolar primarily 0.5 deg latitude/1 deg longitude with meridional refinement down to 0.3 deg within 10 degrees north and south of the equator; 360 x 364 longitude/latitude; 61 levels; top grid cell 0-2 m)\nocnBgchem: MRI.COM4.4\nseaIce: MRI.COM4.4"
	2099	},
	2100	"NESM3":{
	2101	"activity_participation":[
	2102	"CMIP",
	2103	"DAMIP",
	2104	"DCPP",
	2105	"GMMIP",
	2106	"GeoMIP",
	2107	"PMIP",
	2108	"ScenarioMIP",
	2109	"VolMIP"
	2110	],
	2111	"cohort":[
	2112	"Registered"
	2113	],
	2114	"institution_id":[
	2115	"NUIST"
	2116	],
	2117	"source_id":"NESM3",
	2118	"source":"NESM v3 (2016): \naerosol: none\natmos: ECHAM v6.3 (T63; 192 x 96 longitude/latitude; 47 levels; top level 1 Pa)\natmosChem: none\nland: JSBACH v3.1\nlandIce: none\nocean: NEMO v3.4 (NEMO v3.4, tripolar primarily 1deg; 384 x 362 longitude/latitude; 46 levels; top grid cell 0-6 m)\nocnBgchem: none\nseaIce: CICE4.1"
	2119	},
	2120	"NICAM16-7S":{
	2121	"activity_participation":[
	2122	"CMIP",
	2123	"DynVarMIP",
	2124	"HighResMIP"
	2125	],
	2126	"cohort":[
	2127	"Registered"
	2128	],
	2129	"institution_id":[
	2130	"MIROC"
	2131	],
	2132	"source_id":"NICAM16-7S",
	2133	"source":"NICAM16-7S (2017): \naerosol: Prescribed MACv2-SP\natmos: NICAM.16 (56km icosahedral grid; 163,842 grid cells (=10*4^7+2); 38 levels; top level 40 km)\natmosChem: none\nland: MATSIRO6 (w/o MOSAIC)\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: Fixed"
	2134	},
	2135	"NICAM16-8S":{
	2136	"activity_participation":[
	2137	"CMIP",
	2138	"DynVarMIP",
	2139	"HighResMIP"
	2140	],
	2141	"cohort":[
	2142	"Registered"
	2143	],
	2144	"institution_id":[
	2145	"MIROC"
	2146	],
	2147	"source_id":"NICAM16-8S",
	2148	"source":"NICAM16-8S (2017): \naerosol: Prescribed MACv2-SP\natmos: NICAM.16 (28km icosahedral grid; 655,362 grid cells (=10*4^8+2); 38 levels; top level 40 km)\natmosChem: none\nland: MATSIRO6 (w/o MOSAIC)\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: Fixed"
	2149	},
	2150	"NICAM16-9D-L78":{
	2151	"activity_participation":[
	2152	"CFMIP",
	2153	"CMIP"
	2154	],
	2155	"cohort":[
	2156	"Registered"
	2157	],
	2158	"institution_id":[
	2159	"MIROC"
	2160	],
	2161	"source_id":"NICAM16-9D-L78",
	2162	"source":"NICAM16-9D-L78 (2017): \naerosol: Prescribed MACv2-SP\natmos: NICAM.16 (14km icosahedral grid; 2,621,442 grid cells (=10*4^9+2); 78 levels; top level 40 km)\natmosChem: none\nland: MATSIRO6 (w/o MOSAIC)\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: Fixed"
	2163	},
	2164	"NICAM16-9S":{
	2165	"activity_participation":[
	2166	"CMIP",
	2167	"DynVarMIP",
	2168	"HighResMIP"
	2169	],
	2170	"cohort":[
	2171	"Registered"
	2172	],
	2173	"institution_id":[
	2174	"MIROC"
	2175	],
	2176	"source_id":"NICAM16-9S",
	2177	"source":"NICAM16-9S (2017): \naerosol: Prescribed MACv2-SP\natmos: NICAM.16 (14km icosahedral grid; 2,621,442 grid cells (=10*4^9+2); 38 levels; top level 40 km)\natmosChem: none\nland: MATSIRO6 (w/o MOSAIC)\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: Fixed"
	2178	},
	2179	"NorCPM1":{
	2180	"activity_participation":[
	2181	"CMIP",
	2182	"DCPP"
	2183	],
	2184	"cohort":[
	2185	"Registered"
	2186	],
	2187	"institution_id":[
	2188	"NCC"
	2189	],
	2190	"source_id":"NorCPM1",
	2191	"source":"NorCPM1 (2019): \naerosol: OsloAero4.1 (same grid as atmos)\natmos: CAM-OSLO4.1 (2 degree resolution; 144 x 96 longitude/latitude; 26 levels; top level ~2 hPa)\natmosChem: OsloChemSimp4.1 (same grid as atmos)\nland: CLM4 (same grid as atmos)\nlandIce: none\nocean: MICOM1.1 (1 degree resolution; 320 x 384 longitude/latitude; 53 levels; top grid cell 0-2.5 m [native model uses hybrid density and generic upper-layer coordinate interpolated to z-level for contributed data])\nocnBgchem: HAMOCC5.1 (same grid as ocean)\nseaIce: CICE4 (same grid as ocean)"
	2192	},
	2193	"NorESM1-F":{
	2194	"activity_participation":[
	2195	"CMIP",
	2196	"PMIP"
	2197	],
	2198	"cohort":[
	2199	"Registered"
	2200	],
	2201	"institution_id":[
	2202	"NCC"
	2203	],
	2204	"source_id":"NorESM1-F",
	2205	"source":"NorESM1-F (2018): \naerosol: none\natmos: CAM4 (2 degree resolution; 144 x 96; 32 levels; top level 3 mb)\natmosChem: none\nland: CLM4\nlandIce: CISM\nocean: MICOM (1 degree resolution; 360 x 384; 70 levels; top grid cell minimum 0-2.5 m [native model uses hybrid density and generic upper-layer coordinate interpolated to z-level for contributed data])\nocnBgchem: HAMOCC5.1\nseaIce: CICE4"
	2206	},
	2207	"NorESM2-HH":{
	2208	"activity_participation":[
	2209	"CMIP",
	2210	"HighResMIP"
	2211	],
	2212	"cohort":[
	2213	"Registered"
	2214	],
	2215	"institution_id":[
	2216	"NCC"
	2217	],
	2218	"source_id":"NorESM2-HH",
	2219	"source":"NorESM2-HH (2018): \naerosol: OsloAero\natmos: CAM-OSLO (0.25 degree resolution; 1152 x 768; 32 levels; top level 3 mb)\natmosChem: OsloChemSimp\nland: CLM\nlandIce: CISM\nocean: MICOM (0.25 degree resolution; 1440 x 1152; 70 levels; top grid cell minimum 0-2.5 m [native model uses hybrid density and generic upper-layer coordinate interpolated to z-level for contributed data])\nocnBgchem: HAMOCC\nseaIce: CICE"
	2220	},
	2221	"NorESM2-LM":{
	2222	"activity_participation":[
	2223	"AerChemMIP",
	2224	"C4MIP",
	2225	"CDRMIP",
	2226	"CFMIP",
	2227	"CMIP",
	2228	"DAMIP",
	2229	"DCPP",
	2230	"LUMIP",
	2231	"OMIP",
	2232	"PAMIP",
	2233	"PMIP",
	2234	"RFMIP",
	2235	"ScenarioMIP",
	2236	"VolMIP"
	2237	],
	2238	"cohort":[
	2239	"Registered"
	2240	],
	2241	"institution_id":[
	2242	"NCC"
	2243	],
	2244	"source_id":"NorESM2-LM",
	2245	"source":"NorESM2-LM (2017): \naerosol: OsloAero\natmos: CAM-OSLO (2 degree resolution; 144 x 96; 32 levels; top level 3 mb)\natmosChem: OsloChemSimp\nland: CLM\nlandIce: CISM\nocean: MICOM (1 degree resolution; 360 x 384; 70 levels; top grid cell minimum 0-2.5 m [native model uses hybrid density and generic upper-layer coordinate interpolated to z-level for contributed data])\nocnBgchem: HAMOCC\nseaIce: CICE"
	2246	},
	2247	"NorESM2-LME":{
	2248	"activity_participation":[
	2249	"C4MIP",
	2250	"CMIP",
	2251	"GeoMIP",
	2252	"LUMIP",
	2253	"OMIP"
	2254	],
	2255	"cohort":[
	2256	"Registered"
	2257	],
	2258	"institution_id":[
	2259	"NCC"
	2260	],
	2261	"source_id":"NorESM2-LME",
	2262	"source":"NorESM2-LME (2017): \naerosol: OsloAero\natmos: CAM-OSLO (2 degree resolution; 144 x 96; 32 levels; top level 3 mb)\natmosChem: OsloChemSimp\nland: CLM\nlandIce: CISM\nocean: MICOM (1 degree resolution; 360 x 384; 70 levels; top grid cell minimum 0-2.5 m [native model uses hybrid density and generic upper-layer coordinate interpolated to z-level for contributed data])\nocnBgchem: HAMOCC\nseaIce: CICE"
	2263	},
	2264	"NorESM2-LMEC":{
	2265	"activity_participation":[
	2266	"AerChemMIP",
	2267	"CMIP"
	2268	],
	2269	"cohort":[
	2270	"Registered"
	2271	],
	2272	"institution_id":[
	2273	"NCC"
	2274	],
	2275	"source_id":"NorESM2-LMEC",
	2276	"source":"NorESM2-LMEC (2017): \naerosol: OsloAero\natmos: CAM-OSLO (2 degree resolution; 144 x 96; 32 levels; top level 3 mb)\natmosChem: OsloChemComp\nland: CLM\nlandIce: CISM\nocean: MICOM (1 degree resolution; 360 x 384; 70 levels; top grid cell minimum 0-2.5 m [native model uses hybrid density and generic upper-layer coordinate interpolated to z-level for contributed data])\nocnBgchem: HAMOCC\nseaIce: CICE"
	2277	},
	2278	"NorESM2-MH":{
	2279	"activity_participation":[
	2280	"AerChemMIP",
	2281	"CFMIP",
	2282	"CMIP",
	2283	"DAMIP",
	2284	"OMIP",
	2285	"RFMIP",
	2286	"ScenarioMIP"
	2287	],
	2288	"cohort":[
	2289	"Registered"
	2290	],
	2291	"institution_id":[
	2292	"NCC"
	2293	],
	2294	"source_id":"NorESM2-MH",
	2295	"source":"NorESM2-MH (2017): \naerosol: OsloAero\natmos: CAM-OSLO (1 degree resolution; 288 x 192; 32 levels; top level 3 mb)\natmosChem: OsloChemSimp\nland: CLM\nlandIce: CISM\nocean: MICOM (0.25 degree resolution; 1440 x 1152; 70 levels; top grid cell minimum 0-2.5 m [native model uses hybrid density and generic upper-layer coordinate interpolated to z-level for contributed data])\nocnBgchem: HAMOCC\nseaIce: CICE"
	2296	},
	2297	"NorESM2-MM":{
	2298	"activity_participation":[
	2299	"AerChemMIP",
	2300	"CFMIP",
	2301	"CMIP",
	2302	"DAMIP",
	2303	"OMIP",
	2304	"RFMIP",
	2305	"ScenarioMIP"
	2306	],
	2307	"cohort":[
	2308	"Registered"
	2309	],
	2310	"institution_id":[
	2311	"NCC"
	2312	],
	2313	"source_id":"NorESM2-MM",
	2314	"source":"NorESM2-MM (2017): \naerosol: OsloAero\natmos: CAM-OSLO (1 degree resolution; 288 x 192; 32 levels; top level 3 mb)\natmosChem: OsloChemSimp\nland: CLM\nlandIce: CISM\nocean: MICOM (1 degree resolution; 360 x 384; 70 levels; top grid cell minimum 0-2.5 m [native model uses hybrid density and generic upper-layer coordinate interpolated to z-level for contributed data])\nocnBgchem: HAMOCC\nseaIce: CICE"
	2315	},
	2316	"PCMDI-test-1-0":{
	2317	"activity_participation":[
	2318	"CMIP"
	2319	],
	2320	"cohort":[
	2321	"Registered"
	2322	],
	2323	"institution_id":[
	2324	"PCMDI"
	2325	],
	2326	"source_id":"PCMDI-test-1-0",
	2327	"source":"PCMDI-test 1.0 (1989): \naerosol: none\natmos: Earth1.0-gettingHotter (360 x 180 longitude/latitude; 50 levels; top level 0.1 mb)\natmosChem: none\nland: Earth1.0\nlandIce: none\nocean: BlueMarble1.0-warming (360 x 180 longitude/latitude; 50 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: Declining1.0-warming (360 x 180 longitude/latitude)"
	2328	},
	2329	"RRTMG-LW-4-91":{
	2330	"activity_participation":[
	2331	"RFMIP"
	2332	],
	2333	"cohort":[
	2334	"Registered"
	2335	],
	2336	"institution_id":[
	2337	"AER"
	2338	],
	2339	"source_id":"RRTMG-LW-4-91",
	2340	"source":"RRTMG-LW 4.91 (2017): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	2341	},
	2342	"RRTMG-SW-4-02":{
	2343	"activity_participation":[
	2344	"RFMIP"
	2345	],
	2346	"cohort":[
	2347	"Registered"
	2348	],
	2349	"institution_id":[
	2350	"AER"
	2351	],
	2352	"source_id":"RRTMG-SW-4-02",
	2353	"source":"RRTMG-SW 4.02 (2017): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	2354	},
	2355	"RTE-RRTMGP-181204":{
	2356	"activity_participation":[
	2357	"RFMIP"
	2358	],
	2359	"cohort":[
	2360	"Registered"
	2361	],
	2362	"institution_id":[
	2363	"RTE-RRTMGP-Consortium"
	2364	],
	2365	"source_id":"RTE-RRTMGP-181204",
	2366	"source":"RTE+RRTMGP (2018-12-04 full-resolution) (2019): \naerosol: none\natmos: none\natmosChem: none\nland: none\nlandIce: none\nocean: none\nocnBgchem: none\nseaIce: none"
	2367	},
	2368	"SAM0-UNICON":{
	2369	"activity_participation":[
	2370	"CMIP",
	2371	"ScenarioMIP"
	2372	],
	2373	"cohort":[
	2374	"Registered"
	2375	],
	2376	"institution_id":[
	2377	"SNU"
	2378	],
	2379	"source_id":"SAM0-UNICON",
	2380	"source":"SAM0-UNICON (2017): \naerosol: MAM3\natmos: CAM5.3 with UNICON (1deg; 288 x 192 longitude/latitude; 30 levels; top level ~2 hPa)\natmosChem: none\nland: CLM4.0\nlandIce: none\nocean: POP2 (Displaced Pole; 320 x 384 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: CICE4.0"
	2381	},
	2382	"TaiESM1":{
	2383	"activity_participation":[
	2384	"AerChemMIP",
	2385	"CFMIP",
	2386	"CMIP",
	2387	"GMMIP",
	2388	"LUMIP",
	2389	"PAMIP",
	2390	"PMIP",
	2391	"ScenarioMIP"
	2392	],
	2393	"cohort":[
	2394	"Registered"
	2395	],
	2396	"institution_id":[
	2397	"AS-RCEC"
	2398	],
	2399	"source_id":"TaiESM1",
	2400	"source":"TaiESM 1.0 (2018): \naerosol: SNAP (same grid as atmos)\natmos: TaiAM1 (0.9x1.25 degree; 288 x 192 longitude/latitude; 30 levels; top level ~2 hPa)\natmosChem: SNAP (same grid as atmos)\nland: CLM4.0 (same grid as atmos)\nlandIce: none\nocean: POP2 (320x384 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: CICE4"
	2401	},
	2402	"TaiESM1-TIMCOM":{
	2403	"activity_participation":[
	2404	"CMIP",
	2405	"OMIP"
	2406	],
	2407	"cohort":[
	2408	"Registered"
	2409	],
	2410	"institution_id":[
	2411	"NTU"
	2412	],
	2413	"source_id":"TaiESM1-TIMCOM",
	2414	"source":"TaiESM1-TIMCOM (2020): \naerosol: SNAP (same grid as atmos)\natmos: TaiAM1 (0.9x1.25 degree; 288 x 192 longitude/latitude; 30 levels; top level ~2 hPa)\natmosChem: SNAP (same grid as atmos)\nland: CLM4.0 (same grid as atmos)\nlandIce: none\nocean: TIMCOM (TIMCOMv1.7, primarily 1deg; 360 x 288 longitude/latitude; 45 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: CICE4"
	2415	},
	2416	"UKESM1-0-LL":{
	2417	"activity_participation":[
	2418	"AerChemMIP",
	2419	"C4MIP",
	2420	"CDRMIP",
	2421	"CMIP",
	2422	"DAMIP",
	2423	"GeoMIP",
	2424	"LS3MIP",
	2425	"LUMIP",
	2426	"OMIP",
	2427	"PMIP",
	2428	"RFMIP",
	2429	"ScenarioMIP",
	2430	"VolMIP"
	2431	],
	2432	"cohort":[
	2433	"Registered"
	2434	],
	2435	"institution_id":[
	2436	"MOHC",
	2437	"NERC",
	2438	"NIMS-KMA",
	2439	"NIWA"
	2440	],
	2441	"source_id":"UKESM1-0-LL",
	2442	"source":"UKESM1.0-LL (2018): \naerosol: UKCA-GLOMAP-mode\natmos: MetUM-HadGEM3-GA7.1 (N96; 192 x 144 longitude/latitude; 85 levels; top level 85 km)\natmosChem: UKCA-StratTrop\nland: JULES-ES-1.0\nlandIce: none\nocean: NEMO-HadGEM3-GO6.0 (eORCA1 tripolar primarily 1 deg with meridional refinement down to 1/3 degree in the tropics; 360 x 330 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: MEDUSA2\nseaIce: CICE-HadGEM3-GSI8 (eORCA1 tripolar primarily 1 deg; 360 x 330 longitude/latitude)"
	2443	},
	2444	"UKESM1-0-MMh":{
	2445	"activity_participation":[
	2446	"AerChemMIP",
	2447	"C4MIP",
	2448	"CMIP",
	2449	"ScenarioMIP"
	2450	],
	2451	"cohort":[
	2452	"Registered"
	2453	],
	2454	"institution_id":[
	2455	"MOHC",
	2456	"NERC"
	2457	],
	2458	"source_id":"UKESM1-0-MMh",
	2459	"source":"UKESM1.0-MMh (2018): \naerosol: UKCA-GLOMAP-mode (horizontal resolution degraded relative to that used for atmosphere physics)\natmos: MetUM-HadGEM3-GA7.1 (N216; 432 x 324 longitude/latitude; 85 levels; top level 85 km)\natmosChem: UKCA-StratTrop (horizontal resolution degraded relative to that used for atmosphere physics)\nland: JULES-ES-1.0\nlandIce: none\nocean: NEMO-HadGEM3-GO6.0 (eORCA025 tripolar primarily 0.25 deg; 1440 x 1205 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: MEDUSA2 (horizontal resolution degraded relative to that used for ocean physics)\nseaIce: CICE-HadGEM3-GSI8 (eORCA025 tripolar primarily 0.25 deg; 1440 x 1205 longitude/latitude)"
	2460	},
	2461	"UKESM1-ice-LL":{
	2462	"activity_participation":[
	2463	"ISMIP6"
	2464	],
	2465	"cohort":[
	2466	"Registered"
	2467	],
	2468	"institution_id":[
	2469	"MOHC",
	2470	"NERC"
	2471	],
	2472	"source_id":"UKESM1-ice-LL",
	2473	"source":"UKESM1.ice-LL (2019): \naerosol: UKCA-GLOMAP-mode\natmos: MetUM-HadGEM3-GA7.1 (N96; 192 x 144 longitude/latitude; 85 levels; top level 85 km)\natmosChem: none\nland: JULES-ISMIP6-1.0\nlandIce: BISICLES-UKESM-ISMIP6-1.0\nocean: NEMO-HadGEM3-GO6.0 (eORCA1 tripolar primarily 1 deg with meridional refinement down to 1/3 degree in the tropics; 360 x 330 longitude/latitude; 75 levels; top grid cell 0-1 m)\nocnBgchem: none\nseaIce: CICE-HadGEM3-GSI8 (eORCA1 tripolar primarily 1 deg; 360 x 330 longitude/latitude)"
	2474	},
	2475	"UofT-CCSM4":{
	2476	"activity_participation":[
	2477	"CMIP",
	2478	"PMIP"
	2479	],
	2480	"cohort":[
	2481	"Registered"
	2482	],
	2483	"institution_id":[
	2484	"UofT"
	2485	],
	2486	"source_id":"UofT-CCSM4",
	2487	"source":"UofT-CCSM4 (2014): \naerosol: unnamed\natmos: CAM4 (finite-volume dynamical core; 288 x 192 longitude/latitude; 26 levels; top level ~2 hPa)\natmosChem: none\nland: CLM4\nlandIce: none\nocean: POP2 (displaced dipole grid; 384 x 320 longitude/latitude; 60 levels; top grid cell 0-10 m)\nocnBgchem: none\nseaIce: CICE4"
	2488	},
	2489	"VRESM-1-0":{
	2490	"activity_participation":[
	2491	"CMIP",
	2492	"DAMIP",
	2493	"HighResMIP",
	2494	"PMIP",
	2495	"ScenarioMIP"
	2496	],
	2497	"cohort":[
	2498	"Registered"
	2499	],
	2500	"institution_id":[
	2501	"CSIR-Wits-CSIRO"
	2502	],
	2503	"source_id":"VRESM-1-0",
	2504	"source":"VRESM 1.0 (2016): \naerosol: Rotstayn-1.0\natmos: VCAM-1.0 (C192; 192 x 192 x 6 longitude/latitude/cubeface; 35 levels; top level 35km)\natmosChem: none\nland: CABLE v2.2.3\nlandIce: none\nocean: VCOM-1.0 (C192; 384 x 384 x 6 longitude/latitude/cubeface; 35 levels; top grid cell 0-10 m)\nocnBgchem: PISCES v3.4socco\nseaIce: CSIR-ICE (visco-plastic)"
	2505	}
	2506	},
	2507	"source_type":{
	2508	"AER":"aerosol treatment in an atmospheric model where concentrations are calculated based on emissions, transformation, and removal processes (rather than being prescribed or omitted entirely)",
	2509	"AGCM":"atmospheric general circulation model run with prescribed ocean surface conditions and usually a model of the land surface",
	2510	"AOGCM":"coupled atmosphere-ocean global climate model, additionally including explicit representation of at least the land and sea ice",
	2511	"BGC":"biogeochemistry model component that at the very least accounts for carbon reservoirs and fluxes in the atmosphere, terrestrial biosphere, and ocean",
	2512	"CHEM":"chemistry treatment in an atmospheric model that calculates atmospheric oxidant concentrations (including at least ozone), rather than prescribing them",
	2513	"ISM":"ice-sheet model that includes ice-flow",
	2514	"LAND":"land model run uncoupled from the atmosphere",
	2515	"OGCM":"ocean general circulation model run uncoupled from an AGCM but, usually including a sea-ice model",
	2516	"RAD":"radiation component of an atmospheric model run 'offline'",
	2517	"SLAB":"slab-ocean used with an AGCM in representing the atmosphere-ocean coupled system"
	2518	},
	2519	"frequency":{
	2520	"1hr":"sampled hourly",
	2521	"1hrCM":"monthly-mean diurnal cycle resolving each day into 1-hour means",
	2522	"1hrPt":"sampled hourly, at specified time point within an hour",
	2523	"3hr":"3 hourly mean samples",
	2524	"3hrPt":"sampled 3 hourly, at specified time point within the time period",
	2525	"6hr":"6 hourly mean samples",
	2526	"6hrPt":"sampled 6 hourly, at specified time point within the time period",
	2527	"day":"daily mean samples",
	2528	"dec":"decadal mean samples",
	2529	"fx":"fixed (time invariant) field",
	2530	"mon":"monthly mean samples",
	2531	"monC":"monthly climatology computed from monthly mean samples",
	2532	"monPt":"sampled monthly, at specified time point within the time period",
	2533	"subhrPt":"sampled sub-hourly, at specified time point within an hour",
	2534	"yr":"annual mean samples",
	2535	"yrPt":"sampled yearly, at specified time point within the time period"
	2536	},
	2537	"grid_label":{
	2538	"gm":"global mean data",
	2539	"gn":"data reported on a model's native grid",
	2540	"gna":"data reported on a native grid in the region of Antarctica",
	2541	"gng":"data reported on a native grid in the region of Greenland",
	2542	"gnz":"zonal mean data reported on a model's native latitude grid",
	2543	"gr":"regridded data reported on the data provider's preferred target grid",
	2544	"gr1":"regridded data reported on a grid other than the native grid and other than the preferred target grid",
	2545	"gr1a":"regridded data reported in the region of Antarctica on a grid other than the native grid and other than the preferred target grid",
	2546	"gr1g":"regridded data reported in the region of Greenland on a grid other than the native grid and other than the preferred target grid",
	2547	"gr1z":"regridded zonal mean data reported on a grid other than the native latitude grid and other than the preferred latitude target grid",
	2548	"gr2":"regridded data reported on a grid other than the native grid and other than the preferred target grid",
	2549	"gr2a":"regridded data reported in the region of Antarctica on a grid other than the native grid and other than the preferred target grid",
	2550	"gr2g":"regridded data reported in the region of Greenland on a grid other than the native grid and other than the preferred target grid",
	2551	"gr2z":"regridded zonal mean data reported on a grid other than the native latitude grid and other than the preferred latitude target grid",
	2552	"gr3":"regridded data reported on a grid other than the native grid and other than the preferred target grid",
	2553	"gr3a":"regridded data reported in the region of Antarctica on a grid other than the native grid and other than the preferred target grid",
	2554	"gr3g":"regridded data reported in the region of Greenland on a grid other than the native grid and other than the preferred target grid",
	2555	"gr3z":"regridded zonal mean data reported on a grid other than the native latitude grid and other than the preferred latitude target grid",
	2556	"gr4":"regridded data reported on a grid other than the native grid and other than the preferred target grid",
	2557	"gr4a":"regridded data reported in the region of Antarctica on a grid other than the native grid and other than the preferred target grid",
	2558	"gr4g":"regridded data reported in the region of Greenland on a grid other than the native grid and other than the preferred target grid",
	2559	"gr4z":"regridded zonal mean data reported on a grid other than the native latitude grid and other than the preferred latitude target grid",
	2560	"gr5":"regridded data reported on a grid other than the native grid and other than the preferred target grid",
	2561	"gr5a":"regridded data reported in the region of Antarctica on a grid other than the native grid and other than the preferred target grid",
	2562	"gr5g":"regridded data reported in the region of Greenland on a grid other than the native grid and other than the preferred target grid",
	2563	"gr5z":"regridded zonal mean data reported on a grid other than the native latitude grid and other than the preferred latitude target grid",
	2564	"gr6":"regridded data reported on a grid other than the native grid and other than the preferred target grid",
	2565	"gr6a":"regridded data reported in the region of Antarctica on a grid other than the native grid and other than the preferred target grid",
	2566	"gr6g":"regridded data reported in the region of Greenland on a grid other than the native grid and other than the preferred target grid",
	2567	"gr6z":"regridded zonal mean data reported on a grid other than the native latitude grid and other than the preferred latitude target grid",
	2568	"gr7":"regridded data reported on a grid other than the native grid and other than the preferred target grid",
	2569	"gr7a":"regridded data reported in the region of Antarctica on a grid other than the native grid and other than the preferred target grid",
	2570	"gr7g":"regridded data reported in the region of Greenland on a grid other than the native grid and other than the preferred target grid",
	2571	"gr7z":"regridded zonal mean data reported on a grid other than the native latitude grid and other than the preferred latitude target grid",
	2572	"gr8":"regridded data reported on a grid other than the native grid and other than the preferred target grid",
	2573	"gr8a":"regridded data reported in the region of Antarctica on a grid other than the native grid and other than the preferred target grid",
	2574	"gr8g":"regridded data reported in the region of Greenland on a grid other than the native grid and other than the preferred target grid",
	2575	"gr8z":"regridded zonal mean data reported on a grid other than the native latitude grid and other than the preferred latitude target grid",
	2576	"gr9":"regridded data reported on a grid other than the native grid and other than the preferred target grid",
	2577	"gr9a":"regridded data reported in the region of Antarctica on a grid other than the native grid and other than the preferred target grid",
	2578	"gr9g":"regridded data reported in the region of Greenland on a grid other than the native grid and other than the preferred target grid",
	2579	"gr9z":"regridded zonal mean data reported on a grid other than the native latitude grid and other than the preferred latitude target grid",
	2580	"gra":"regridded data in the region of Antarctica reported on the data provider's preferred target grid",
	2581	"grg":"regridded data in the region of Greenland reported on the data provider's preferred target grid",
	2582	"grz":"regridded zonal mean data reported on the data provider's preferred latitude target grid"
	2583	},
	2584	"nominal_resolution":[
	2585	"0.5 km",
	2586	"1 km",
	2587	"10 km",
	2588	"100 km",
	2589	"1000 km",
	2590	"10000 km",
	2591	"1x1 degree",
	2592	"2.5 km",
	2593	"25 km",
	2594	"250 km",
	2595	"2500 km",
	2596	"5 km",
	2597	"50 km",
	2598	"500 km",
	2599	"5000 km"
	2600	],
	2601	"realm":{
	2602	"aerosol":"Aerosol",
	2603	"atmos":"Atmosphere",
	2604	"atmosChem":"Atmospheric Chemistry",
	2605	"land":"Land Surface",
	2606	"landIce":"Land Ice",
	2607	"ocean":"Ocean",
	2608	"ocnBgchem":"Ocean Biogeochemistry",
	2609	"seaIce":"Sea Ice"
	2610	},
	2611	"table_id":[
	2612	"3hr",
	2613	"6hrLev",
	2614	"6hrPlev",
	2615	"6hrPlevPt",
	2616	"AERday",
	2617	"AERhr",
	2618	"AERmon",
	2619	"AERmonZ",
	2620	"Amon",
	2621	"CF3hr",
	2622	"CFday",
	2623	"CFmon",
	2624	"CFsubhr",
	2625	"E1hr",
	2626	"E1hrClimMon",
	2627	"E3hr",
	2628	"E3hrPt",
	2629	"E6hrZ",
	2630	"Eday",
	2631	"EdayZ",
	2632	"Efx",
	2633	"Emon",
	2634	"EmonZ",
	2635	"Esubhr",
	2636	"Eyr",
	2637	"IfxAnt",
	2638	"IfxGre",
	2639	"ImonAnt",
	2640	"ImonGre",
	2641	"IyrAnt",
	2642	"IyrGre",
	2643	"LImon",
	2644	"Lmon",
	2645	"Oclim",
	2646	"Oday",
	2647	"Odec",
	2648	"Ofx",
	2649	"Omon",
	2650	"Oyr",
	2651	"SIday",
	2652	"SImon",
	2653	"day",
	2654	"fx"
	2655	],
	2656	"license":[
	2657	"^CMIP6 model data produced by .* is licensed under a Creative Commons Attribution.ShareAlike 4.0 International License .https://creativecommons.org/licenses. Consult https://pcmdi.llnl.gov/CMIP6/TermsOfUse for terms of use governing CMIP6 output, including citation requirements and proper acknowledgment\\. Further information about this data, including some limitations, can be found via the further_info_url (recorded as a global attribute in this file).\\. The data producers and data providers make no warranty, either express or implied, including, but not limited to, warranties of merchantability and fitness for a particular purpose\\. *All liabilities arising from the supply of the information (including any liability arising in negligence) are excluded to the fullest extent permitted by law\\.$"
	2658	],
	2659	"mip_era":[
	2660	"CMIP6"
	2661	],
	2662	"sub_experiment_id":{
	2663	"none":"none",
	2664	"s1910":"initialized near end of year 1910",
	2665	"s1920":"initialized near end of year 1920",
	2666	"s1950":"initialized near end of year 1950",
	2667	"s1960":"initialized near end of year 1960",
	2668	"s1961":"initialized near end of year 1961",
	2669	"s1962":"initialized near end of year 1962",
	2670	"s1963":"initialized near end of year 1963",
	2671	"s1964":"initialized near end of year 1964",
	2672	"s1965":"initialized near end of year 1965",
	2673	"s1966":"initialized near end of year 1966",
	2674	"s1967":"initialized near end of year 1967",
	2675	"s1968":"initialized near end of year 1968",
	2676	"s1969":"initialized near end of year 1969",
	2677	"s1970":"initialized near end of year 1970",
	2678	"s1971":"initialized near end of year 1971",
	2679	"s1972":"initialized near end of year 1972",
	2680	"s1973":"initialized near end of year 1973",
	2681	"s1974":"initialized near end of year 1974",
	2682	"s1975":"initialized near end of year 1975",
	2683	"s1976":"initialized near end of year 1976",
	2684	"s1977":"initialized near end of year 1977",
	2685	"s1978":"initialized near end of year 1978",
	2686	"s1979":"initialized near end of year 1979",
	2687	"s1980":"initialized near end of year 1980",
	2688	"s1981":"initialized near end of year 1981",
	2689	"s1982":"initialized near end of year 1982",
	2690	"s1983":"initialized near end of year 1983",
	2691	"s1984":"initialized near end of year 1984",
	2692	"s1985":"initialized near end of year 1985",
	2693	"s1986":"initialized near end of year 1986",
	2694	"s1987":"initialized near end of year 1987",
	2695	"s1988":"initialized near end of year 1988",
	2696	"s1989":"initialized near end of year 1989",
	2697	"s1990":"initialized near end of year 1990",
	2698	"s1991":"initialized near end of year 1991",
	2699	"s1992":"initialized near end of year 1992",
	2700	"s1993":"initialized near end of year 1993",
	2701	"s1994":"initialized near end of year 1994",
	2702	"s1995":"initialized near end of year 1995",
	2703	"s1996":"initialized near end of year 1996",
	2704	"s1997":"initialized near end of year 1997",
	2705	"s1998":"initialized near end of year 1998",
	2706	"s1999":"initialized near end of year 1999",
	2707	"s2000":"initialized near end of year 2000",
	2708	"s2001":"initialized near end of year 2001",
	2709	"s2002":"initialized near end of year 2002",
	2710	"s2003":"initialized near end of year 2003",
	2711	"s2004":"initialized near end of year 2004",
	2712	"s2005":"initialized near end of year 2005",
	2713	"s2006":"initialized near end of year 2006",
	2714	"s2007":"initialized near end of year 2007",
	2715	"s2008":"initialized near end of year 2008",
	2716	"s2009":"initialized near end of year 2009",
	2717	"s2010":"initialized near end of year 2010",
	2718	"s2011":"initialized near end of year 2011",
	2719	"s2012":"initialized near end of year 2012",
	2720	"s2013":"initialized near end of year 2013",
	2721	"s2014":"initialized near end of year 2014",
	2722	"s2015":"initialized near end of year 2015",
	2723	"s2016":"initialized near end of year 2016",
	2724	"s2017":"initialized near end of year 2017",
	2725	"s2018":"initialized near end of year 2018",
	2726	"s2019":"initialized near end of year 2019",
	2727	"s2020":"initialized near end of year 2020",
	2728	"s2021":"initialized near end of year 2021",
	2729	"s2022":"initialized near end of year 2022",
	2730	"s2023":"initialized near end of year 2023",
	2731	"s2024":"initialized near end of year 2024",
	2732	"s2025":"initialized near end of year 2025",
	2733	"s2026":"initialized near end of year 2026",
	2734	"s2027":"initialized near end of year 2027",
	2735	"s2028":"initialized near end of year 2028",
	2736	"s2029":"initialized near end of year 2029"
	2737	},
	2738	"experiment_id":{
	2739	"1pctCO2":{
	2740	"activity_id":[
	2741	"CMIP"
	2742	],
	2743	"additional_allowed_model_components":[
	2744	"AER",
	2745	"CHEM",
	2746	"BGC"
	2747	],
	2748	"experiment":"1 percent per year increase in CO2",
	2749	"experiment_id":"1pctCO2",
	2750	"parent_activity_id":[
	2751	"CMIP"
	2752	],
	2753	"parent_experiment_id":[
	2754	"piControl"
	2755	],
	2756	"required_model_components":[
	2757	"AOGCM"
	2758	],
	2759	"sub_experiment_id":[
	2760	"none"
	2761	]
	2762	},
	2763	"1pctCO2-4xext":{
	2764	"activity_id":[
	2765	"ISMIP6"
	2766	],
	2767	"additional_allowed_model_components":[
	2768	"AER",
	2769	"CHEM",
	2770	"BGC"
	2771	],
	2772	"experiment":"extension from year 140 of 1pctCO2 with 4xCO2",
	2773	"experiment_id":"1pctCO2-4xext",
	2774	"parent_activity_id":[
	2775	"CMIP"
	2776	],
	2777	"parent_experiment_id":[
	2778	"1pctCO2"
	2779	],
	2780	"required_model_components":[
	2781	"AOGCM"
	2782	],
	2783	"sub_experiment_id":[
	2784	"none"
	2785	]
	2786	},
	2787	"1pctCO2-bgc":{
	2788	"activity_id":[
	2789	"C4MIP"
	2790	],
	2791	"additional_allowed_model_components":[
	2792	"AER",
	2793	"CHEM"
	2794	],
	2795	"experiment":"biogeochemically-coupled version of 1 percent per year increasing CO2 experiment",
	2796	"experiment_id":"1pctCO2-bgc",
	2797	"parent_activity_id":[
	2798	"CMIP"
	2799	],
	2800	"parent_experiment_id":[
	2801	"piControl"
	2802	],
	2803	"required_model_components":[
	2804	"AOGCM",
	2805	"BGC"
	2806	],
	2807	"sub_experiment_id":[
	2808	"none"
	2809	]
	2810	},
	2811	"1pctCO2-cdr":{
	2812	"activity_id":[
	2813	"CDRMIP"
	2814	],
	2815	"additional_allowed_model_components":[
	2816	"AER",
	2817	"CHEM"
	2818	],
	2819	"experiment":"1 percent per year decrease in CO2 from 4xCO2",
	2820	"experiment_id":"1pctCO2-cdr",
	2821	"parent_activity_id":[
	2822	"CMIP"
	2823	],
	2824	"parent_experiment_id":[
	2825	"1pctCO2"
	2826	],
	2827	"required_model_components":[
	2828	"AOGCM",
	2829	"BGC"
	2830	],
	2831	"sub_experiment_id":[
	2832	"none"
	2833	]
	2834	},
	2835	"1pctCO2-rad":{
	2836	"activity_id":[
	2837	"C4MIP"
	2838	],
	2839	"additional_allowed_model_components":[
	2840	"AER",
	2841	"CHEM"
	2842	],
	2843	"experiment":"radiatively-coupled version of 1 percent per year increasing CO2 experiment",
	2844	"experiment_id":"1pctCO2-rad",
	2845	"parent_activity_id":[
	2846	"CMIP"
	2847	],
	2848	"parent_experiment_id":[
	2849	"piControl"
	2850	],
	2851	"required_model_components":[
	2852	"AOGCM",
	2853	"BGC"
	2854	],
	2855	"sub_experiment_id":[
	2856	"none"
	2857	]
	2858	},
	2859	"1pctCO2Ndep":{
	2860	"activity_id":[
	2861	"C4MIP"
	2862	],
	2863	"additional_allowed_model_components":[
	2864	"AER",
	2865	"CHEM"
	2866	],
	2867	"experiment":"1 percent per year increasing CO2 experiment with increasing N-deposition",
	2868	"experiment_id":"1pctCO2Ndep",
	2869	"parent_activity_id":[
	2870	"CMIP"
	2871	],
	2872	"parent_experiment_id":[
	2873	"piControl"
	2874	],
	2875	"required_model_components":[
	2876	"AOGCM",
	2877	"BGC"
	2878	],
	2879	"sub_experiment_id":[
	2880	"none"
	2881	]
	2882	},
	2883	"1pctCO2Ndep-bgc":{
	2884	"activity_id":[
	2885	"C4MIP"
	2886	],
	2887	"additional_allowed_model_components":[
	2888	"AER",
	2889	"CHEM"
	2890	],
	2891	"experiment":"biogeochemically-coupled version of 1 percent per year increasing CO2 experiment with increasing N-deposition",
	2892	"experiment_id":"1pctCO2Ndep-bgc",
	2893	"parent_activity_id":[
	2894	"CMIP"
	2895	],
	2896	"parent_experiment_id":[
	2897	"piControl"
	2898	],
	2899	"required_model_components":[
	2900	"AOGCM",
	2901	"BGC"
	2902	],
	2903	"sub_experiment_id":[
	2904	"none"
	2905	]
	2906	},
	2907	"1pctCO2to4x-withism":{
	2908	"activity_id":[
	2909	"ISMIP6"
	2910	],
	2911	"additional_allowed_model_components":[
	2912	"AER",
	2913	"CHEM",
	2914	"BGC"
	2915	],
	2916	"experiment":"simulation with interactive ice sheet forced by 1 percent per year increase in CO2 to 4xCO2 (subsequently held fixed)",
	2917	"experiment_id":"1pctCO2to4x-withism",
	2918	"parent_activity_id":[
	2919	"ISMIP6"
	2920	],
	2921	"parent_experiment_id":[
	2922	"piControl-withism"
	2923	],
	2924	"required_model_components":[
	2925	"AOGCM",
	2926	"ISM"
	2927	],
	2928	"sub_experiment_id":[
	2929	"none"
	2930	]
	2931	},
	2932	"G1":{
	2933	"activity_id":[
	2934	"GeoMIP"
	2935	],
	2936	"additional_allowed_model_components":[
	2937	"AER",
	2938	"CHEM",
	2939	"BGC"
	2940	],
	2941	"experiment":"abrupt quadrupling of CO2 plus reduction in total solar irradiance",
	2942	"experiment_id":"G1",
	2943	"parent_activity_id":[
	2944	"CMIP"
	2945	],
	2946	"parent_experiment_id":[
	2947	"piControl"
	2948	],
	2949	"required_model_components":[
	2950	"AOGCM"
	2951	],
	2952	"sub_experiment_id":[
	2953	"none"
	2954	]
	2955	},
	2956	"G6SST1":{
	2957	"activity_id":[
	2958	"GeoMIP"
	2959	],
	2960	"additional_allowed_model_components":[
	2961	"AER",
	2962	"CHEM"
	2963	],
	2964	"experiment":"SSTs, forcings, and other prescribed conditions from year 2020 of SSP5-8.5",
	2965	"experiment_id":"G6SST1",
	2966	"parent_activity_id":[
	2967	"ScenarioMIP"
	2968	],
	2969	"parent_experiment_id":[
	2970	"ssp585"
	2971	],
	2972	"required_model_components":[
	2973	"AGCM"
	2974	],
	2975	"sub_experiment_id":[
	2976	"none"
	2977	]
	2978	},
	2979	"G6SST2-solar":{
	2980	"activity_id":[
	2981	"GeoMIP"
	2982	],
	2983	"additional_allowed_model_components":[
	2984	"AER",
	2985	"CHEM"
	2986	],
	2987	"experiment":"SSTs from year 2020 of SSP5-8.5; forcings and other prescribed conditions from year 2100 of G6solar",
	2988	"experiment_id":"G6SST2-solar",
	2989	"parent_activity_id":[
	2990	"GeoMIP"
	2991	],
	2992	"parent_experiment_id":[
	2993	"G6solar"
	2994	],
	2995	"required_model_components":[
	2996	"AGCM"
	2997	],
	2998	"sub_experiment_id":[
	2999	"none"
	3000	]
	3001	},
	3002	"G6SST2-sulfur":{
	3003	"activity_id":[
	3004	"GeoMIP"
	3005	],
	3006	"additional_allowed_model_components":[
	3007	"AER",
	3008	"CHEM"
	3009	],
	3010	"experiment":"SSTs from year 2020 of SSP5-8.5; forcings and other prescribed conditions from year 2100 of G6sulfur",
	3011	"experiment_id":"G6SST2-sulfur",
	3012	"parent_activity_id":[
	3013	"GeoMIP"
	3014	],
	3015	"parent_experiment_id":[
	3016	"G6sulfur"
	3017	],
	3018	"required_model_components":[
	3019	"AGCM"
	3020	],
	3021	"sub_experiment_id":[
	3022	"none"
	3023	]
	3024	},
	3025	"G6solar":{
	3026	"activity_id":[
	3027	"GeoMIP"
	3028	],
	3029	"additional_allowed_model_components":[
	3030	"AER",
	3031	"CHEM",
	3032	"BGC"
	3033	],
	3034	"experiment":"total solar irradiance reduction to reduce net forcing from SSP585 to SSP245",
	3035	"experiment_id":"G6solar",
	3036	"parent_activity_id":[
	3037	"ScenarioMIP"
	3038	],
	3039	"parent_experiment_id":[
	3040	"ssp585"
	3041	],
	3042	"required_model_components":[
	3043	"AOGCM"
	3044	],
	3045	"sub_experiment_id":[
	3046	"none"
	3047	]
	3048	},
	3049	"G6sulfur":{
	3050	"activity_id":[
	3051	"GeoMIP"
	3052	],
	3053	"additional_allowed_model_components":[
	3054	"AER",
	3055	"CHEM",
	3056	"BGC"
	3057	],
	3058	"experiment":"stratospheric sulfate aerosol injection to reduce net forcing from SSP585 to SSP245",
	3059	"experiment_id":"G6sulfur",
	3060	"parent_activity_id":[
	3061	"ScenarioMIP"
	3062	],
	3063	"parent_experiment_id":[
	3064	"ssp585"
	3065	],
	3066	"required_model_components":[
	3067	"AOGCM"
	3068	],
	3069	"sub_experiment_id":[
	3070	"none"
	3071	]
	3072	},
	3073	"G7SST1-cirrus":{
	3074	"activity_id":[
	3075	"GeoMIP"
	3076	],
	3077	"additional_allowed_model_components":[
	3078	"AER",
	3079	"CHEM"
	3080	],
	3081	"experiment":"SSTs from year 2020 of SSP5-8.5; forcings and other prescribed conditions from year 2020 of SSP5-8.5 and cirrus thinning",
	3082	"experiment_id":"G7SST1-cirrus",
	3083	"parent_activity_id":[
	3084	"ScenarioMIP"
	3085	],
	3086	"parent_experiment_id":[
	3087	"ssp585"
	3088	],
	3089	"required_model_components":[
	3090	"AGCM"
	3091	],
	3092	"sub_experiment_id":[
	3093	"none"
	3094	]
	3095	},
	3096	"G7SST2-cirrus":{
	3097	"activity_id":[
	3098	"GeoMIP"
	3099	],
	3100	"additional_allowed_model_components":[
	3101	"AER",
	3102	"CHEM"
	3103	],
	3104	"experiment":"SSTs from year 2100 of SSP5-8.5; forcings and other prescribed conditions from year 2100 of G7cirrus",
	3105	"experiment_id":"G7SST2-cirrus",
	3106	"parent_activity_id":[
	3107	"GeoMIP"
	3108	],
	3109	"parent_experiment_id":[
	3110	"G7cirrus"
	3111	],
	3112	"required_model_components":[
	3113	"AGCM"
	3114	],
	3115	"sub_experiment_id":[
	3116	"none"
	3117	]
	3118	},
	3119	"G7cirrus":{
	3120	"activity_id":[
	3121	"GeoMIP"
	3122	],
	3123	"additional_allowed_model_components":[
	3124	"AER",
	3125	"CHEM",
	3126	"BGC"
	3127	],
	3128	"experiment":"increase cirrus ice crystal fall speed to reduce net forcing in SSP585 by 1 W m-2",
	3129	"experiment_id":"G7cirrus",
	3130	"parent_activity_id":[
	3131	"ScenarioMIP"
	3132	],
	3133	"parent_experiment_id":[
	3134	"ssp585"
	3135	],
	3136	"required_model_components":[
	3137	"AOGCM"
	3138	],
	3139	"sub_experiment_id":[
	3140	"none"
	3141	]
	3142	},
	3143	"a4SST":{
	3144	"activity_id":[
	3145	"CFMIP"
	3146	],
	3147	"additional_allowed_model_components":[
	3148	"AER",
	3149	"CHEM"
	3150	],
	3151	"experiment":"as piSST but with SSTs from abrupt-4xCO2",
	3152	"experiment_id":"a4SST",
	3153	"parent_activity_id":[
	3154	"no parent"
	3155	],
	3156	"parent_experiment_id":[
	3157	"no parent"
	3158	],
	3159	"required_model_components":[
	3160	"AGCM"
	3161	],
	3162	"sub_experiment_id":[
	3163	"none"
	3164	]
	3165	},
	3166	"a4SSTice":{
	3167	"activity_id":[
	3168	"CFMIP"
	3169	],
	3170	"additional_allowed_model_components":[
	3171	"AER",
	3172	"CHEM"
	3173	],
	3174	"experiment":"as piSST but with SSTs and sea ice from abrupt-4xCO2",
	3175	"experiment_id":"a4SSTice",
	3176	"parent_activity_id":[
	3177	"no parent"
	3178	],
	3179	"parent_experiment_id":[
	3180	"no parent"
	3181	],
	3182	"required_model_components":[
	3183	"AGCM"
	3184	],
	3185	"sub_experiment_id":[
	3186	"none"
	3187	]
	3188	},
	3189	"a4SSTice-4xCO2":{
	3190	"activity_id":[
	3191	"CFMIP"
	3192	],
	3193	"additional_allowed_model_components":[
	3194	"AER",
	3195	"CHEM"
	3196	],
	3197	"experiment":"as piSST but with SSTs and sea ice from abrupt-4xCO2, and 4xCO2 seen by radiation and vegetation",
	3198	"experiment_id":"a4SSTice-4xCO2",
	3199	"parent_activity_id":[
	3200	"no parent"
	3201	],
	3202	"parent_experiment_id":[
	3203	"no parent"
	3204	],
	3205	"required_model_components":[
	3206	"AGCM"
	3207	],
	3208	"sub_experiment_id":[
	3209	"none"
	3210	]
	3211	},
	3212	"abrupt-0p5xCO2":{
	3213	"activity_id":[
	3214	"CFMIP"
	3215	],
	3216	"additional_allowed_model_components":[
	3217	"AER",
	3218	"CHEM",
	3219	"BGC"
	3220	],
	3221	"experiment":"abrupt halving of CO2",
	3222	"experiment_id":"abrupt-0p5xCO2",
	3223	"parent_activity_id":[
	3224	"CMIP"
	3225	],
	3226	"parent_experiment_id":[
	3227	"piControl"
	3228	],
	3229	"required_model_components":[
	3230	"AOGCM"
	3231	],
	3232	"sub_experiment_id":[
	3233	"none"
	3234	]
	3235	},
	3236	"abrupt-2xCO2":{
	3237	"activity_id":[
	3238	"CFMIP"
	3239	],
	3240	"additional_allowed_model_components":[
	3241	"AER",
	3242	"CHEM",
	3243	"BGC"
	3244	],
	3245	"experiment":"abrupt doubling of CO2",
	3246	"experiment_id":"abrupt-2xCO2",
	3247	"parent_activity_id":[
	3248	"CMIP"
	3249	],
	3250	"parent_experiment_id":[
	3251	"piControl"
	3252	],
	3253	"required_model_components":[
	3254	"AOGCM"
	3255	],
	3256	"sub_experiment_id":[
	3257	"none"
	3258	]
	3259	},
	3260	"abrupt-4xCO2":{
	3261	"activity_id":[
	3262	"CMIP"
	3263	],
	3264	"additional_allowed_model_components":[
	3265	"AER",
	3266	"CHEM",
	3267	"BGC"
	3268	],
	3269	"experiment":"abrupt quadrupling of CO2",
	3270	"experiment_id":"abrupt-4xCO2",
	3271	"parent_activity_id":[
	3272	"CMIP"
	3273	],
	3274	"parent_experiment_id":[
	3275	"piControl"
	3276	],
	3277	"required_model_components":[
	3278	"AOGCM"
	3279	],
	3280	"sub_experiment_id":[
	3281	"none"
	3282	]
	3283	},
	3284	"abrupt-solm4p":{
	3285	"activity_id":[
	3286	"CFMIP"
	3287	],
	3288	"additional_allowed_model_components":[
	3289	"AER",
	3290	"CHEM",
	3291	"BGC"
	3292	],
	3293	"experiment":"abrupt 4% decrease in solar constant",
	3294	"experiment_id":"abrupt-solm4p",
	3295	"parent_activity_id":[
	3296	"CMIP"
	3297	],
	3298	"parent_experiment_id":[
	3299	"piControl"
	3300	],
	3301	"required_model_components":[
	3302	"AOGCM"
	3303	],
	3304	"sub_experiment_id":[
	3305	"none"
	3306	]
	3307	},
	3308	"abrupt-solp4p":{
	3309	"activity_id":[
	3310	"CFMIP"
	3311	],
	3312	"additional_allowed_model_components":[
	3313	"AER",
	3314	"CHEM",
	3315	"BGC"
	3316	],
	3317	"experiment":"abrupt 4% increase in solar constant",
	3318	"experiment_id":"abrupt-solp4p",
	3319	"parent_activity_id":[
	3320	"CMIP"
	3321	],
	3322	"parent_experiment_id":[
	3323	"piControl"
	3324	],
	3325	"required_model_components":[
	3326	"AOGCM"
	3327	],
	3328	"sub_experiment_id":[
	3329	"none"
	3330	]
	3331	},
	3332	"amip":{
	3333	"activity_id":[
	3334	"CMIP"
	3335	],
	3336	"additional_allowed_model_components":[
	3337	"AER",
	3338	"CHEM",
	3339	"BGC"
	3340	],
	3341	"experiment":"AMIP",
	3342	"experiment_id":"amip",
	3343	"parent_activity_id":[
	3344	"no parent"
	3345	],
	3346	"parent_experiment_id":[
	3347	"no parent"
	3348	],
	3349	"required_model_components":[
	3350	"AGCM"
	3351	],
	3352	"sub_experiment_id":[
	3353	"none"
	3354	]
	3355	},
	3356	"amip-4xCO2":{
	3357	"activity_id":[
	3358	"CFMIP"
	3359	],
	3360	"additional_allowed_model_components":[
	3361	"AER",
	3362	"CHEM"
	3363	],
	3364	"experiment":"AMIP SSTs with 4xCO2",
	3365	"experiment_id":"amip-4xCO2",
	3366	"parent_activity_id":[
	3367	"no parent"
	3368	],
	3369	"parent_experiment_id":[
	3370	"no parent"
	3371	],
	3372	"required_model_components":[
	3373	"AGCM"
	3374	],
	3375	"sub_experiment_id":[
	3376	"none"
	3377	]
	3378	},
	3379	"amip-TIP":{
	3380	"activity_id":[
	3381	"GMMIP"
	3382	],
	3383	"additional_allowed_model_components":[
	3384	"AER",
	3385	"CHEM",
	3386	"BGC"
	3387	],
	3388	"experiment":"same as \"amip\" run, but surface elevations of the Tibetan-Iranian Plateau and Himalayas reduced to 500m",
	3389	"experiment_id":"amip-TIP",
	3390	"parent_activity_id":[
	3391	"no parent"
	3392	],
	3393	"parent_experiment_id":[
	3394	"no parent"
	3395	],
	3396	"required_model_components":[
	3397	"AGCM"
	3398	],
	3399	"sub_experiment_id":[
	3400	"none"
	3401	]
	3402	},
	3403	"amip-TIP-nosh":{
	3404	"activity_id":[
	3405	"GMMIP"
	3406	],
	3407	"additional_allowed_model_components":[
	3408	"AER",
	3409	"CHEM",
	3410	"BGC"
	3411	],
	3412	"experiment":"same as \"amip\" run, but sensible heat not allowed for elevations of the Tibetan-Iranian Plateau and Himalayas above 500m",
	3413	"experiment_id":"amip-TIP-nosh",
	3414	"parent_activity_id":[
	3415	"no parent"
	3416	],
	3417	"parent_experiment_id":[
	3418	"no parent"
	3419	],
	3420	"required_model_components":[
	3421	"AGCM"
	3422	],
	3423	"sub_experiment_id":[
	3424	"none"
	3425	]
	3426	},
	3427	"amip-a4SST-4xCO2":{
	3428	"activity_id":[
	3429	"CFMIP"
	3430	],
	3431	"additional_allowed_model_components":[
	3432	"AER",
	3433	"CHEM"
	3434	],
	3435	"experiment":"as AMIP but with warming pattern from abrupt-4xCO2 added to SSTs and 4xCO2 seen by radiation and vegetation",
	3436	"experiment_id":"amip-a4SST-4xCO2",
	3437	"parent_activity_id":[
	3438	"no parent"
	3439	],
	3440	"parent_experiment_id":[
	3441	"no parent"
	3442	],
	3443	"required_model_components":[
	3444	"AGCM"
	3445	],
	3446	"sub_experiment_id":[
	3447	"none"
	3448	]
	3449	},
	3450	"amip-climSIC":{
	3451	"activity_id":[
	3452	"PAMIP"
	3453	],
	3454	"additional_allowed_model_components":[
	3455	"AER",
	3456	"CHEM",
	3457	"BGC"
	3458	],
	3459	"experiment":"AMIP with climatological SIC",
	3460	"experiment_id":"amip-climSIC",
	3461	"parent_activity_id":[
	3462	"CMIP"
	3463	],
	3464	"parent_experiment_id":[
	3465	"amip"
	3466	],
	3467	"required_model_components":[
	3468	"AGCM"
	3469	],
	3470	"sub_experiment_id":[
	3471	"none"
	3472	]
	3473	},
	3474	"amip-climSST":{
	3475	"activity_id":[
	3476	"PAMIP"
	3477	],
	3478	"additional_allowed_model_components":[
	3479	"AER",
	3480	"CHEM",
	3481	"BGC"
	3482	],
	3483	"experiment":"AMIP with climatological SST",
	3484	"experiment_id":"amip-climSST",
	3485	"parent_activity_id":[
	3486	"CMIP"
	3487	],
	3488	"parent_experiment_id":[
	3489	"amip"
	3490	],
	3491	"required_model_components":[
	3492	"AGCM"
	3493	],
	3494	"sub_experiment_id":[
	3495	"none"
	3496	]
	3497	},
	3498	"amip-future4K":{
	3499	"activity_id":[
	3500	"CFMIP"
	3501	],
	3502	"additional_allowed_model_components":[
	3503	"AER",
	3504	"CHEM"
	3505	],
	3506	"experiment":"AMIP with patterned 4K SST increase",
	3507	"experiment_id":"amip-future4K",
	3508	"parent_activity_id":[
	3509	"no parent"
	3510	],
	3511	"parent_experiment_id":[
	3512	"no parent"
	3513	],
	3514	"required_model_components":[
	3515	"AGCM"
	3516	],
	3517	"sub_experiment_id":[
	3518	"none"
	3519	]
	3520	},
	3521	"amip-hist":{
	3522	"activity_id":[
	3523	"GMMIP"
	3524	],
	3525	"additional_allowed_model_components":[
	3526	"AER",
	3527	"CHEM",
	3528	"BGC"
	3529	],
	3530	"experiment":"AMIP-style simulation covering the period 1870-2014",
	3531	"experiment_id":"amip-hist",
	3532	"parent_activity_id":[
	3533	"no parent"
	3534	],
	3535	"parent_experiment_id":[
	3536	"no parent"
	3537	],
	3538	"required_model_components":[
	3539	"AGCM"
	3540	],
	3541	"sub_experiment_id":[
	3542	"none"
	3543	]
	3544	},
	3545	"amip-hld":{
	3546	"activity_id":[
	3547	"GMMIP"
	3548	],
	3549	"additional_allowed_model_components":[
	3550	"AER",
	3551	"CHEM",
	3552	"BGC"
	3553	],
	3554	"experiment":"same as \"amip\" run, but surface elevations of the East African Highlands in Africa, Sierra Madre in N. America and Andes in S. America reduced to 500m",
	3555	"experiment_id":"amip-hld",
	3556	"parent_activity_id":[
	3557	"no parent"
	3558	],
	3559	"parent_experiment_id":[
	3560	"no parent"
	3561	],
	3562	"required_model_components":[
	3563	"AGCM"
	3564	],
	3565	"sub_experiment_id":[
	3566	"none"
	3567	]
	3568	},
	3569	"amip-lfmip-pObs":{
	3570	"activity_id":[
	3571	"LS3MIP"
	3572	],
	3573	"additional_allowed_model_components":[
	3574	"AER",
	3575	"CHEM",
	3576	"BGC"
	3577	],
	3578	"experiment":"prescribed land (from pseudo-observations) and AMIP SSTs",
	3579	"experiment_id":"amip-lfmip-pObs",
	3580	"parent_activity_id":[
	3581	"no parent"
	3582	],
	3583	"parent_experiment_id":[
	3584	"no parent"
	3585	],
	3586	"required_model_components":[
	3587	"AGCM"
	3588	],
	3589	"sub_experiment_id":[
	3590	"none"
	3591	]
	3592	},
	3593	"amip-lfmip-pdLC":{
	3594	"activity_id":[
	3595	"LS3MIP"
	3596	],
	3597	"additional_allowed_model_components":[
	3598	"AER",
	3599	"CHEM",
	3600	"BGC"
	3601	],
	3602	"experiment":"prescribed modern land surface climatology from historical, prescribed SST and sea-ice from historical plus scenario runs",
	3603	"experiment_id":"amip-lfmip-pdLC",
	3604	"parent_activity_id":[
	3605	"no parent"
	3606	],
	3607	"parent_experiment_id":[
	3608	"no parent"
	3609	],
	3610	"required_model_components":[
	3611	"AGCM"
	3612	],
	3613	"sub_experiment_id":[
	3614	"none"
	3615	]
	3616	},
	3617	"amip-lfmip-rmLC":{
	3618	"activity_id":[
	3619	"LS3MIP"
	3620	],
	3621	"additional_allowed_model_components":[
	3622	"AER",
	3623	"CHEM",
	3624	"BGC"
	3625	],
	3626	"experiment":"prescribed land surface climatology from historical plus scenario 30yr running mean, prescribed SST and sea-ice from historical plus scenario runs",
	3627	"experiment_id":"amip-lfmip-rmLC",
	3628	"parent_activity_id":[
	3629	"no parent"
	3630	],
	3631	"parent_experiment_id":[
	3632	"no parent"
	3633	],
	3634	"required_model_components":[
	3635	"AGCM"
	3636	],
	3637	"sub_experiment_id":[
	3638	"none"
	3639	]
	3640	},
	3641	"amip-lwoff":{
	3642	"activity_id":[
	3643	"CFMIP"
	3644	],
	3645	"additional_allowed_model_components":[
	3646	"AER",
	3647	"CHEM"
	3648	],
	3649	"experiment":"AMIP experiment with longwave cloud-radiative effects off",
	3650	"experiment_id":"amip-lwoff",
	3651	"parent_activity_id":[
	3652	"no parent"
	3653	],
	3654	"parent_experiment_id":[
	3655	"no parent"
	3656	],
	3657	"required_model_components":[
	3658	"AGCM"
	3659	],
	3660	"sub_experiment_id":[
	3661	"none"
	3662	]
	3663	},
	3664	"amip-m4K":{
	3665	"activity_id":[
	3666	"CFMIP"
	3667	],
	3668	"additional_allowed_model_components":[
	3669	"AER",
	3670	"CHEM"
	3671	],
	3672	"experiment":"AMIP with uniform 4K SST decrease",
	3673	"experiment_id":"amip-m4K",
	3674	"parent_activity_id":[
	3675	"no parent"
	3676	],
	3677	"parent_experiment_id":[
	3678	"no parent"
	3679	],
	3680	"required_model_components":[
	3681	"AGCM"
	3682	],
	3683	"sub_experiment_id":[
	3684	"none"
	3685	]
	3686	},
	3687	"amip-p4K":{
	3688	"activity_id":[
	3689	"CFMIP"
	3690	],
	3691	"additional_allowed_model_components":[
	3692	"AER",
	3693	"CHEM"
	3694	],
	3695	"experiment":"AMIP with uniform 4K SST increase",
	3696	"experiment_id":"amip-p4K",
	3697	"parent_activity_id":[
	3698	"no parent"
	3699	],
	3700	"parent_experiment_id":[
	3701	"no parent"
	3702	],
	3703	"required_model_components":[
	3704	"AGCM"
	3705	],
	3706	"sub_experiment_id":[
	3707	"none"
	3708	]
	3709	},
	3710	"amip-p4K-lwoff":{
	3711	"activity_id":[
	3712	"CFMIP"
	3713	],
	3714	"additional_allowed_model_components":[
	3715	"AER",
	3716	"CHEM"
	3717	],
	3718	"experiment":"AMIP experiment with uniform 4K SST increase and with longwave cloud radiative effects off",
	3719	"experiment_id":"amip-p4K-lwoff",
	3720	"parent_activity_id":[
	3721	"no parent"
	3722	],
	3723	"parent_experiment_id":[
	3724	"no parent"
	3725	],
	3726	"required_model_components":[
	3727	"AGCM"
	3728	],
	3729	"sub_experiment_id":[
	3730	"none"
	3731	]
	3732	},
	3733	"amip-piForcing":{
	3734	"activity_id":[
	3735	"CFMIP"
	3736	],
	3737	"additional_allowed_model_components":[
	3738	"AER",
	3739	"CHEM"
	3740	],
	3741	"experiment":"AMIP SSTs with pre-industrial anthropogenic and natural forcing",
	3742	"experiment_id":"amip-piForcing",
	3743	"parent_activity_id":[
	3744	"no parent"
	3745	],
	3746	"parent_experiment_id":[
	3747	"no parent"
	3748	],
	3749	"required_model_components":[
	3750	"AGCM"
	3751	],
	3752	"sub_experiment_id":[
	3753	"none"
	3754	]
	3755	},
	3756	"aqua-4xCO2":{
	3757	"activity_id":[
	3758	"CFMIP"
	3759	],
	3760	"additional_allowed_model_components":[
	3761	"AER",
	3762	"CHEM"
	3763	],
	3764	"experiment":"aquaplanet with control SST and 4xCO2",
	3765	"experiment_id":"aqua-4xCO2",
	3766	"parent_activity_id":[
	3767	"no parent"
	3768	],
	3769	"parent_experiment_id":[
	3770	"no parent"
	3771	],
	3772	"required_model_components":[
	3773	"AGCM"
	3774	],
	3775	"sub_experiment_id":[
	3776	"none"
	3777	]
	3778	},
	3779	"aqua-control":{
	3780	"activity_id":[
	3781	"CFMIP"
	3782	],
	3783	"additional_allowed_model_components":[
	3784	"AER",
	3785	"CHEM"
	3786	],
	3787	"experiment":"aquaplanet control",
	3788	"experiment_id":"aqua-control",
	3789	"parent_activity_id":[
	3790	"no parent"
	3791	],
	3792	"parent_experiment_id":[
	3793	"no parent"
	3794	],
	3795	"required_model_components":[
	3796	"AGCM"
	3797	],
	3798	"sub_experiment_id":[
	3799	"none"
	3800	]
	3801	},
	3802	"aqua-control-lwoff":{
	3803	"activity_id":[
	3804	"CFMIP"
	3805	],
	3806	"additional_allowed_model_components":[
	3807	"AER",
	3808	"CHEM"
	3809	],
	3810	"experiment":"aquaplanet control with longwave cloud radiative effects off",
	3811	"experiment_id":"aqua-control-lwoff",
	3812	"parent_activity_id":[
	3813	"no parent"
	3814	],
	3815	"parent_experiment_id":[
	3816	"no parent"
	3817	],
	3818	"required_model_components":[
	3819	"AGCM"
	3820	],
	3821	"sub_experiment_id":[
	3822	"none"
	3823	]
	3824	},
	3825	"aqua-p4K":{
	3826	"activity_id":[
	3827	"CFMIP"
	3828	],
	3829	"additional_allowed_model_components":[
	3830	"AER",
	3831	"CHEM"
	3832	],
	3833	"experiment":"aquaplanet with uniform 4K SST increase",
	3834	"experiment_id":"aqua-p4K",
	3835	"parent_activity_id":[
	3836	"no parent"
	3837	],
	3838	"parent_experiment_id":[
	3839	"no parent"
	3840	],
	3841	"required_model_components":[
	3842	"AGCM"
	3843	],
	3844	"sub_experiment_id":[
	3845	"none"
	3846	]
	3847	},
	3848	"aqua-p4K-lwoff":{
	3849	"activity_id":[
	3850	"CFMIP"
	3851	],
	3852	"additional_allowed_model_components":[
	3853	"AER",
	3854	"CHEM"
	3855	],
	3856	"experiment":"aquaplanet with uniform 4K SST increase and with longwave cloud radiative effects off",
	3857	"experiment_id":"aqua-p4K-lwoff",
	3858	"parent_activity_id":[
	3859	"no parent"
	3860	],
	3861	"parent_experiment_id":[
	3862	"no parent"
	3863	],
	3864	"required_model_components":[
	3865	"AGCM"
	3866	],
	3867	"sub_experiment_id":[
	3868	"none"
	3869	]
	3870	},
	3871	"control-1950":{
	3872	"activity_id":[
	3873	"HighResMIP"
	3874	],
	3875	"additional_allowed_model_components":[
	3876	"AER"
	3877	],
	3878	"experiment":"coupled control with fixed 1950's forcing (HighResMIP equivalent of pre-industrial control)",
	3879	"experiment_id":"control-1950",
	3880	"parent_activity_id":[
	3881	"HighResMIP"
	3882	],
	3883	"parent_experiment_id":[
	3884	"spinup-1950"
	3885	],
	3886	"required_model_components":[
	3887	"AOGCM"
	3888	],
	3889	"sub_experiment_id":[
	3890	"none"
	3891	]
	3892	},
	3893	"control-slab":{
	3894	"activity_id":[
	3895	"VolMIP"
	3896	],
	3897	"additional_allowed_model_components":[
	3898	"AER",
	3899	"CHEM",
	3900	"BGC"
	3901	],
	3902	"experiment":"control with slab ocean",
	3903	"experiment_id":"control-slab",
	3904	"parent_activity_id":[
	3905	"no parent"
	3906	],
	3907	"parent_experiment_id":[
	3908	"no parent"
	3909	],
	3910	"required_model_components":[
	3911	"AGCM",
	3912	"SLAB"
	3913	],
	3914	"sub_experiment_id":[
	3915	"none"
	3916	]
	3917	},
	3918	"dcppA-assim":{
	3919	"activity_id":[
	3920	"DCPP"
	3921	],
	3922	"additional_allowed_model_components":[
	3923	"AER",
	3924	"CHEM",
	3925	"BGC"
	3926	],
	3927	"experiment":"Assimilation run paralleling the historical simulation, which may be used to generate hindcast initial conditions",
	3928	"experiment_id":"dcppA-assim",
	3929	"parent_activity_id":[
	3930	"no parent"
	3931	],
	3932	"parent_experiment_id":[
	3933	"no parent"
	3934	],
	3935	"required_model_components":[
	3936	"AOGCM"
	3937	],
	3938	"sub_experiment_id":[
	3939	"none"
	3940	]
	3941	},
	3942	"dcppA-hindcast":{
	3943	"activity_id":[
	3944	"DCPP"
	3945	],
	3946	"additional_allowed_model_components":[
	3947	"AER",
	3948	"CHEM",
	3949	"BGC"
	3950	],
	3951	"experiment":"hindcast initialized based on observations and using historical forcing",
	3952	"experiment_id":"dcppA-hindcast",
	3953	"parent_activity_id":[
	3954	"no parent",
	3955	"DCPP"
	3956	],
	3957	"parent_experiment_id":[
	3958	"no parent",
	3959	"dcppA-assim"
	3960	],
	3961	"required_model_components":[
	3962	"AOGCM"
	3963	],
	3964	"sub_experiment_id":[
	3965	"s1960",
	3966	"s1961",
	3967	"s1962",
	3968	"s1963",
	3969	"s1964",
	3970	"s1965",
	3971	"s1966",
	3972	"s1967",
	3973	"s1968",
	3974	"s1969",
	3975	"s1970",
	3976	"s1971",
	3977	"s1972",
	3978	"s1973",
	3979	"s1974",
	3980	"s1975",
	3981	"s1976",
	3982	"s1977",
	3983	"s1978",
	3984	"s1979",
	3985	"s1980",
	3986	"s1981",
	3987	"s1982",
	3988	"s1983",
	3989	"s1984",
	3990	"s1985",
	3991	"s1986",
	3992	"s1987",
	3993	"s1988",
	3994	"s1989",
	3995	"s1990",
	3996	"s1991",
	3997	"s1992",
	3998	"s1993",
	3999	"s1994",
	4000	"s1995",
	4001	"s1996",
	4002	"s1997",
	4003	"s1998",
	4004	"s1999",
	4005	"s2000",
	4006	"s2001",
	4007	"s2002",
	4008	"s2003",
	4009	"s2004",
	4010	"s2005",
	4011	"s2006",
	4012	"s2007",
	4013	"s2008",
	4014	"s2009",
	4015	"s2010",
	4016	"s2011",
	4017	"s2012",
	4018	"s2013",
	4019	"s2014",
	4020	"s2015",
	4021	"s2016",
	4022	"s2017",
	4023	"s2018",
	4024	"s2019"
	4025	]
	4026	},
	4027	"dcppA-hindcast-niff":{
	4028	"activity_id":[
	4029	"DCPP"
	4030	],
	4031	"additional_allowed_model_components":[
	4032	"AER",
	4033	"CHEM",
	4034	"BGC"
	4035	],
	4036	"experiment":"hindcast initialized based on observations but without using knowledge of subsequent historical forcing",
	4037	"experiment_id":"dcppA-hindcast-niff",
	4038	"parent_activity_id":[
	4039	"no parent",
	4040	"DCPP"
	4041	],
	4042	"parent_experiment_id":[
	4043	"no parent",
	4044	"dcppA-assim"
	4045	],
	4046	"required_model_components":[
	4047	"AOGCM"
	4048	],
	4049	"sub_experiment_id":[
	4050	"s1960",
	4051	"s1961",
	4052	"s1962",
	4053	"s1963",
	4054	"s1964",
	4055	"s1965",
	4056	"s1966",
	4057	"s1967",
	4058	"s1968",
	4059	"s1969",
	4060	"s1970",
	4061	"s1971",
	4062	"s1972",
	4063	"s1973",
	4064	"s1974",
	4065	"s1975",
	4066	"s1976",
	4067	"s1977",
	4068	"s1978",
	4069	"s1979",
	4070	"s1980",
	4071	"s1981",
	4072	"s1982",
	4073	"s1983",
	4074	"s1984",
	4075	"s1985",
	4076	"s1986",
	4077	"s1987",
	4078	"s1988",
	4079	"s1989",
	4080	"s1990",
	4081	"s1991",
	4082	"s1992",
	4083	"s1993",
	4084	"s1994",
	4085	"s1995",
	4086	"s1996",
	4087	"s1997",
	4088	"s1998",
	4089	"s1999",
	4090	"s2000",
	4091	"s2001",
	4092	"s2002",
	4093	"s2003",
	4094	"s2004",
	4095	"s2005",
	4096	"s2006",
	4097	"s2007",
	4098	"s2008",
	4099	"s2009",
	4100	"s2010",
	4101	"s2011",
	4102	"s2012",
	4103	"s2013",
	4104	"s2014",
	4105	"s2015",
	4106	"s2016",
	4107	"s2017",
	4108	"s2018",
	4109	"s2019"
	4110	]
	4111	},
	4112	"dcppA-historical-niff":{
	4113	"activity_id":[
	4114	"DCPP"
	4115	],
	4116	"additional_allowed_model_components":[
	4117	"AER",
	4118	"CHEM",
	4119	"BGC"
	4120	],
	4121	"experiment":"hindcast initialized from historical climate simulation but without using knowledge of subsequent historical forcing",
	4122	"experiment_id":"dcppA-historical-niff",
	4123	"parent_activity_id":[
	4124	"CMIP"
	4125	],
	4126	"parent_experiment_id":[
	4127	"historical"
	4128	],
	4129	"required_model_components":[
	4130	"AOGCM"
	4131	],
	4132	"sub_experiment_id":[
	4133	"s1960",
	4134	"s1961",
	4135	"s1962",
	4136	"s1963",
	4137	"s1964",
	4138	"s1965",
	4139	"s1966",
	4140	"s1967",
	4141	"s1968",
	4142	"s1969",
	4143	"s1970",
	4144	"s1971",
	4145	"s1972",
	4146	"s1973",
	4147	"s1974",
	4148	"s1975",
	4149	"s1976",
	4150	"s1977",
	4151	"s1978",
	4152	"s1979",
	4153	"s1980",
	4154	"s1981",
	4155	"s1982",
	4156	"s1983",
	4157	"s1984",
	4158	"s1985",
	4159	"s1986",
	4160	"s1987",
	4161	"s1988",
	4162	"s1989",
	4163	"s1990",
	4164	"s1991",
	4165	"s1992",
	4166	"s1993",
	4167	"s1994",
	4168	"s1995",
	4169	"s1996",
	4170	"s1997",
	4171	"s1998",
	4172	"s1999",
	4173	"s2000",
	4174	"s2001",
	4175	"s2002",
	4176	"s2003",
	4177	"s2004",
	4178	"s2005",
	4179	"s2006",
	4180	"s2007",
	4181	"s2008",
	4182	"s2009",
	4183	"s2010",
	4184	"s2011",
	4185	"s2012",
	4186	"s2013",
	4187	"s2014",
	4188	"s2015",
	4189	"s2016",
	4190	"s2017",
	4191	"s2018",
	4192	"s2019"
	4193	]
	4194	},
	4195	"dcppB-forecast":{
	4196	"activity_id":[
	4197	"DCPP"
	4198	],
	4199	"additional_allowed_model_components":[
	4200	"AER",
	4201	"CHEM",
	4202	"BGC"
	4203	],
	4204	"experiment":"forecast initialized from observations with forcing from ssp245",
	4205	"experiment_id":"dcppB-forecast",
	4206	"parent_activity_id":[
	4207	"no parent",
	4208	"DCPP"
	4209	],
	4210	"parent_experiment_id":[
	4211	"no parent",
	4212	"dcppA-assim"
	4213	],
	4214	"required_model_components":[
	4215	"AOGCM"
	4216	],
	4217	"sub_experiment_id":[
	4218	"s2017",
	4219	"s2018",
	4220	"s2019",
	4221	"s2020",
	4222	"s2021",
	4223	"s2022",
	4224	"s2023",
	4225	"s2024",
	4226	"s2025",
	4227	"s2026",
	4228	"s2027",
	4229	"s2028",
	4230	"s2029"
	4231	]
	4232	},
	4233	"dcppC-amv-ExTrop-neg":{
	4234	"activity_id":[
	4235	"DCPP"
	4236	],
	4237	"additional_allowed_model_components":[
	4238	"AER",
	4239	"CHEM",
	4240	"BGC"
	4241	],
	4242	"experiment":"Idealized climate impact of negative extratropical AMV anomaly pattern",
	4243	"experiment_id":"dcppC-amv-ExTrop-neg",
	4244	"parent_activity_id":[
	4245	"CMIP"
	4246	],
	4247	"parent_experiment_id":[
	4248	"piControl"
	4249	],
	4250	"required_model_components":[
	4251	"AOGCM"
	4252	],
	4253	"sub_experiment_id":[
	4254	"none"
	4255	]
	4256	},
	4257	"dcppC-amv-ExTrop-pos":{
	4258	"activity_id":[
	4259	"DCPP"
	4260	],
	4261	"additional_allowed_model_components":[
	4262	"AER",
	4263	"CHEM",
	4264	"BGC"
	4265	],
	4266	"experiment":"Idealized climate impact of positive extratropical AMV anomaly pattern",
	4267	"experiment_id":"dcppC-amv-ExTrop-pos",
	4268	"parent_activity_id":[
	4269	"CMIP"
	4270	],
	4271	"parent_experiment_id":[
	4272	"piControl"
	4273	],
	4274	"required_model_components":[
	4275	"AOGCM"
	4276	],
	4277	"sub_experiment_id":[
	4278	"none"
	4279	]
	4280	},
	4281	"dcppC-amv-Trop-neg":{
	4282	"activity_id":[
	4283	"DCPP"
	4284	],
	4285	"additional_allowed_model_components":[
	4286	"AER",
	4287	"CHEM",
	4288	"BGC"
	4289	],
	4290	"experiment":"Idealized climate impact of negative tropical AMV anomaly pattern",
	4291	"experiment_id":"dcppC-amv-Trop-neg",
	4292	"parent_activity_id":[
	4293	"CMIP"
	4294	],
	4295	"parent_experiment_id":[
	4296	"piControl"
	4297	],
	4298	"required_model_components":[
	4299	"AOGCM"
	4300	],
	4301	"sub_experiment_id":[
	4302	"none"
	4303	]
	4304	},
	4305	"dcppC-amv-Trop-pos":{
	4306	"activity_id":[
	4307	"DCPP"
	4308	],
	4309	"additional_allowed_model_components":[
	4310	"AER",
	4311	"CHEM",
	4312	"BGC"
	4313	],
	4314	"experiment":"idealized positive tropical AMV anomaly pattern",
	4315	"experiment_id":"dcppC-amv-Trop-pos",
	4316	"parent_activity_id":[
	4317	"CMIP"
	4318	],
	4319	"parent_experiment_id":[
	4320	"piControl"
	4321	],
	4322	"required_model_components":[
	4323	"AOGCM"
	4324	],
	4325	"sub_experiment_id":[
	4326	"none"
	4327	]
	4328	},
	4329	"dcppC-amv-neg":{
	4330	"activity_id":[
	4331	"DCPP"
	4332	],
	4333	"additional_allowed_model_components":[
	4334	"AER",
	4335	"CHEM",
	4336	"BGC"
	4337	],
	4338	"experiment":"Idealized climate impact of negative AMV anomaly pattern",
	4339	"experiment_id":"dcppC-amv-neg",
	4340	"parent_activity_id":[
	4341	"CMIP"
	4342	],
	4343	"parent_experiment_id":[
	4344	"piControl"
	4345	],
	4346	"required_model_components":[
	4347	"AOGCM"
	4348	],
	4349	"sub_experiment_id":[
	4350	"none"
	4351	]
	4352	},
	4353	"dcppC-amv-pos":{
	4354	"activity_id":[
	4355	"DCPP"
	4356	],
	4357	"additional_allowed_model_components":[
	4358	"AER",
	4359	"CHEM",
	4360	"BGC"
	4361	],
	4362	"experiment":"Idealized climate impact of positive AMV anomaly pattern",
	4363	"experiment_id":"dcppC-amv-pos",
	4364	"parent_activity_id":[
	4365	"CMIP"
	4366	],
	4367	"parent_experiment_id":[
	4368	"piControl"
	4369	],
	4370	"required_model_components":[
	4371	"AOGCM"
	4372	],
	4373	"sub_experiment_id":[
	4374	"none"
	4375	]
	4376	},
	4377	"dcppC-atl-control":{
	4378	"activity_id":[
	4379	"DCPP"
	4380	],
	4381	"additional_allowed_model_components":[
	4382	"AER",
	4383	"CHEM",
	4384	"BGC"
	4385	],
	4386	"experiment":"Idealized Atlantic control",
	4387	"experiment_id":"dcppC-atl-control",
	4388	"parent_activity_id":[
	4389	"CMIP"
	4390	],
	4391	"parent_experiment_id":[
	4392	"piControl"
	4393	],
	4394	"required_model_components":[
	4395	"AOGCM"
	4396	],
	4397	"sub_experiment_id":[
	4398	"none"
	4399	]
	4400	},
	4401	"dcppC-atl-pacemaker":{
	4402	"activity_id":[
	4403	"DCPP"
	4404	],
	4405	"additional_allowed_model_components":[
	4406	"AER",
	4407	"CHEM",
	4408	"BGC"
	4409	],
	4410	"experiment":"pacemaker Atlantic experiment",
	4411	"experiment_id":"dcppC-atl-pacemaker",
	4412	"parent_activity_id":[
	4413	"CMIP"
	4414	],
	4415	"parent_experiment_id":[
	4416	"historical"
	4417	],
	4418	"required_model_components":[
	4419	"AOGCM"
	4420	],
	4421	"sub_experiment_id":[
	4422	"s1910",
	4423	"s1920",
	4424	"s1950"
	4425	]
	4426	},
	4427	"dcppC-atl-spg":{
	4428	"activity_id":[
	4429	"DCPP"
	4430	],
	4431	"additional_allowed_model_components":[
	4432	"AER",
	4433	"CHEM",
	4434	"BGC"
	4435	],
	4436	"experiment":"predictability of 1990s warming of Atlantic sub-polar gyre",
	4437	"experiment_id":"dcppC-atl-spg",
	4438	"parent_activity_id":[
	4439	"no parent"
	4440	],
	4441	"parent_experiment_id":[
	4442	"no parent"
	4443	],
	4444	"required_model_components":[
	4445	"AOGCM"
	4446	],
	4447	"sub_experiment_id":[
	4448	"s1992",
	4449	"s1993",
	4450	"s1994",
	4451	"s1995",
	4452	"s1996",
	4453	"s1997",
	4454	"s1998",
	4455	"s1999"
	4456	]
	4457	},
	4458	"dcppC-forecast-addAgung":{
	4459	"activity_id":[
	4460	"DCPP"
	4461	],
	4462	"additional_allowed_model_components":[
	4463	"AER",
	4464	"CHEM",
	4465	"BGC"
	4466	],
	4467	"experiment":"2015 forecast with added Agung forcing",
	4468	"experiment_id":"dcppC-forecast-addAgung",
	4469	"parent_activity_id":[
	4470	"no parent",
	4471	"DCPP"
	4472	],
	4473	"parent_experiment_id":[
	4474	"no parent",
	4475	"dcppA-assim"
	4476	],
	4477	"required_model_components":[
	4478	"AOGCM"
	4479	],
	4480	"sub_experiment_id":[
	4481	"s2014"
	4482	]
	4483	},
	4484	"dcppC-forecast-addElChichon":{
	4485	"activity_id":[
	4486	"DCPP"
	4487	],
	4488	"additional_allowed_model_components":[
	4489	"AER",
	4490	"CHEM",
	4491	"BGC"
	4492	],
	4493	"experiment":"2015 forecast with added El Chichon forcing",
	4494	"experiment_id":"dcppC-forecast-addElChichon",
	4495	"parent_activity_id":[
	4496	"no parent",
	4497	"DCPP"
	4498	],
	4499	"parent_experiment_id":[
	4500	"no parent",
	4501	"dcppA-assim"
	4502	],
	4503	"required_model_components":[
	4504	"AOGCM"
	4505	],
	4506	"sub_experiment_id":[
	4507	"s2014"
	4508	]
	4509	},
	4510	"dcppC-forecast-addPinatubo":{
	4511	"activity_id":[
	4512	"DCPP VolMIP"
	4513	],
	4514	"additional_allowed_model_components":[
	4515	"AER",
	4516	"CHEM",
	4517	"BGC"
	4518	],
	4519	"experiment":"2015 forecast with added Pinatubo forcing",
	4520	"experiment_id":"dcppC-forecast-addPinatubo",
	4521	"parent_activity_id":[
	4522	"no parent",
	4523	"DCPP"
	4524	],
	4525	"parent_experiment_id":[
	4526	"no parent",
	4527	"dcppA-assim"
	4528	],
	4529	"required_model_components":[
	4530	"AOGCM"
	4531	],
	4532	"sub_experiment_id":[
	4533	"s2014"
	4534	]
	4535	},
	4536	"dcppC-hindcast-noAgung":{
	4537	"activity_id":[
	4538	"DCPP"
	4539	],
	4540	"additional_allowed_model_components":[
	4541	"AER",
	4542	"CHEM",
	4543	"BGC"
	4544	],
	4545	"experiment":"hindcast but with only background volcanic forcing to be the same as that used in the 2015 forecast",
	4546	"experiment_id":"dcppC-hindcast-noAgung",
	4547	"parent_activity_id":[
	4548	"no parent",
	4549	"DCPP"
	4550	],
	4551	"parent_experiment_id":[
	4552	"no parent",
	4553	"dcppA-assim"
	4554	],
	4555	"required_model_components":[
	4556	"AOGCM"
	4557	],
	4558	"sub_experiment_id":[
	4559	"s1962"
	4560	]
	4561	},
	4562	"dcppC-hindcast-noElChichon":{
	4563	"activity_id":[
	4564	"DCPP"
	4565	],
	4566	"additional_allowed_model_components":[
	4567	"AER",
	4568	"CHEM",
	4569	"BGC"
	4570	],
	4571	"experiment":"hindcast but with only background volcanic forcing to be the same as that used in the 2015 forecast",
	4572	"experiment_id":"dcppC-hindcast-noElChichon",
	4573	"parent_activity_id":[
	4574	"no parent",
	4575	"DCPP"
	4576	],
	4577	"parent_experiment_id":[
	4578	"no parent",
	4579	"dcppA-assim"
	4580	],
	4581	"required_model_components":[
	4582	"AOGCM"
	4583	],
	4584	"sub_experiment_id":[
	4585	"s1981"
	4586	]
	4587	},
	4588	"dcppC-hindcast-noPinatubo":{
	4589	"activity_id":[
	4590	"DCPP"
	4591	],
	4592	"additional_allowed_model_components":[
	4593	"AER",
	4594	"CHEM",
	4595	"BGC"
	4596	],
	4597	"experiment":"hindcast but with only background volcanic forcing to be the same as that used in the 2015 forecast",
	4598	"experiment_id":"dcppC-hindcast-noPinatubo",
	4599	"parent_activity_id":[
	4600	"no parent",
	4601	"DCPP"
	4602	],
	4603	"parent_experiment_id":[
	4604	"no parent",
	4605	"dcppA-assim"
	4606	],
	4607	"required_model_components":[
	4608	"AOGCM"
	4609	],
	4610	"sub_experiment_id":[
	4611	"s1990"
	4612	]
	4613	},
	4614	"dcppC-ipv-NexTrop-neg":{
	4615	"activity_id":[
	4616	"DCPP"
	4617	],
	4618	"additional_allowed_model_components":[
	4619	"AER",
	4620	"CHEM",
	4621	"BGC"
	4622	],
	4623	"experiment":"idealized negative northern extratropical IPV anomaly pattern",
	4624	"experiment_id":"dcppC-ipv-NexTrop-neg",
	4625	"parent_activity_id":[
	4626	"CMIP"
	4627	],
	4628	"parent_experiment_id":[
	4629	"piControl"
	4630	],
	4631	"required_model_components":[
	4632	"AOGCM"
	4633	],
	4634	"sub_experiment_id":[
	4635	"none"
	4636	]
	4637	},
	4638	"dcppC-ipv-NexTrop-pos":{
	4639	"activity_id":[
	4640	"DCPP"
	4641	],
	4642	"additional_allowed_model_components":[
	4643	"AER",
	4644	"CHEM",
	4645	"BGC"
	4646	],
	4647	"experiment":"idealized positive northern extratropical IPV anomaly pattern",
	4648	"experiment_id":"dcppC-ipv-NexTrop-pos",
	4649	"parent_activity_id":[
	4650	"CMIP"
	4651	],
	4652	"parent_experiment_id":[
	4653	"piControl"
	4654	],
	4655	"required_model_components":[
	4656	"AOGCM"
	4657	],
	4658	"sub_experiment_id":[
	4659	"none"
	4660	]
	4661	},
	4662	"dcppC-ipv-neg":{
	4663	"activity_id":[
	4664	"DCPP"
	4665	],
	4666	"additional_allowed_model_components":[
	4667	"AER",
	4668	"CHEM",
	4669	"BGC"
	4670	],
	4671	"experiment":"idealized negative IPV anomaly pattern",
	4672	"experiment_id":"dcppC-ipv-neg",
	4673	"parent_activity_id":[
	4674	"CMIP"
	4675	],
	4676	"parent_experiment_id":[
	4677	"piControl"
	4678	],
	4679	"required_model_components":[
	4680	"AOGCM"
	4681	],
	4682	"sub_experiment_id":[
	4683	"none"
	4684	]
	4685	},
	4686	"dcppC-ipv-pos":{
	4687	"activity_id":[
	4688	"DCPP"
	4689	],
	4690	"additional_allowed_model_components":[
	4691	"AER",
	4692	"CHEM",
	4693	"BGC"
	4694	],
	4695	"experiment":"idealized positive IPV anomaly pattern",
	4696	"experiment_id":"dcppC-ipv-pos",
	4697	"parent_activity_id":[
	4698	"CMIP"
	4699	],
	4700	"parent_experiment_id":[
	4701	"piControl"
	4702	],
	4703	"required_model_components":[
	4704	"AOGCM"
	4705	],
	4706	"sub_experiment_id":[
	4707	"none"
	4708	]
	4709	},
	4710	"dcppC-pac-control":{
	4711	"activity_id":[
	4712	"DCPP"
	4713	],
	4714	"additional_allowed_model_components":[
	4715	"AER",
	4716	"CHEM",
	4717	"BGC"
	4718	],
	4719	"experiment":"idealized Pacific control",
	4720	"experiment_id":"dcppC-pac-control",
	4721	"parent_activity_id":[
	4722	"CMIP"
	4723	],
	4724	"parent_experiment_id":[
	4725	"piControl"
	4726	],
	4727	"required_model_components":[
	4728	"AOGCM"
	4729	],
	4730	"sub_experiment_id":[
	4731	"none"
	4732	]
	4733	},
	4734	"dcppC-pac-pacemaker":{
	4735	"activity_id":[
	4736	"DCPP"
	4737	],
	4738	"additional_allowed_model_components":[
	4739	"AER",
	4740	"CHEM",
	4741	"BGC"
	4742	],
	4743	"experiment":"pacemaker Pacific experiment",
	4744	"experiment_id":"dcppC-pac-pacemaker",
	4745	"parent_activity_id":[
	4746	"CMIP"
	4747	],
	4748	"parent_experiment_id":[
	4749	"historical"
	4750	],
	4751	"required_model_components":[
	4752	"AOGCM"
	4753	],
	4754	"sub_experiment_id":[
	4755	"s1910",
	4756	"s1920",
	4757	"s1950"
	4758	]
	4759	},
	4760	"deforest-globe":{
	4761	"activity_id":[
	4762	"LUMIP"
	4763	],
	4764	"additional_allowed_model_components":[
	4765	"AER",
	4766	"CHEM",
	4767	"BGC"
	4768	],
	4769	"experiment":"idealized transient global deforestation",
	4770	"experiment_id":"deforest-globe",
	4771	"parent_activity_id":[
	4772	"CMIP"
	4773	],
	4774	"parent_experiment_id":[
	4775	"piControl"
	4776	],
	4777	"required_model_components":[
	4778	"AOGCM"
	4779	],
	4780	"sub_experiment_id":[
	4781	"none"
	4782	]
	4783	},
	4784	"esm-1pct-brch-1000PgC":{
	4785	"activity_id":[
	4786	"C4MIP CDRMIP"
	4787	],
	4788	"additional_allowed_model_components":[
	4789	"AER",
	4790	"CHEM"
	4791	],
	4792	"experiment":"zero emissions simulation branched from 1% run after 1000 PgC cumulative emission",
	4793	"experiment_id":"esm-1pct-brch-1000PgC",
	4794	"parent_activity_id":[
	4795	"CMIP",
	4796	"C4MIP"
	4797	],
	4798	"parent_experiment_id":[
	4799	"1pctCO2",
	4800	"esm-1pctCO2"
	4801	],
	4802	"required_model_components":[
	4803	"AOGCM",
	4804	"BGC"
	4805	],
	4806	"sub_experiment_id":[
	4807	"none"
	4808	]
	4809	},
	4810	"esm-1pct-brch-2000PgC":{
	4811	"activity_id":[
	4812	"C4MIP CDRMIP"
	4813	],
	4814	"additional_allowed_model_components":[
	4815	"AER",
	4816	"CHEM"
	4817	],
	4818	"experiment":"zero emissions simulation branched from 1% run after 2000 PgC cumulative emission",
	4819	"experiment_id":"esm-1pct-brch-2000PgC",
	4820	"parent_activity_id":[
	4821	"CMIP",
	4822	"C4MIP"
	4823	],
	4824	"parent_experiment_id":[
	4825	"1pctCO2",
	4826	"esm-1pctCO2"
	4827	],
	4828	"required_model_components":[
	4829	"AOGCM",
	4830	"BGC"
	4831	],
	4832	"sub_experiment_id":[
	4833	"none"
	4834	]
	4835	},
	4836	"esm-1pct-brch-750PgC":{
	4837	"activity_id":[
	4838	"C4MIP CDRMIP"
	4839	],
	4840	"additional_allowed_model_components":[
	4841	"AER",
	4842	"CHEM"
	4843	],
	4844	"experiment":"zero emissions simulation branched from 1% run after 750 PgC cumulative emission",
	4845	"experiment_id":"esm-1pct-brch-750PgC",
	4846	"parent_activity_id":[
	4847	"CMIP",
	4848	"C4MIP"
	4849	],
	4850	"parent_experiment_id":[
	4851	"1pctCO2",
	4852	"esm-1pctCO2"
	4853	],
	4854	"required_model_components":[
	4855	"AOGCM",
	4856	"BGC"
	4857	],
	4858	"sub_experiment_id":[
	4859	"none"
	4860	]
	4861	},
	4862	"esm-1pctCO2":{
	4863	"activity_id":[
	4864	"C4MIP CDRMIP"
	4865	],
	4866	"additional_allowed_model_components":[
	4867	"AER",
	4868	"CHEM"
	4869	],
	4870	"experiment":"emissions driven 1% run",
	4871	"experiment_id":"esm-1pctCO2",
	4872	"parent_activity_id":[
	4873	"CMIP"
	4874	],
	4875	"parent_experiment_id":[
	4876	"esm-piControl"
	4877	],
	4878	"required_model_components":[
	4879	"AOGCM",
	4880	"BGC"
	4881	],
	4882	"sub_experiment_id":[
	4883	"none"
	4884	]
	4885	},
	4886	"esm-bell-1000PgC":{
	4887	"activity_id":[
	4888	"C4MIP CDRMIP"
	4889	],
	4890	"additional_allowed_model_components":[
	4891	"AER",
	4892	"CHEM"
	4893	],
	4894	"experiment":"emissions driven 1000PgC bell-curve",
	4895	"experiment_id":"esm-bell-1000PgC",
	4896	"parent_activity_id":[
	4897	"CMIP"
	4898	],
	4899	"parent_experiment_id":[
	4900	"esm-piControl"
	4901	],
	4902	"required_model_components":[
	4903	"AOGCM",
	4904	"BGC"
	4905	],
	4906	"sub_experiment_id":[
	4907	"none"
	4908	]
	4909	},
	4910	"esm-bell-2000PgC":{
	4911	"activity_id":[
	4912	"C4MIP CDRMIP"
	4913	],
	4914	"additional_allowed_model_components":[
	4915	"AER",
	4916	"CHEM"
	4917	],
	4918	"experiment":"emissions driven 2000PgC bell-curve",
	4919	"experiment_id":"esm-bell-2000PgC",
	4920	"parent_activity_id":[
	4921	"CMIP"
	4922	],
	4923	"parent_experiment_id":[
	4924	"esm-piControl"
	4925	],
	4926	"required_model_components":[
	4927	"AOGCM",
	4928	"BGC"
	4929	],
	4930	"sub_experiment_id":[
	4931	"none"
	4932	]
	4933	},
	4934	"esm-bell-750PgC":{
	4935	"activity_id":[
	4936	"C4MIP CDRMIP"
	4937	],
	4938	"additional_allowed_model_components":[
	4939	"AER",
	4940	"CHEM"
	4941	],
	4942	"experiment":"emissions driven 750PgC bell-curve",
	4943	"experiment_id":"esm-bell-750PgC",
	4944	"parent_activity_id":[
	4945	"CMIP"
	4946	],
	4947	"parent_experiment_id":[
	4948	"esm-piControl"
	4949	],
	4950	"required_model_components":[
	4951	"AOGCM",
	4952	"BGC"
	4953	],
	4954	"sub_experiment_id":[
	4955	"none"
	4956	]
	4957	},
	4958	"esm-hist":{
	4959	"activity_id":[
	4960	"CMIP"
	4961	],
	4962	"additional_allowed_model_components":[
	4963	"AER",
	4964	"CHEM"
	4965	],
	4966	"experiment":"all-forcing simulation of the recent past with atmospheric CO2 concentration calculated",
	4967	"experiment_id":"esm-hist",
	4968	"parent_activity_id":[
	4969	"CMIP"
	4970	],
	4971	"parent_experiment_id":[
	4972	"esm-piControl"
	4973	],
	4974	"required_model_components":[
	4975	"AOGCM",
	4976	"BGC"
	4977	],
	4978	"sub_experiment_id":[
	4979	"none"
	4980	]
	4981	},
	4982	"esm-hist-ext":{
	4983	"activity_id":[
	4984	"CMIP"
	4985	],
	4986	"additional_allowed_model_components":[
	4987	"AER",
	4988	"CHEM"
	4989	],
	4990	"experiment":"post-2014 all-forcing simulation with atmospheric CO2 concentration calculated",
	4991	"experiment_id":"esm-hist-ext",
	4992	"parent_activity_id":[
	4993	"CMIP"
	4994	],
	4995	"parent_experiment_id":[
	4996	"esm-hist"
	4997	],
	4998	"required_model_components":[
	4999	"AOGCM",
	5000	"BGC"
	5001	],
	5002	"sub_experiment_id":[
	5003	"none"
	5004	]
	5005	},
	5006	"esm-past1000":{
	5007	"activity_id":[
	5008	"PMIP"
	5009	],
	5010	"additional_allowed_model_components":[
	5011	"AER",
	5012	"CHEM"
	5013	],
	5014	"experiment":"last millennium experiment with interactive carbon cycle",
	5015	"experiment_id":"esm-past1000",
	5016	"parent_activity_id":[
	5017	"no parent"
	5018	],
	5019	"parent_experiment_id":[
	5020	"no parent"
	5021	],
	5022	"required_model_components":[
	5023	"AOGCM",
	5024	"BGC"
	5025	],
	5026	"sub_experiment_id":[
	5027	"none"
	5028	]
	5029	},
	5030	"esm-pi-CO2pulse":{
	5031	"activity_id":[
	5032	"CDRMIP"
	5033	],
	5034	"additional_allowed_model_components":[
	5035	"AER",
	5036	"CHEM"
	5037	],
	5038	"experiment":"pulse addition of 100 Gt carbon to pre-industrial atmosphere",
	5039	"experiment_id":"esm-pi-CO2pulse",
	5040	"parent_activity_id":[
	5041	"CMIP"
	5042	],
	5043	"parent_experiment_id":[
	5044	"esm-piControl"
	5045	],
	5046	"required_model_components":[
	5047	"AOGCM",
	5048	"BGC"
	5049	],
	5050	"sub_experiment_id":[
	5051	"none"
	5052	]
	5053	},
	5054	"esm-pi-cdr-pulse":{
	5055	"activity_id":[
	5056	"CDRMIP"
	5057	],
	5058	"additional_allowed_model_components":[
	5059	"AER",
	5060	"CHEM"
	5061	],
	5062	"experiment":"pulse removal of 100 Gt carbon from pre-industrial atmosphere",
	5063	"experiment_id":"esm-pi-cdr-pulse",
	5064	"parent_activity_id":[
	5065	"CMIP"
	5066	],
	5067	"parent_experiment_id":[
	5068	"esm-piControl"
	5069	],
	5070	"required_model_components":[
	5071	"AOGCM",
	5072	"BGC"
	5073	],
	5074	"sub_experiment_id":[
	5075	"none"
	5076	]
	5077	},
	5078	"esm-piControl":{
	5079	"activity_id":[
	5080	"CMIP"
	5081	],
	5082	"additional_allowed_model_components":[
	5083	"AER",
	5084	"CHEM"
	5085	],
	5086	"experiment":"pre-industrial control simulation with CO2 concentration calculated",
	5087	"experiment_id":"esm-piControl",
	5088	"parent_activity_id":[
	5089	"CMIP"
	5090	],
	5091	"parent_experiment_id":[
	5092	"esm-piControl-spinup"
	5093	],
	5094	"required_model_components":[
	5095	"AOGCM",
	5096	"BGC"
	5097	],
	5098	"sub_experiment_id":[
	5099	"none"
	5100	]
	5101	},
	5102	"esm-piControl-spinup":{
	5103	"activity_id":[
	5104	"CMIP"
	5105	],
	5106	"additional_allowed_model_components":[
	5107	"AER",
	5108	"CHEM"
	5109	],
	5110	"experiment":"pre-industrial control simulation with CO2 concentration calculated (spin-up)",
	5111	"experiment_id":"esm-piControl-spinup",
	5112	"parent_activity_id":[
	5113	"no parent"
	5114	],
	5115	"parent_experiment_id":[
	5116	"no parent"
	5117	],
	5118	"required_model_components":[
	5119	"AOGCM",
	5120	"BGC"
	5121	],
	5122	"sub_experiment_id":[
	5123	"none"
	5124	]
	5125	},
	5126	"esm-ssp534-over":{
	5127	"activity_id":[
	5128	"CDRMIP"
	5129	],
	5130	"additional_allowed_model_components":[
	5131	"AER",
	5132	"CHEM"
	5133	],
	5134	"experiment":"emission-driven SSP5-3.4-OS scenario",
	5135	"experiment_id":"esm-ssp534-over",
	5136	"parent_activity_id":[
	5137	"C4MIP"
	5138	],
	5139	"parent_experiment_id":[
	5140	"esm-ssp585"
	5141	],
	5142	"required_model_components":[
	5143	"AOGCM",
	5144	"BGC"
	5145	],
	5146	"sub_experiment_id":[
	5147	"none"
	5148	]
	5149	},
	5150	"esm-ssp585":{
	5151	"activity_id":[
	5152	"C4MIP"
	5153	],
	5154	"additional_allowed_model_components":[
	5155	"AER",
	5156	"CHEM"
	5157	],
	5158	"experiment":"emission-driven RCP8.5 based on SSP5",
	5159	"experiment_id":"esm-ssp585",
	5160	"parent_activity_id":[
	5161	"CMIP"
	5162	],
	5163	"parent_experiment_id":[
	5164	"esm-hist"
	5165	],
	5166	"required_model_components":[
	5167	"AOGCM",
	5168	"BGC"
	5169	],
	5170	"sub_experiment_id":[
	5171	"none"
	5172	]
	5173	},
	5174	"esm-ssp585-ocn-alk":{
	5175	"activity_id":[
	5176	"CDRMIP"
	5177	],
	5178	"additional_allowed_model_components":[
	5179	"AER",
	5180	"CHEM"
	5181	],
	5182	"experiment":"emission-driven SSP5-8.5 scenario but with ocean alkalinization from year 2020 onward",
	5183	"experiment_id":"esm-ssp585-ocn-alk",
	5184	"parent_activity_id":[
	5185	"C4MIP"
	5186	],
	5187	"parent_experiment_id":[
	5188	"esm-ssp585"
	5189	],
	5190	"required_model_components":[
	5191	"AOGCM",
	5192	"BGC"
	5193	],
	5194	"sub_experiment_id":[
	5195	"none"
	5196	]
	5197	},
	5198	"esm-ssp585-ocn-alk-stop":{
	5199	"activity_id":[
	5200	"CDRMIP"
	5201	],
	5202	"additional_allowed_model_components":[
	5203	"AER",
	5204	"CHEM"
	5205	],
	5206	"experiment":"emission-driven SSP5-8.5 scenario with alkalinization terminated in year 2070",
	5207	"experiment_id":"esm-ssp585-ocn-alk-stop",
	5208	"parent_activity_id":[
	5209	"CDRMIP"
	5210	],
	5211	"parent_experiment_id":[
	5212	"esm-ssp585-ocn-alk"
	5213	],
	5214	"required_model_components":[
	5215	"AOGCM",
	5216	"BGC"
	5217	],
	5218	"sub_experiment_id":[
	5219	"none"
	5220	]
	5221	},
	5222	"esm-ssp585-ssp126Lu":{
	5223	"activity_id":[
	5224	"LUMIP"
	5225	],
	5226	"additional_allowed_model_components":[
	5227	"AER",
	5228	"CHEM"
	5229	],
	5230	"experiment":"emissions-driven SSP5-8.5 with SSP1-2.6 land use",
	5231	"experiment_id":"esm-ssp585-ssp126Lu",
	5232	"parent_activity_id":[
	5233	"CMIP"
	5234	],
	5235	"parent_experiment_id":[
	5236	"esm-hist"
	5237	],
	5238	"required_model_components":[
	5239	"AOGCM",
	5240	"BGC"
	5241	],
	5242	"sub_experiment_id":[
	5243	"none"
	5244	]
	5245	},
	5246	"esm-ssp585-ssp126Lu-ext":{
	5247	"activity_id":[
	5248	"CDRMIP"
	5249	],
	5250	"additional_allowed_model_components":[
	5251	"AER",
	5252	"CHEM"
	5253	],
	5254	"experiment":"extension of the LUMIP emissions-driven simulation following SSP5-8.5 with SSP1-2.6 land use",
	5255	"experiment_id":"esm-ssp585-ssp126Lu-ext",
	5256	"parent_activity_id":[
	5257	"LUMIP"
	5258	],
	5259	"parent_experiment_id":[
	5260	"esm-ssp585-ssp126Lu"
	5261	],
	5262	"required_model_components":[
	5263	"AOGCM",
	5264	"BGC"
	5265	],
	5266	"sub_experiment_id":[
	5267	"none"
	5268	]
	5269	},
	5270	"esm-ssp585ext":{
	5271	"activity_id":[
	5272	"CDRMIP"
	5273	],
	5274	"additional_allowed_model_components":[
	5275	"AER",
	5276	"CHEM"
	5277	],
	5278	"experiment":"emission-driven long-term extension of the SSP5-8.5 scenario",
	5279	"experiment_id":"esm-ssp585ext",
	5280	"parent_activity_id":[
	5281	"C4MIP"
	5282	],
	5283	"parent_experiment_id":[
	5284	"esm-ssp585"
	5285	],
	5286	"required_model_components":[
	5287	"AOGCM",
	5288	"BGC"
	5289	],
	5290	"sub_experiment_id":[
	5291	"none"
	5292	]
	5293	},
	5294	"esm-yr2010CO2-CO2pulse":{
	5295	"activity_id":[
	5296	"CDRMIP"
	5297	],
	5298	"additional_allowed_model_components":[
	5299	"AER",
	5300	"CHEM"
	5301	],
	5302	"experiment":"instantaneous 100 Gt C addition to an industrial era atmosphere",
	5303	"experiment_id":"esm-yr2010CO2-CO2pulse",
	5304	"parent_activity_id":[
	5305	"CDRMIP"
	5306	],
	5307	"parent_experiment_id":[
	5308	"esm-yr2010CO2-control"
	5309	],
	5310	"required_model_components":[
	5311	"AOGCM",
	5312	"BGC"
	5313	],
	5314	"sub_experiment_id":[
	5315	"none"
	5316	]
	5317	},
	5318	"esm-yr2010CO2-cdr-pulse":{
	5319	"activity_id":[
	5320	"CDRMIP"
	5321	],
	5322	"additional_allowed_model_components":[
	5323	"AER",
	5324	"CHEM"
	5325	],
	5326	"experiment":"instantaneous 100 Gt C removal from industrial era atmosphere",
	5327	"experiment_id":"esm-yr2010CO2-cdr-pulse",
	5328	"parent_activity_id":[
	5329	"CDRMIP"
	5330	],
	5331	"parent_experiment_id":[
	5332	"esm-yr2010CO2-control"
	5333	],
	5334	"required_model_components":[
	5335	"AOGCM",
	5336	"BGC"
	5337	],
	5338	"sub_experiment_id":[
	5339	"none"
	5340	]
	5341	},
	5342	"esm-yr2010CO2-control":{
	5343	"activity_id":[
	5344	"CDRMIP"
	5345	],
	5346	"additional_allowed_model_components":[
	5347	"AER",
	5348	"CHEM"
	5349	],
	5350	"experiment":"historical emissions followed by fixed 2010 emissions (both model-diagnosed)",
	5351	"experiment_id":"esm-yr2010CO2-control",
	5352	"parent_activity_id":[
	5353	"CDRMIP"
	5354	],
	5355	"parent_experiment_id":[
	5356	"esm-piControl"
	5357	],
	5358	"required_model_components":[
	5359	"AOGCM",
	5360	"BGC"
	5361	],
	5362	"sub_experiment_id":[
	5363	"none"
	5364	]
	5365	},
	5366	"esm-yr2010CO2-noemit":{
	5367	"activity_id":[
	5368	"CDRMIP"
	5369	],
	5370	"additional_allowed_model_components":[
	5371	"AER",
	5372	"CHEM"
	5373	],
	5374	"experiment":"branches from esm-yr2010CO2-control with zero emissions",
	5375	"experiment_id":"esm-yr2010CO2-noemit",
	5376	"parent_activity_id":[
	5377	"CDRMIP"
	5378	],
	5379	"parent_experiment_id":[
	5380	"esm-yr2010CO2-control"
	5381	],
	5382	"required_model_components":[
	5383	"AOGCM",
	5384	"BGC"
	5385	],
	5386	"sub_experiment_id":[
	5387	"none"
	5388	]
	5389	},
	5390	"faf-all":{
	5391	"activity_id":[
	5392	"FAFMIP"
	5393	],
	5394	"additional_allowed_model_components":[
	5395	"AER",
	5396	"CHEM",
	5397	"BGC"
	5398	],
	5399	"experiment":"control plus perturbative surface fluxes of momentum, heat and water into ocean",
	5400	"experiment_id":"faf-all",
	5401	"parent_activity_id":[
	5402	"CMIP"
	5403	],
	5404	"parent_experiment_id":[
	5405	"piControl"
	5406	],
	5407	"required_model_components":[
	5408	"AOGCM"
	5409	],
	5410	"sub_experiment_id":[
	5411	"none"
	5412	]
	5413	},
	5414	"faf-antwater-stress":{
	5415	"activity_id":[
	5416	"FAFMIP"
	5417	],
	5418	"additional_allowed_model_components":[
	5419	"AER",
	5420	"CHEM",
	5421	"BGC"
	5422	],
	5423	"experiment":"control plus perturbative surface fluxes of momentum and freshwater into ocean, the latter around the coast of Antarctica only",
	5424	"experiment_id":"faf-antwater-stress",
	5425	"parent_activity_id":[
	5426	"CMIP"
	5427	],
	5428	"parent_experiment_id":[
	5429	"piControl"
	5430	],
	5431	"required_model_components":[
	5432	"AOGCM"
	5433	],
	5434	"sub_experiment_id":[
	5435	"none"
	5436	]
	5437	},
	5438	"faf-heat":{
	5439	"activity_id":[
	5440	"FAFMIP"
	5441	],
	5442	"additional_allowed_model_components":[
	5443	"AER",
	5444	"CHEM",
	5445	"BGC"
	5446	],
	5447	"experiment":"control plus perturbative surface flux of heat into ocean",
	5448	"experiment_id":"faf-heat",
	5449	"parent_activity_id":[
	5450	"CMIP"
	5451	],
	5452	"parent_experiment_id":[
	5453	"piControl"
	5454	],
	5455	"required_model_components":[
	5456	"AOGCM"
	5457	],
	5458	"sub_experiment_id":[
	5459	"none"
	5460	]
	5461	},
	5462	"faf-heat-NA0pct":{
	5463	"activity_id":[
	5464	"FAFMIP"
	5465	],
	5466	"additional_allowed_model_components":[
	5467	"AER",
	5468	"CHEM",
	5469	"BGC"
	5470	],
	5471	"experiment":"control plus perturbative surface flux of heat into ocean",
	5472	"experiment_id":"faf-heat-NA0pct",
	5473	"parent_activity_id":[
	5474	"CMIP"
	5475	],
	5476	"parent_experiment_id":[
	5477	"piControl"
	5478	],
	5479	"required_model_components":[
	5480	"AOGCM"
	5481	],
	5482	"sub_experiment_id":[
	5483	"none"
	5484	]
	5485	},
	5486	"faf-heat-NA50pct":{
	5487	"activity_id":[
	5488	"FAFMIP"
	5489	],
	5490	"additional_allowed_model_components":[
	5491	"AER",
	5492	"CHEM",
	5493	"BGC"
	5494	],
	5495	"experiment":"control plus perturbative surface flux of heat into ocean",
	5496	"experiment_id":"faf-heat-NA50pct",
	5497	"parent_activity_id":[
	5498	"CMIP"
	5499	],
	5500	"parent_experiment_id":[
	5501	"piControl"
	5502	],
	5503	"required_model_components":[
	5504	"AOGCM"
	5505	],
	5506	"sub_experiment_id":[
	5507	"none"
	5508	]
	5509	},
	5510	"faf-passiveheat":{
	5511	"activity_id":[
	5512	"FAFMIP"
	5513	],
	5514	"additional_allowed_model_components":[
	5515	"AER",
	5516	"CHEM",
	5517	"BGC"
	5518	],
	5519	"experiment":"control plus surface flux of passive heat tracer into ocean",
	5520	"experiment_id":"faf-passiveheat",
	5521	"parent_activity_id":[
	5522	"CMIP"
	5523	],
	5524	"parent_experiment_id":[
	5525	"piControl"
	5526	],
	5527	"required_model_components":[
	5528	"AOGCM"
	5529	],
	5530	"sub_experiment_id":[
	5531	"none"
	5532	]
	5533	},
	5534	"faf-stress":{
	5535	"activity_id":[
	5536	"FAFMIP"
	5537	],
	5538	"additional_allowed_model_components":[
	5539	"AER",
	5540	"CHEM",
	5541	"BGC"
	5542	],
	5543	"experiment":"control plus perturbative surface flux of momentum into ocean",
	5544	"experiment_id":"faf-stress",
	5545	"parent_activity_id":[
	5546	"CMIP"
	5547	],
	5548	"parent_experiment_id":[
	5549	"piControl"
	5550	],
	5551	"required_model_components":[
	5552	"AOGCM"
	5553	],
	5554	"sub_experiment_id":[
	5555	"none"
	5556	]
	5557	},
	5558	"faf-water":{
	5559	"activity_id":[
	5560	"FAFMIP"
	5561	],
	5562	"additional_allowed_model_components":[
	5563	"AER",
	5564	"CHEM",
	5565	"BGC"
	5566	],
	5567	"experiment":"control plus perturbative surface flux of water into ocean",
	5568	"experiment_id":"faf-water",
	5569	"parent_activity_id":[
	5570	"CMIP"
	5571	],
	5572	"parent_experiment_id":[
	5573	"piControl"
	5574	],
	5575	"required_model_components":[
	5576	"AOGCM"
	5577	],
	5578	"sub_experiment_id":[
	5579	"none"
	5580	]
	5581	},
	5582	"futSST-pdSIC":{
	5583	"activity_id":[
	5584	"PAMIP"
	5585	],
	5586	"additional_allowed_model_components":[
	5587	"AER",
	5588	"CHEM",
	5589	"BGC"
	5590	],
	5591	"experiment":"Atmosphere time slice with future SST and present day SIC",
	5592	"experiment_id":"futSST-pdSIC",
	5593	"parent_activity_id":[
	5594	"CMIP"
	5595	],
	5596	"parent_experiment_id":[
	5597	"amip"
	5598	],
	5599	"required_model_components":[
	5600	"AGCM"
	5601	],
	5602	"sub_experiment_id":[
	5603	"none"
	5604	]
	5605	},
	5606	"futureSST-4xCO2-solar":{
	5607	"activity_id":[
	5608	"GeoMIP"
	5609	],
	5610	"additional_allowed_model_components":[
	5611	"AER",
	5612	"CHEM"
	5613	],
	5614	"experiment":"year 100 SSTs from abrupt-4xCO2 with quadrupled CO2 and solar reduction",
	5615	"experiment_id":"futureSST-4xCO2-solar",
	5616	"parent_activity_id":[
	5617	"GeoMIP"
	5618	],
	5619	"parent_experiment_id":[
	5620	"G1"
	5621	],
	5622	"required_model_components":[
	5623	"AGCM"
	5624	],
	5625	"sub_experiment_id":[
	5626	"none"
	5627	]
	5628	},
	5629	"highres-future":{
	5630	"activity_id":[
	5631	"HighResMIP"
	5632	],
	5633	"additional_allowed_model_components":[
	5634	"AER"
	5635	],
	5636	"experiment":"coupled future 2015-2050 using a scenario as close to CMIP5 RCP8.5 as possible within CMIP6",
	5637	"experiment_id":"highres-future",
	5638	"parent_activity_id":[
	5639	"HighResMIP"
	5640	],
	5641	"parent_experiment_id":[
	5642	"hist-1950"
	5643	],
	5644	"required_model_components":[
	5645	"AOGCM"
	5646	],
	5647	"sub_experiment_id":[
	5648	"none"
	5649	]
	5650	},
	5651	"highresSST-4xCO2":{
	5652	"activity_id":[
	5653	"HighResMIP"
	5654	],
	5655	"additional_allowed_model_components":[
	5656	"AER"
	5657	],
	5658	"experiment":"highresSST-present SST with 4xCO2 concentrations",
	5659	"experiment_id":"highresSST-4xCO2",
	5660	"parent_activity_id":[
	5661	"HighResMIP"
	5662	],
	5663	"parent_experiment_id":[
	5664	"highresSST-present"
	5665	],
	5666	"required_model_components":[
	5667	"AGCM"
	5668	],
	5669	"sub_experiment_id":[
	5670	"none"
	5671	]
	5672	},
	5673	"highresSST-LAI":{
	5674	"activity_id":[
	5675	"HighResMIP"
	5676	],
	5677	"additional_allowed_model_components":[
	5678	"AER"
	5679	],
	5680	"experiment":"common LAI dataset within the highresSST-present experiment",
	5681	"experiment_id":"highresSST-LAI",
	5682	"parent_activity_id":[
	5683	"HighResMIP"
	5684	],
	5685	"parent_experiment_id":[
	5686	"highresSST-present"
	5687	],
	5688	"required_model_components":[
	5689	"AGCM"
	5690	],
	5691	"sub_experiment_id":[
	5692	"none"
	5693	]
	5694	},
	5695	"highresSST-future":{
	5696	"activity_id":[
	5697	"HighResMIP"
	5698	],
	5699	"additional_allowed_model_components":[
	5700	"AER"
	5701	],
	5702	"experiment":"forced atmosphere experiment for 2015-2050 using SST/sea-ice derived from CMIP5 RCP8.5 simulations and a scenario as close to RCP8.5 as possible within CMIP6",
	5703	"experiment_id":"highresSST-future",
	5704	"parent_activity_id":[
	5705	"HighResMIP"
	5706	],
	5707	"parent_experiment_id":[
	5708	"highresSST-present"
	5709	],
	5710	"required_model_components":[
	5711	"AGCM"
	5712	],
	5713	"sub_experiment_id":[
	5714	"none"
	5715	]
	5716	},
	5717	"highresSST-p4K":{
	5718	"activity_id":[
	5719	"HighResMIP"
	5720	],
	5721	"additional_allowed_model_components":[
	5722	"AER"
	5723	],
	5724	"experiment":"uniform 4K warming of highresSST-present SST",
	5725	"experiment_id":"highresSST-p4K",
	5726	"parent_activity_id":[
	5727	"HighResMIP"
	5728	],
	5729	"parent_experiment_id":[
	5730	"highresSST-present"
	5731	],
	5732	"required_model_components":[
	5733	"AGCM"
	5734	],
	5735	"sub_experiment_id":[
	5736	"none"
	5737	]
	5738	},
	5739	"highresSST-present":{
	5740	"activity_id":[
	5741	"HighResMIP"
	5742	],
	5743	"additional_allowed_model_components":[
	5744	"AER"
	5745	],
	5746	"experiment":"forced atmosphere experiment for 1950-2014",
	5747	"experiment_id":"highresSST-present",
	5748	"parent_activity_id":[
	5749	"no parent"
	5750	],
	5751	"parent_experiment_id":[
	5752	"no parent"
	5753	],
	5754	"required_model_components":[
	5755	"AGCM"
	5756	],
	5757	"sub_experiment_id":[
	5758	"none"
	5759	]
	5760	},
	5761	"highresSST-smoothed":{
	5762	"activity_id":[
	5763	"HighResMIP"
	5764	],
	5765	"additional_allowed_model_components":[
	5766	"AER"
	5767	],
	5768	"experiment":"smoothed SST version of highresSST-present",
	5769	"experiment_id":"highresSST-smoothed",
	5770	"parent_activity_id":[
	5771	"HighResMIP"
	5772	],
	5773	"parent_experiment_id":[
	5774	"highresSST-present"
	5775	],
	5776	"required_model_components":[
	5777	"AGCM"
	5778	],
	5779	"sub_experiment_id":[
	5780	"none"
	5781	]
	5782	},
	5783	"hist-1950":{
	5784	"activity_id":[
	5785	"HighResMIP"
	5786	],
	5787	"additional_allowed_model_components":[
	5788	"AER"
	5789	],
	5790	"experiment":"coupled historical 1950-2014",
	5791	"experiment_id":"hist-1950",
	5792	"parent_activity_id":[
	5793	"HighResMIP"
	5794	],
	5795	"parent_experiment_id":[
	5796	"spinup-1950"
	5797	],
	5798	"required_model_components":[
	5799	"AOGCM"
	5800	],
	5801	"sub_experiment_id":[
	5802	"none"
	5803	]
	5804	},
	5805	"hist-1950HC":{
	5806	"activity_id":[
	5807	"AerChemMIP"
	5808	],
	5809	"additional_allowed_model_components":[
	5810	"BGC"
	5811	],
	5812	"experiment":"historical forcing, but with1950s halocarbon concentrations; initialized in 1950",
	5813	"experiment_id":"hist-1950HC",
	5814	"parent_activity_id":[
	5815	"CMIP"
	5816	],
	5817	"parent_experiment_id":[
	5818	"historical"
	5819	],
	5820	"required_model_components":[
	5821	"AOGCM",
	5822	"AER",
	5823	"CHEM"
	5824	],
	5825	"sub_experiment_id":[
	5826	"none"
	5827	]
	5828	},
	5829	"hist-CO2":{
	5830	"activity_id":[
	5831	"DAMIP"
	5832	],
	5833	"additional_allowed_model_components":[
	5834	"AER",
	5835	"CHEM",
	5836	"BGC"
	5837	],
	5838	"experiment":"historical CO2-only run",
	5839	"experiment_id":"hist-CO2",
	5840	"parent_activity_id":[
	5841	"CMIP"
	5842	],
	5843	"parent_experiment_id":[
	5844	"piControl"
	5845	],
	5846	"required_model_components":[
	5847	"AOGCM"
	5848	],
	5849	"sub_experiment_id":[
	5850	"none"
	5851	]
	5852	},
	5853	"hist-GHG":{
	5854	"activity_id":[
	5855	"DAMIP"
	5856	],
	5857	"additional_allowed_model_components":[
	5858	"AER",
	5859	"CHEM",
	5860	"BGC"
	5861	],
	5862	"experiment":"historical well-mixed GHG-only run",
	5863	"experiment_id":"hist-GHG",
	5864	"parent_activity_id":[
	5865	"CMIP"
	5866	],
	5867	"parent_experiment_id":[
	5868	"piControl"
	5869	],
	5870	"required_model_components":[
	5871	"AOGCM"
	5872	],
	5873	"sub_experiment_id":[
	5874	"none"
	5875	]
	5876	},
	5877	"hist-GHG-cmip5":{
	5878	"activity_id":[
	5879	"DAMIP"
	5880	],
	5881	"additional_allowed_model_components":[
	5882	"AER",
	5883	"CHEM",
	5884	"BGC"
	5885	],
	5886	"experiment":"historical well-mixed GHG-only run (CMIP5-era historical [1850-2005] and RCP4.5 [2006-2020] forcing)",
	5887	"experiment_id":"hist-GHG-cmip5",
	5888	"parent_activity_id":[
	5889	"CMIP"
	5890	],
	5891	"parent_experiment_id":[
	5892	"piControl-cmip5"
	5893	],
	5894	"required_model_components":[
	5895	"AOGCM"
	5896	],
	5897	"sub_experiment_id":[
	5898	"none"
	5899	]
	5900	},
	5901	"hist-aer":{
	5902	"activity_id":[
	5903	"DAMIP"
	5904	],
	5905	"additional_allowed_model_components":[
	5906	"AER",
	5907	"CHEM",
	5908	"BGC"
	5909	],
	5910	"experiment":"historical anthropogenic aerosols-only run",
	5911	"experiment_id":"hist-aer",
	5912	"parent_activity_id":[
	5913	"CMIP"
	5914	],
	5915	"parent_experiment_id":[
	5916	"piControl"
	5917	],
	5918	"required_model_components":[
	5919	"AOGCM"
	5920	],
	5921	"sub_experiment_id":[
	5922	"none"
	5923	]
	5924	},
	5925	"hist-aer-cmip5":{
	5926	"activity_id":[
	5927	"DAMIP"
	5928	],
	5929	"additional_allowed_model_components":[
	5930	"AER",
	5931	"CHEM",
	5932	"BGC"
	5933	],
	5934	"experiment":"historical anthropogenic aerosols-only run (CMIP5-era historical [1850-2005] and RCP4.5 [2006-2020] forcing)",
	5935	"experiment_id":"hist-aer-cmip5",
	5936	"parent_activity_id":[
	5937	"CMIP"
	5938	],
	5939	"parent_experiment_id":[
	5940	"piControl-cmip5"
	5941	],
	5942	"required_model_components":[
	5943	"AOGCM"
	5944	],
	5945	"sub_experiment_id":[
	5946	"none"
	5947	]
	5948	},
	5949	"hist-all-aer2":{
	5950	"activity_id":[
	5951	"DAMIP"
	5952	],
	5953	"additional_allowed_model_components":[
	5954	"AER",
	5955	"CHEM",
	5956	"BGC"
	5957	],
	5958	"experiment":"historical ALL-forcing run with alternate estimates of aerosol forcing",
	5959	"experiment_id":"hist-all-aer2",
	5960	"parent_activity_id":[
	5961	"CMIP"
	5962	],
	5963	"parent_experiment_id":[
	5964	"piControl"
	5965	],
	5966	"required_model_components":[
	5967	"AOGCM"
	5968	],
	5969	"sub_experiment_id":[
	5970	"none"
	5971	]
	5972	},
	5973	"hist-all-nat2":{
	5974	"activity_id":[
	5975	"DAMIP"
	5976	],
	5977	"additional_allowed_model_components":[
	5978	"AER",
	5979	"CHEM",
	5980	"BGC"
	5981	],
	5982	"experiment":"historical ALL-forcing run with alternate estimates of natural forcing",
	5983	"experiment_id":"hist-all-nat2",
	5984	"parent_activity_id":[
	5985	"CMIP"
	5986	],
	5987	"parent_experiment_id":[
	5988	"piControl"
	5989	],
	5990	"required_model_components":[
	5991	"AOGCM"
	5992	],
	5993	"sub_experiment_id":[
	5994	"none"
	5995	]
	5996	},
	5997	"hist-bgc":{
	5998	"activity_id":[
	5999	"C4MIP"
	6000	],
	6001	"additional_allowed_model_components":[
	6002	"AER",
	6003	"CHEM"
	6004	],
	6005	"experiment":"biogeochemically-coupled version of the simulation of the recent past with CO2 concentration prescribed",
	6006	"experiment_id":"hist-bgc",
	6007	"parent_activity_id":[
	6008	"CMIP"
	6009	],
	6010	"parent_experiment_id":[
	6011	"piControl"
	6012	],
	6013	"required_model_components":[
	6014	"AOGCM",
	6015	"BGC"
	6016	],
	6017	"sub_experiment_id":[
	6018	"none"
	6019	]
	6020	},
	6021	"hist-nat":{
	6022	"activity_id":[
	6023	"DAMIP"
	6024	],
	6025	"additional_allowed_model_components":[
	6026	"AER",
	6027	"CHEM",
	6028	"BGC"
	6029	],
	6030	"experiment":"historical natural-only run",
	6031	"experiment_id":"hist-nat",
	6032	"parent_activity_id":[
	6033	"CMIP"
	6034	],
	6035	"parent_experiment_id":[
	6036	"piControl"
	6037	],
	6038	"required_model_components":[
	6039	"AOGCM"
	6040	],
	6041	"sub_experiment_id":[
	6042	"none"
	6043	]
	6044	},
	6045	"hist-nat-cmip5":{
	6046	"activity_id":[
	6047	"DAMIP"
	6048	],
	6049	"additional_allowed_model_components":[
	6050	"AER",
	6051	"CHEM",
	6052	"BGC"
	6053	],
	6054	"experiment":"historical natural-only run (CMIP5-era historical [1850-2005] and RCP4.5 [2006-2020] forcing)",
	6055	"experiment_id":"hist-nat-cmip5",
	6056	"parent_activity_id":[
	6057	"CMIP"
	6058	],
	6059	"parent_experiment_id":[
	6060	"piControl-cmip5"
	6061	],
	6062	"required_model_components":[
	6063	"AOGCM"
	6064	],
	6065	"sub_experiment_id":[
	6066	"none"
	6067	]
	6068	},
	6069	"hist-noLu":{
	6070	"activity_id":[
	6071	"LUMIP"
	6072	],
	6073	"additional_allowed_model_components":[
	6074	"AER",
	6075	"CHEM",
	6076	"BGC"
	6077	],
	6078	"experiment":"historical with no land-use change",
	6079	"experiment_id":"hist-noLu",
	6080	"parent_activity_id":[
	6081	"CMIP"
	6082	],
	6083	"parent_experiment_id":[
	6084	"piControl"
	6085	],
	6086	"required_model_components":[
	6087	"AOGCM"
	6088	],
	6089	"sub_experiment_id":[
	6090	"none"
	6091	]
	6092	},
	6093	"hist-piAer":{
	6094	"activity_id":[
	6095	"AerChemMIP"
	6096	],
	6097	"additional_allowed_model_components":[
	6098	"CHEM",
	6099	"BGC"
	6100	],
	6101	"experiment":"historical forcing, but with pre-industrial aerosol emissions",
	6102	"experiment_id":"hist-piAer",
	6103	"parent_activity_id":[
	6104	"CMIP"
	6105	],
	6106	"parent_experiment_id":[
	6107	"piControl"
	6108	],
	6109	"required_model_components":[
	6110	"AOGCM",
	6111	"AER"
	6112	],
	6113	"sub_experiment_id":[
	6114	"none"
	6115	]
	6116	},
	6117	"hist-piNTCF":{
	6118	"activity_id":[
	6119	"AerChemMIP"
	6120	],
	6121	"additional_allowed_model_components":[
	6122	"CHEM",
	6123	"BGC"
	6124	],
	6125	"experiment":"historical forcing, but with pre-industrial NTCF emissions",
	6126	"experiment_id":"hist-piNTCF",
	6127	"parent_activity_id":[
	6128	"CMIP"
	6129	],
	6130	"parent_experiment_id":[
	6131	"piControl"
	6132	],
	6133	"required_model_components":[
	6134	"AOGCM",
	6135	"AER"
	6136	],
	6137	"sub_experiment_id":[
	6138	"none"
	6139	]
	6140	},
	6141	"hist-resAMO":{
	6142	"activity_id":[
	6143	"GMMIP"
	6144	],
	6145	"additional_allowed_model_components":[
	6146	"AER",
	6147	"CHEM",
	6148	"BGC"
	6149	],
	6150	"experiment":"initialized from \"historical\" run year 1870 and SSTs in the AMO domain (0deg-70degN, 70degW-0deg) restored to AMIP SSTs with historical forcings",
	6151	"experiment_id":"hist-resAMO",
	6152	"parent_activity_id":[
	6153	"CMIP"
	6154	],
	6155	"parent_experiment_id":[
	6156	"historical"
	6157	],
	6158	"required_model_components":[
	6159	"AOGCM"
	6160	],
	6161	"sub_experiment_id":[
	6162	"none"
	6163	]
	6164	},
	6165	"hist-resIPO":{
	6166	"activity_id":[
	6167	"GMMIP"
	6168	],
	6169	"additional_allowed_model_components":[
	6170	"AER",
	6171	"CHEM",
	6172	"BGC"
	6173	],
	6174	"experiment":"initialized from \"historical\" run year 1870 and SSTs in tropical lobe of the IPO domain (20degS-20degN, 175degE-75degW) restored to AMIP SSTs with historical forcings",
	6175	"experiment_id":"hist-resIPO",
	6176	"parent_activity_id":[
	6177	"CMIP"
	6178	],
	6179	"parent_experiment_id":[
	6180	"historical"
	6181	],
	6182	"required_model_components":[
	6183	"AOGCM"
	6184	],
	6185	"sub_experiment_id":[
	6186	"none"
	6187	]
	6188	},
	6189	"hist-sol":{
	6190	"activity_id":[
	6191	"DAMIP"
	6192	],
	6193	"additional_allowed_model_components":[
	6194	"AER",
	6195	"CHEM",
	6196	"BGC"
	6197	],
	6198	"experiment":"historical solar-only run",
	6199	"experiment_id":"hist-sol",
	6200	"parent_activity_id":[
	6201	"CMIP"
	6202	],
	6203	"parent_experiment_id":[
	6204	"piControl"
	6205	],
	6206	"required_model_components":[
	6207	"AOGCM"
	6208	],
	6209	"sub_experiment_id":[
	6210	"none"
	6211	]
	6212	},
	6213	"hist-spAer-aer":{
	6214	"activity_id":[
	6215	"RFMIP"
	6216	],
	6217	"additional_allowed_model_components":[
	6218	"CHEM",
	6219	"BGC"
	6220	],
	6221	"experiment":"historical simulation with specified anthropogenic aerosols, no other forcings",
	6222	"experiment_id":"hist-spAer-aer",
	6223	"parent_activity_id":[
	6224	"CMIP"
	6225	],
	6226	"parent_experiment_id":[
	6227	"piControl"
	6228	],
	6229	"required_model_components":[
	6230	"AOGCM"
	6231	],
	6232	"sub_experiment_id":[
	6233	"none"
	6234	]
	6235	},
	6236	"hist-spAer-all":{
	6237	"activity_id":[
	6238	"RFMIP"
	6239	],
	6240	"additional_allowed_model_components":[
	6241	"CHEM",
	6242	"BGC"
	6243	],
	6244	"experiment":"historical simulation with specified anthropogenic aerosols",
	6245	"experiment_id":"hist-spAer-all",
	6246	"parent_activity_id":[
	6247	"CMIP"
	6248	],
	6249	"parent_experiment_id":[
	6250	"piControl"
	6251	],
	6252	"required_model_components":[
	6253	"AOGCM"
	6254	],
	6255	"sub_experiment_id":[
	6256	"none"
	6257	]
	6258	},
	6259	"hist-stratO3":{
	6260	"activity_id":[
	6261	"DAMIP"
	6262	],
	6263	"additional_allowed_model_components":[
	6264	"AER",
	6265	"BGC"
	6266	],
	6267	"experiment":"historical stratospheric ozone-only run",
	6268	"experiment_id":"hist-stratO3",
	6269	"parent_activity_id":[
	6270	"CMIP"
	6271	],
	6272	"parent_experiment_id":[
	6273	"piControl"
	6274	],
	6275	"required_model_components":[
	6276	"AOGCM"
	6277	],
	6278	"sub_experiment_id":[
	6279	"none"
	6280	]
	6281	},
	6282	"hist-totalO3":{
	6283	"activity_id":[
	6284	"DAMIP"
	6285	],
	6286	"additional_allowed_model_components":[
	6287	"AER",
	6288	"BGC"
	6289	],
	6290	"experiment":"historical total ozone-only run",
	6291	"experiment_id":"hist-totalO3",
	6292	"parent_activity_id":[
	6293	"CMIP"
	6294	],
	6295	"parent_experiment_id":[
	6296	"piControl"
	6297	],
	6298	"required_model_components":[
	6299	"AOGCM"
	6300	],
	6301	"sub_experiment_id":[
	6302	"none"
	6303	]
	6304	},
	6305	"hist-volc":{
	6306	"activity_id":[
	6307	"DAMIP"
	6308	],
	6309	"additional_allowed_model_components":[
	6310	"AER",
	6311	"CHEM",
	6312	"BGC"
	6313	],
	6314	"experiment":"historical volcanic-only run",
	6315	"experiment_id":"hist-volc",
	6316	"parent_activity_id":[
	6317	"CMIP"
	6318	],
	6319	"parent_experiment_id":[
	6320	"piControl"
	6321	],
	6322	"required_model_components":[
	6323	"AOGCM"
	6324	],
	6325	"sub_experiment_id":[
	6326	"none"
	6327	]
	6328	},
	6329	"histSST":{
	6330	"activity_id":[
	6331	"AerChemMIP"
	6332	],
	6333	"additional_allowed_model_components":[
	6334	"CHEM",
	6335	"BGC"
	6336	],
	6337	"experiment":"historical prescribed SSTs and historical forcing",
	6338	"experiment_id":"histSST",
	6339	"parent_activity_id":[
	6340	"CMIP"
	6341	],
	6342	"parent_experiment_id":[
	6343	"piControl"
	6344	],
	6345	"required_model_components":[
	6346	"AGCM",
	6347	"AER"
	6348	],
	6349	"sub_experiment_id":[
	6350	"none"
	6351	]
	6352	},
	6353	"histSST-1950HC":{
	6354	"activity_id":[
	6355	"AerChemMIP"
	6356	],
	6357	"additional_allowed_model_components":[
	6358	"BGC"
	6359	],
	6360	"experiment":"historical SSTs and historical forcing, but with 1950 halocarbon concentrations. Experiment is initialized from histSST (AerChemMIP) simulation from January 1950",
	6361	"experiment_id":"histSST-1950HC",
	6362	"parent_activity_id":[
	6363	"AerChemMIP"
	6364	],
	6365	"parent_experiment_id":[
	6366	"histSST"
	6367	],
	6368	"required_model_components":[
	6369	"AGCM",
	6370	"AER",
	6371	"CHEM"
	6372	],
	6373	"sub_experiment_id":[
	6374	"none"
	6375	]
	6376	},
	6377	"histSST-noLu":{
	6378	"activity_id":[
	6379	"AerChemMIP"
	6380	],
	6381	"additional_allowed_model_components":[
	6382	"AER",
	6383	"CHEM",
	6384	"BGC"
	6385	],
	6386	"experiment":"historical SSTs and historical forcing, but with pre-industrial LULCC",
	6387	"experiment_id":"histSST-noLu",
	6388	"parent_activity_id":[
	6389	"CMIP"
	6390	],
	6391	"parent_experiment_id":[
	6392	"piControl"
	6393	],
	6394	"required_model_components":[
	6395	"AGCM"
	6396	],
	6397	"sub_experiment_id":[
	6398	"none"
	6399	]
	6400	},
	6401	"histSST-piAer":{
	6402	"activity_id":[
	6403	"AerChemMIP"
	6404	],
	6405	"additional_allowed_model_components":[
	6406	"CHEM",
	6407	"BGC"
	6408	],
	6409	"experiment":"historical SSTs and historical forcing, but with pre-industrial aerosol emissions",
	6410	"experiment_id":"histSST-piAer",
	6411	"parent_activity_id":[
	6412	"CMIP"
	6413	],
	6414	"parent_experiment_id":[
	6415	"piControl"
	6416	],
	6417	"required_model_components":[
	6418	"AGCM",
	6419	"AER"
	6420	],
	6421	"sub_experiment_id":[
	6422	"none"
	6423	]
	6424	},
	6425	"histSST-piCH4":{
	6426	"activity_id":[
	6427	"AerChemMIP"
	6428	],
	6429	"additional_allowed_model_components":[
	6430	"BGC"
	6431	],
	6432	"experiment":"historical SSTs and historical forcing, but with pre-industrial methane concentrations",
	6433	"experiment_id":"histSST-piCH4",
	6434	"parent_activity_id":[
	6435	"CMIP"
	6436	],
	6437	"parent_experiment_id":[
	6438	"piControl"
	6439	],
	6440	"required_model_components":[
	6441	"AGCM",
	6442	"AER",
	6443	"CHEM"
	6444	],
	6445	"sub_experiment_id":[
	6446	"none"
	6447	]
	6448	},
	6449	"histSST-piN2O":{
	6450	"activity_id":[
	6451	"AerChemMIP"
	6452	],
	6453	"additional_allowed_model_components":[
	6454	"BGC"
	6455	],
	6456	"experiment":"historical SSTs and historical forcings, but with pre-industrial N2O concentrations",
	6457	"experiment_id":"histSST-piN2O",
	6458	"parent_activity_id":[
	6459	"CMIP"
	6460	],
	6461	"parent_experiment_id":[
	6462	"piControl"
	6463	],
	6464	"required_model_components":[
	6465	"AGCM",
	6466	"AER",
	6467	"CHEM"
	6468	],
	6469	"sub_experiment_id":[
	6470	"none"
	6471	]
	6472	},
	6473	"histSST-piNTCF":{
	6474	"activity_id":[
	6475	"AerChemMIP"
	6476	],
	6477	"additional_allowed_model_components":[
	6478	"CHEM",
	6479	"BGC"
	6480	],
	6481	"experiment":"historical SSTs and historical forcing, but with pre-industrial NTCF emissions",
	6482	"experiment_id":"histSST-piNTCF",
	6483	"parent_activity_id":[
	6484	"CMIP"
	6485	],
	6486	"parent_experiment_id":[
	6487	"piControl"
	6488	],
	6489	"required_model_components":[
	6490	"AGCM",
	6491	"AER"
	6492	],
	6493	"sub_experiment_id":[
	6494	"none"
	6495	]
	6496	},
	6497	"histSST-piO3":{
	6498	"activity_id":[
	6499	"AerChemMIP"
	6500	],
	6501	"additional_allowed_model_components":[
	6502	"BGC"
	6503	],
	6504	"experiment":"historical SSTs and historical forcing, but with pre-industrial ozone precursor emissions",
	6505	"experiment_id":"histSST-piO3",
	6506	"parent_activity_id":[
	6507	"CMIP"
	6508	],
	6509	"parent_experiment_id":[
	6510	"piControl"
	6511	],
	6512	"required_model_components":[
	6513	"AGCM",
	6514	"AER",
	6515	"CHEM"
	6516	],
	6517	"sub_experiment_id":[
	6518	"none"
	6519	]
	6520	},
	6521	"historical":{
	6522	"activity_id":[
	6523	"CMIP"
	6524	],
	6525	"additional_allowed_model_components":[
	6526	"AER",
	6527	"CHEM",
	6528	"BGC"
	6529	],
	6530	"experiment":"all-forcing simulation of the recent past",
	6531	"experiment_id":"historical",
	6532	"parent_activity_id":[
	6533	"CMIP",
	6534	"PMIP"
	6535	],
	6536	"parent_experiment_id":[
	6537	"piControl",
	6538	"past1000",
	6539	"past2k"
	6540	],
	6541	"required_model_components":[
	6542	"AOGCM"
	6543	],
	6544	"sub_experiment_id":[
	6545	"none"
	6546	]
	6547	},
	6548	"historical-cmip5":{
	6549	"activity_id":[
	6550	"CMIP"
	6551	],
	6552	"additional_allowed_model_components":[
	6553	"AER",
	6554	"CHEM",
	6555	"BGC"
	6556	],
	6557	"experiment":"all-forcing simulation of the recent past (CMIP5-era [1850-2005] forcing)",
	6558	"experiment_id":"historical-cmip5",
	6559	"parent_activity_id":[
	6560	"CMIP"
	6561	],
	6562	"parent_experiment_id":[
	6563	"piControl-cmip5"
	6564	],
	6565	"required_model_components":[
	6566	"AOGCM"
	6567	],
	6568	"sub_experiment_id":[
	6569	"none"
	6570	]
	6571	},
	6572	"historical-ext":{
	6573	"activity_id":[
	6574	"CMIP"
	6575	],
	6576	"additional_allowed_model_components":[
	6577	"AER",
	6578	"CHEM",
	6579	"BGC"
	6580	],
	6581	"experiment":"post-2014 all-forcing simulation",
	6582	"experiment_id":"historical-ext",
	6583	"parent_activity_id":[
	6584	"CMIP"
	6585	],
	6586	"parent_experiment_id":[
	6587	"historical"
	6588	],
	6589	"required_model_components":[
	6590	"AOGCM"
	6591	],
	6592	"sub_experiment_id":[
	6593	"none"
	6594	]
	6595	},
	6596	"historical-withism":{
	6597	"activity_id":[
	6598	"ISMIP6"
	6599	],
	6600	"additional_allowed_model_components":[
	6601	"AER",
	6602	"CHEM",
	6603	"BGC"
	6604	],
	6605	"experiment":"historical with interactive ice sheet",
	6606	"experiment_id":"historical-withism",
	6607	"parent_activity_id":[
	6608	"ISMIP6"
	6609	],
	6610	"parent_experiment_id":[
	6611	"piControl-withism"
	6612	],
	6613	"required_model_components":[
	6614	"AOGCM",
	6615	"ISM"
	6616	],
	6617	"sub_experiment_id":[
	6618	"none"
	6619	]
	6620	},
	6621	"ism-1pctCO2to4x-self":{
	6622	"activity_id":[
	6623	"ISMIP6"
	6624	],
	6625	"additional_allowed_model_components":[
	6626	""
	6627	],
	6628	"experiment":"offline ice sheet model forced by ISM's own AOGCM 1pctCO2to4x output",
	6629	"experiment_id":"ism-1pctCO2to4x-self",
	6630	"parent_activity_id":[
	6631	"ISMIP6"
	6632	],
	6633	"parent_experiment_id":[
	6634	"ism-piControl-self"
	6635	],
	6636	"required_model_components":[
	6637	"ISM"
	6638	],
	6639	"sub_experiment_id":[
	6640	"none"
	6641	]
	6642	},
	6643	"ism-1pctCO2to4x-std":{
	6644	"activity_id":[
	6645	"ISMIP6"
	6646	],
	6647	"additional_allowed_model_components":[
	6648	""
	6649	],
	6650	"experiment":"offline ice sheet model forced by ISMIP6-specified AOGCM 1pctCO2to4x output",
	6651	"experiment_id":"ism-1pctCO2to4x-std",
	6652	"parent_activity_id":[
	6653	"ISMIP6"
	6654	],
	6655	"parent_experiment_id":[
	6656	"ism-pdControl-std"
	6657	],
	6658	"required_model_components":[
	6659	"ISM"
	6660	],
	6661	"sub_experiment_id":[
	6662	"none"
	6663	]
	6664	},
	6665	"ism-amip-std":{
	6666	"activity_id":[
	6667	"ISMIP6"
	6668	],
	6669	"additional_allowed_model_components":[
	6670	""
	6671	],
	6672	"experiment":"offline ice sheet forced by ISMIP6-specified AGCM AMIP output",
	6673	"experiment_id":"ism-amip-std",
	6674	"parent_activity_id":[
	6675	"ISMIP6"
	6676	],
	6677	"parent_experiment_id":[
	6678	"ism-ctrl-std"
	6679	],
	6680	"required_model_components":[
	6681	"ISM"
	6682	],
	6683	"sub_experiment_id":[
	6684	"none"
	6685	]
	6686	},
	6687	"ism-asmb-std":{
	6688	"activity_id":[
	6689	"ISMIP6"
	6690	],
	6691	"additional_allowed_model_components":[
	6692	""
	6693	],
	6694	"experiment":"offline ice sheet forced by initMIP synthetic atmospheric experiment",
	6695	"experiment_id":"ism-asmb-std",
	6696	"parent_activity_id":[
	6697	"ISMIP6"
	6698	],
	6699	"parent_experiment_id":[
	6700	"ism-ctrl-std"
	6701	],
	6702	"required_model_components":[
	6703	"ISM"
	6704	],
	6705	"sub_experiment_id":[
	6706	"none"
	6707	]
	6708	},
	6709	"ism-bsmb-std":{
	6710	"activity_id":[
	6711	"ISMIP6"
	6712	],
	6713	"additional_allowed_model_components":[
	6714	""
	6715	],
	6716	"experiment":"offline ice sheet forced by initMIP synthetic oceanic experiment",
	6717	"experiment_id":"ism-bsmb-std",
	6718	"parent_activity_id":[
	6719	"ISMIP6"
	6720	],
	6721	"parent_experiment_id":[
	6722	"ism-ctrl-std"
	6723	],
	6724	"required_model_components":[
	6725	"ISM"
	6726	],
	6727	"sub_experiment_id":[
	6728	"none"
	6729	]
	6730	},
	6731	"ism-ctrl-std":{
	6732	"activity_id":[
	6733	"ISMIP6"
	6734	],
	6735	"additional_allowed_model_components":[
	6736	""
	6737	],
	6738	"experiment":"offline ice sheet model initMIP control",
	6739	"experiment_id":"ism-ctrl-std",
	6740	"parent_activity_id":[
	6741	"no parent"
	6742	],
	6743	"parent_experiment_id":[
	6744	"no parent"
	6745	],
	6746	"required_model_components":[
	6747	"ISM"
	6748	],
	6749	"sub_experiment_id":[
	6750	"none"
	6751	]
	6752	},
	6753	"ism-historical-self":{
	6754	"activity_id":[
	6755	"ISMIP6"
	6756	],
	6757	"additional_allowed_model_components":[
	6758	""
	6759	],
	6760	"experiment":"offline ice sheet forced by ISM's own AOGCM historical output",
	6761	"experiment_id":"ism-historical-self",
	6762	"parent_activity_id":[
	6763	"ISMIP6"
	6764	],
	6765	"parent_experiment_id":[
	6766	"ism-piControl-self"
	6767	],
	6768	"required_model_components":[
	6769	"ISM"
	6770	],
	6771	"sub_experiment_id":[
	6772	"none"
	6773	]
	6774	},
	6775	"ism-historical-std":{
	6776	"activity_id":[
	6777	"ISMIP6"
	6778	],
	6779	"additional_allowed_model_components":[
	6780	""
	6781	],
	6782	"experiment":"offline ice sheet forced by ISMIP6-specified AOGCM historical output",
	6783	"experiment_id":"ism-historical-std",
	6784	"parent_activity_id":[
	6785	"ISMIP6"
	6786	],
	6787	"parent_experiment_id":[
	6788	"ism-pdControl-std"
	6789	],
	6790	"required_model_components":[
	6791	"ISM"
	6792	],
	6793	"sub_experiment_id":[
	6794	"none"
	6795	]
	6796	},
	6797	"ism-lig127k-std":{
	6798	"activity_id":[
	6799	"ISMIP6"
	6800	],
	6801	"additional_allowed_model_components":[
	6802	""
	6803	],
	6804	"experiment":"offline ice sheet forced by ISMIP6-specified AGCM last interglacial output",
	6805	"experiment_id":"ism-lig127k-std",
	6806	"parent_activity_id":[
	6807	"no parent"
	6808	],
	6809	"parent_experiment_id":[
	6810	"no parent"
	6811	],
	6812	"required_model_components":[
	6813	"ISM"
	6814	],
	6815	"sub_experiment_id":[
	6816	"none"
	6817	]
	6818	},
	6819	"ism-pdControl-std":{
	6820	"activity_id":[
	6821	"ISMIP6"
	6822	],
	6823	"additional_allowed_model_components":[
	6824	""
	6825	],
	6826	"experiment":"offline ice sheet forced by ISMIP6-specified AOGCM pdControl output",
	6827	"experiment_id":"ism-pdControl-std",
	6828	"parent_activity_id":[
	6829	"no parent"
	6830	],
	6831	"parent_experiment_id":[
	6832	"no parent"
	6833	],
	6834	"required_model_components":[
	6835	"ISM"
	6836	],
	6837	"sub_experiment_id":[
	6838	"none"
	6839	]
	6840	},
	6841	"ism-piControl-self":{
	6842	"activity_id":[
	6843	"ISMIP6"
	6844	],
	6845	"additional_allowed_model_components":[
	6846	""
	6847	],
	6848	"experiment":"offline ice sheet forced by ISM's own AOGCM piControl output",
	6849	"experiment_id":"ism-piControl-self",
	6850	"parent_activity_id":[
	6851	"no parent"
	6852	],
	6853	"parent_experiment_id":[
	6854	"no parent"
	6855	],
	6856	"required_model_components":[
	6857	"ISM"
	6858	],
	6859	"sub_experiment_id":[
	6860	"none"
	6861	]
	6862	},
	6863	"ism-ssp585-self":{
	6864	"activity_id":[
	6865	"ISMIP6"
	6866	],
	6867	"additional_allowed_model_components":[
	6868	""
	6869	],
	6870	"experiment":"offline ice sheet forced by ISM's own AOGCM ssp585 output",
	6871	"experiment_id":"ism-ssp585-self",
	6872	"parent_activity_id":[
	6873	"ISMIP6"
	6874	],
	6875	"parent_experiment_id":[
	6876	"ism-historical-self"
	6877	],
	6878	"required_model_components":[
	6879	"ISM"
	6880	],
	6881	"sub_experiment_id":[
	6882	"none"
	6883	]
	6884	},
	6885	"ism-ssp585-std":{
	6886	"activity_id":[
	6887	"ISMIP6"
	6888	],
	6889	"additional_allowed_model_components":[
	6890	""
	6891	],
	6892	"experiment":"offline ice sheet forced by ISMIP6-specified AOGCM ssp585 output",
	6893	"experiment_id":"ism-ssp585-std",
	6894	"parent_activity_id":[
	6895	"ISMIP6"
	6896	],
	6897	"parent_experiment_id":[
	6898	"ism-historical-std"
	6899	],
	6900	"required_model_components":[
	6901	"ISM"
	6902	],
	6903	"sub_experiment_id":[
	6904	"none"
	6905	]
	6906	},
	6907	"land-cCO2":{
	6908	"activity_id":[
	6909	"LUMIP"
	6910	],
	6911	"additional_allowed_model_components":[
	6912	""
	6913	],
	6914	"experiment":"historical land-only constant CO2",
	6915	"experiment_id":"land-cCO2",
	6916	"parent_activity_id":[
	6917	"no parent"
	6918	],
	6919	"parent_experiment_id":[
	6920	"no parent"
	6921	],
	6922	"required_model_components":[
	6923	"LAND",
	6924	"BGC"
	6925	],
	6926	"sub_experiment_id":[
	6927	"none"
	6928	]
	6929	},
	6930	"land-cClim":{
	6931	"activity_id":[
	6932	"LUMIP"
	6933	],
	6934	"additional_allowed_model_components":[
	6935	""
	6936	],
	6937	"experiment":"historical land-only constant climate",
	6938	"experiment_id":"land-cClim",
	6939	"parent_activity_id":[
	6940	"no parent"
	6941	],
	6942	"parent_experiment_id":[
	6943	"no parent"
	6944	],
	6945	"required_model_components":[
	6946	"LAND",
	6947	"BGC"
	6948	],
	6949	"sub_experiment_id":[
	6950	"none"
	6951	]
	6952	},
	6953	"land-crop-grass":{
	6954	"activity_id":[
	6955	"LUMIP"
	6956	],
	6957	"additional_allowed_model_components":[
	6958	""
	6959	],
	6960	"experiment":"historical land-only with cropland as natural grassland",
	6961	"experiment_id":"land-crop-grass",
	6962	"parent_activity_id":[
	6963	"no parent"
	6964	],
	6965	"parent_experiment_id":[
	6966	"no parent"
	6967	],
	6968	"required_model_components":[
	6969	"LAND",
	6970	"BGC"
	6971	],
	6972	"sub_experiment_id":[
	6973	"none"
	6974	]
	6975	},
	6976	"land-crop-noFert":{
	6977	"activity_id":[
	6978	"LUMIP"
	6979	],
	6980	"additional_allowed_model_components":[
	6981	""
	6982	],
	6983	"experiment":"historical land-only with no fertilizer",
	6984	"experiment_id":"land-crop-noFert",
	6985	"parent_activity_id":[
	6986	"no parent"
	6987	],
	6988	"parent_experiment_id":[
	6989	"no parent"
	6990	],
	6991	"required_model_components":[
	6992	"LAND",
	6993	"BGC"
	6994	],
	6995	"sub_experiment_id":[
	6996	"none"
	6997	]
	6998	},
	6999	"land-crop-noIrrig":{
	7000	"activity_id":[
	7001	"LUMIP"
	7002	],
	7003	"additional_allowed_model_components":[
	7004	""
	7005	],
	7006	"experiment":"historical land-only with no irrigation",
	7007	"experiment_id":"land-crop-noIrrig",
	7008	"parent_activity_id":[
	7009	"no parent"
	7010	],
	7011	"parent_experiment_id":[
	7012	"no parent"
	7013	],
	7014	"required_model_components":[
	7015	"LAND",
	7016	"BGC"
	7017	],
	7018	"sub_experiment_id":[
	7019	"none"
	7020	]
	7021	},
	7022	"land-crop-noIrrigFert":{
	7023	"activity_id":[
	7024	"LUMIP"
	7025	],
	7026	"additional_allowed_model_components":[
	7027	""
	7028	],
	7029	"experiment":"historical land-only with managed crops but with irrigation and fertilization held constant",
	7030	"experiment_id":"land-crop-noIrrigFert",
	7031	"parent_activity_id":[
	7032	"no parent"
	7033	],
	7034	"parent_experiment_id":[
	7035	"no parent"
	7036	],
	7037	"required_model_components":[
	7038	"LAND",
	7039	"BGC"
	7040	],
	7041	"sub_experiment_id":[
	7042	"none"
	7043	]
	7044	},
	7045	"land-hist":{
	7046	"activity_id":[
	7047	"LS3MIP LUMIP"
	7048	],
	7049	"additional_allowed_model_components":[
	7050	"BGC"
	7051	],
	7052	"experiment":"historical land-only",
	7053	"experiment_id":"land-hist",
	7054	"parent_activity_id":[
	7055	"no parent"
	7056	],
	7057	"parent_experiment_id":[
	7058	"no parent"
	7059	],
	7060	"required_model_components":[
	7061	"LAND"
	7062	],
	7063	"sub_experiment_id":[
	7064	"none"
	7065	]
	7066	},
	7067	"land-hist-altLu1":{
	7068	"activity_id":[
	7069	"LUMIP"
	7070	],
	7071	"additional_allowed_model_components":[
	7072	""
	7073	],
	7074	"experiment":"historical land-only alternate land-use history",
	7075	"experiment_id":"land-hist-altLu1",
	7076	"parent_activity_id":[
	7077	"no parent"
	7078	],
	7079	"parent_experiment_id":[
	7080	"no parent"
	7081	],
	7082	"required_model_components":[
	7083	"LAND",
	7084	"BGC"
	7085	],
	7086	"sub_experiment_id":[
	7087	"none"
	7088	]
	7089	},
	7090	"land-hist-altLu2":{
	7091	"activity_id":[
	7092	"LUMIP"
	7093	],
	7094	"additional_allowed_model_components":[
	7095	""
	7096	],
	7097	"experiment":"historical land-only alternate land use history",
	7098	"experiment_id":"land-hist-altLu2",
	7099	"parent_activity_id":[
	7100	"no parent"
	7101	],
	7102	"parent_experiment_id":[
	7103	"no parent"
	7104	],
	7105	"required_model_components":[
	7106	"LAND",
	7107	"BGC"
	7108	],
	7109	"sub_experiment_id":[
	7110	"none"
	7111	]
	7112	},
	7113	"land-hist-altStartYear":{
	7114	"activity_id":[
	7115	"LUMIP"
	7116	],
	7117	"additional_allowed_model_components":[
	7118	""
	7119	],
	7120	"experiment":"historical land-only alternate start year",
	7121	"experiment_id":"land-hist-altStartYear",
	7122	"parent_activity_id":[
	7123	"no parent"
	7124	],
	7125	"parent_experiment_id":[
	7126	"no parent"
	7127	],
	7128	"required_model_components":[
	7129	"LAND",
	7130	"BGC"
	7131	],
	7132	"sub_experiment_id":[
	7133	"none"
	7134	]
	7135	},
	7136	"land-hist-cruNcep":{
	7137	"activity_id":[
	7138	"LS3MIP"
	7139	],
	7140	"additional_allowed_model_components":[
	7141	"BGC"
	7142	],
	7143	"experiment":"as land-hist with CRU-NCEP forcings",
	7144	"experiment_id":"land-hist-cruNcep",
	7145	"parent_activity_id":[
	7146	"no parent"
	7147	],
	7148	"parent_experiment_id":[
	7149	"no parent"
	7150	],
	7151	"required_model_components":[
	7152	"LAND"
	7153	],
	7154	"sub_experiment_id":[
	7155	"none"
	7156	]
	7157	},
	7158	"land-hist-princeton":{
	7159	"activity_id":[
	7160	"LS3MIP"
	7161	],
	7162	"additional_allowed_model_components":[
	7163	"BGC"
	7164	],
	7165	"experiment":"as land-hist with Princeton forcings",
	7166	"experiment_id":"land-hist-princeton",
	7167	"parent_activity_id":[
	7168	"no parent"
	7169	],
	7170	"parent_experiment_id":[
	7171	"no parent"
	7172	],
	7173	"required_model_components":[
	7174	"LAND"
	7175	],
	7176	"sub_experiment_id":[
	7177	"none"
	7178	]
	7179	},
	7180	"land-hist-wfdei":{
	7181	"activity_id":[
	7182	"LS3MIP"
	7183	],
	7184	"additional_allowed_model_components":[
	7185	"BGC"
	7186	],
	7187	"experiment":"as land-hist with WFDEI forcings",
	7188	"experiment_id":"land-hist-wfdei",
	7189	"parent_activity_id":[
	7190	"no parent"
	7191	],
	7192	"parent_experiment_id":[
	7193	"no parent"
	7194	],
	7195	"required_model_components":[
	7196	"LAND"
	7197	],
	7198	"sub_experiment_id":[
	7199	"none"
	7200	]
	7201	},
	7202	"land-noFire":{
	7203	"activity_id":[
	7204	"LUMIP"
	7205	],
	7206	"additional_allowed_model_components":[
	7207	""
	7208	],
	7209	"experiment":"historical land-only with no human fire management",
	7210	"experiment_id":"land-noFire",
	7211	"parent_activity_id":[
	7212	"no parent"
	7213	],
	7214	"parent_experiment_id":[
	7215	"no parent"
	7216	],
	7217	"required_model_components":[
	7218	"LAND",
	7219	"BGC"
	7220	],
	7221	"sub_experiment_id":[
	7222	"none"
	7223	]
	7224	},
	7225	"land-noLu":{
	7226	"activity_id":[
	7227	"LUMIP"
	7228	],
	7229	"additional_allowed_model_components":[
	7230	"BGC"
	7231	],
	7232	"experiment":"historical land-only with no land-use change",
	7233	"experiment_id":"land-noLu",
	7234	"parent_activity_id":[
	7235	"no parent"
	7236	],
	7237	"parent_experiment_id":[
	7238	"no parent"
	7239	],
	7240	"required_model_components":[
	7241	"LAND"
	7242	],
	7243	"sub_experiment_id":[
	7244	"none"
	7245	]
	7246	},
	7247	"land-noPasture":{
	7248	"activity_id":[
	7249	"LUMIP"
	7250	],
	7251	"additional_allowed_model_components":[
	7252	""
	7253	],
	7254	"experiment":"historical land-only with constant pastureland",
	7255	"experiment_id":"land-noPasture",
	7256	"parent_activity_id":[
	7257	"no parent"
	7258	],
	7259	"parent_experiment_id":[
	7260	"no parent"
	7261	],
	7262	"required_model_components":[
	7263	"LAND",
	7264	"BGC"
	7265	],
	7266	"sub_experiment_id":[
	7267	"none"
	7268	]
	7269	},
	7270	"land-noShiftCultivate":{
	7271	"activity_id":[
	7272	"LUMIP"
	7273	],
	7274	"additional_allowed_model_components":[
	7275	""
	7276	],
	7277	"experiment":"historical land-only with shifting cultivation turned off",
	7278	"experiment_id":"land-noShiftCultivate",
	7279	"parent_activity_id":[
	7280	"no parent"
	7281	],
	7282	"parent_experiment_id":[
	7283	"no parent"
	7284	],
	7285	"required_model_components":[
	7286	"LAND",
	7287	"BGC"
	7288	],
	7289	"sub_experiment_id":[
	7290	"none"
	7291	]
	7292	},
	7293	"land-noWoodHarv":{
	7294	"activity_id":[
	7295	"LUMIP"
	7296	],
	7297	"additional_allowed_model_components":[
	7298	""
	7299	],
	7300	"experiment":"historical land-only with no wood harvest",
	7301	"experiment_id":"land-noWoodHarv",
	7302	"parent_activity_id":[
	7303	"no parent"
	7304	],
	7305	"parent_experiment_id":[
	7306	"no parent"
	7307	],
	7308	"required_model_components":[
	7309	"LAND",
	7310	"BGC"
	7311	],
	7312	"sub_experiment_id":[
	7313	"none"
	7314	]
	7315	},
	7316	"land-ssp126":{
	7317	"activity_id":[
	7318	"LS3MIP"
	7319	],
	7320	"additional_allowed_model_components":[
	7321	"BGC"
	7322	],
	7323	"experiment":"future ssp1-2.6 land only",
	7324	"experiment_id":"land-ssp126",
	7325	"parent_activity_id":[
	7326	"no parent"
	7327	],
	7328	"parent_experiment_id":[
	7329	"no parent"
	7330	],
	7331	"required_model_components":[
	7332	"LAND"
	7333	],
	7334	"sub_experiment_id":[
	7335	"none"
	7336	]
	7337	},
	7338	"land-ssp434":{
	7339	"activity_id":[
	7340	"LS3MIP"
	7341	],
	7342	"additional_allowed_model_components":[
	7343	"BGC"
	7344	],
	7345	"experiment":"future ssp4-3.4 land only",
	7346	"experiment_id":"land-ssp434",
	7347	"parent_activity_id":[
	7348	"no parent"
	7349	],
	7350	"parent_experiment_id":[
	7351	"no parent"
	7352	],
	7353	"required_model_components":[
	7354	"LAND"
	7355	],
	7356	"sub_experiment_id":[
	7357	"none"
	7358	]
	7359	},
	7360	"land-ssp585":{
	7361	"activity_id":[
	7362	"LS3MIP"
	7363	],
	7364	"additional_allowed_model_components":[
	7365	"BGC"
	7366	],
	7367	"experiment":"future ssp5-8.5 land only",
	7368	"experiment_id":"land-ssp585",
	7369	"parent_activity_id":[
	7370	"no parent"
	7371	],
	7372	"parent_experiment_id":[
	7373	"no parent"
	7374	],
	7375	"required_model_components":[
	7376	"LAND"
	7377	],
	7378	"sub_experiment_id":[
	7379	"none"
	7380	]
	7381	},
	7382	"lfmip-initLC":{
	7383	"activity_id":[
	7384	"LS3MIP"
	7385	],
	7386	"additional_allowed_model_components":[
	7387	"AER",
	7388	"CHEM",
	7389	"BGC"
	7390	],
	7391	"experiment":"initialized from \"historical\" run year 1980, but with land conditions initialized from pseudo-observations",
	7392	"experiment_id":"lfmip-initLC",
	7393	"parent_activity_id":[
	7394	"CMIP"
	7395	],
	7396	"parent_experiment_id":[
	7397	"historical"
	7398	],
	7399	"required_model_components":[
	7400	"AOGCM"
	7401	],
	7402	"sub_experiment_id":[
	7403	"none"
	7404	]
	7405	},
	7406	"lfmip-pdLC":{
	7407	"activity_id":[
	7408	"LS3MIP"
	7409	],
	7410	"additional_allowed_model_components":[
	7411	"AER",
	7412	"CHEM",
	7413	"BGC"
	7414	],
	7415	"experiment":"prescribed land conditions (from current climate climatology) and initialized from \"historical\" run year 1980",
	7416	"experiment_id":"lfmip-pdLC",
	7417	"parent_activity_id":[
	7418	"CMIP"
	7419	],
	7420	"parent_experiment_id":[
	7421	"historical"
	7422	],
	7423	"required_model_components":[
	7424	"AOGCM"
	7425	],
	7426	"sub_experiment_id":[
	7427	"none"
	7428	]
	7429	},
	7430	"lfmip-pdLC-cruNcep":{
	7431	"activity_id":[
	7432	"LS3MIP"
	7433	],
	7434	"additional_allowed_model_components":[
	7435	"AER",
	7436	"CHEM",
	7437	"BGC"
	7438	],
	7439	"experiment":"as LFMIP-pdLC with Land-Hist-cruNcep",
	7440	"experiment_id":"lfmip-pdLC-cruNcep",
	7441	"parent_activity_id":[
	7442	"CMIP"
	7443	],
	7444	"parent_experiment_id":[
	7445	"historical"
	7446	],
	7447	"required_model_components":[
	7448	"AOGCM"
	7449	],
	7450	"sub_experiment_id":[
	7451	"none"
	7452	]
	7453	},
	7454	"lfmip-pdLC-princeton":{
	7455	"activity_id":[
	7456	"LS3MIP"
	7457	],
	7458	"additional_allowed_model_components":[
	7459	"AER",
	7460	"CHEM",
	7461	"BGC"
	7462	],
	7463	"experiment":"as LFMIP-pdLC with Land-Hist-princeton",
	7464	"experiment_id":"lfmip-pdLC-princeton",
	7465	"parent_activity_id":[
	7466	"CMIP"
	7467	],
	7468	"parent_experiment_id":[
	7469	"historical"
	7470	],
	7471	"required_model_components":[
	7472	"AOGCM"
	7473	],
	7474	"sub_experiment_id":[
	7475	"none"
	7476	]
	7477	},
	7478	"lfmip-pdLC-wfdei":{
	7479	"activity_id":[
	7480	"LS3MIP"
	7481	],
	7482	"additional_allowed_model_components":[
	7483	"AER",
	7484	"CHEM",
	7485	"BGC"
	7486	],
	7487	"experiment":"as LFMIP-pdLC with Land-Hist-wfdei",
	7488	"experiment_id":"lfmip-pdLC-wfdei",
	7489	"parent_activity_id":[
	7490	"CMIP"
	7491	],
	7492	"parent_experiment_id":[
	7493	"historical"
	7494	],
	7495	"required_model_components":[
	7496	"AOGCM"
	7497	],
	7498	"sub_experiment_id":[
	7499	"none"
	7500	]
	7501	},
	7502	"lfmip-rmLC":{
	7503	"activity_id":[
	7504	"LS3MIP"
	7505	],
	7506	"additional_allowed_model_components":[
	7507	"AER",
	7508	"CHEM",
	7509	"BGC"
	7510	],
	7511	"experiment":"prescribed land conditions (from running mean climatology) and initialized from \"historical\" run year 1980",
	7512	"experiment_id":"lfmip-rmLC",
	7513	"parent_activity_id":[
	7514	"CMIP"
	7515	],
	7516	"parent_experiment_id":[
	7517	"historical"
	7518	],
	7519	"required_model_components":[
	7520	"AOGCM"
	7521	],
	7522	"sub_experiment_id":[
	7523	"none"
	7524	]
	7525	},
	7526	"lfmip-rmLC-cruNcep":{
	7527	"activity_id":[
	7528	"LS3MIP"
	7529	],
	7530	"additional_allowed_model_components":[
	7531	"AER",
	7532	"CHEM",
	7533	"BGC"
	7534	],
	7535	"experiment":"as LFMIP-rmLC with Land-Hist-cruNcep",
	7536	"experiment_id":"lfmip-rmLC-cruNcep",
	7537	"parent_activity_id":[
	7538	"CMIP"
	7539	],
	7540	"parent_experiment_id":[
	7541	"historical"
	7542	],
	7543	"required_model_components":[
	7544	"AOGCM"
	7545	],
	7546	"sub_experiment_id":[
	7547	"none"
	7548	]
	7549	},
	7550	"lfmip-rmLC-princeton":{
	7551	"activity_id":[
	7552	"LS3MIP"
	7553	],
	7554	"additional_allowed_model_components":[
	7555	"AER",
	7556	"CHEM",
	7557	"BGC"
	7558	],
	7559	"experiment":"as LFMIP-rmLC with Land-Hist-princeton",
	7560	"experiment_id":"lfmip-rmLC-princeton",
	7561	"parent_activity_id":[
	7562	"CMIP"
	7563	],
	7564	"parent_experiment_id":[
	7565	"historical"
	7566	],
	7567	"required_model_components":[
	7568	"AOGCM"
	7569	],
	7570	"sub_experiment_id":[
	7571	"none"
	7572	]
	7573	},
	7574	"lfmip-rmLC-wfdei":{
	7575	"activity_id":[
	7576	"LS3MIP"
	7577	],
	7578	"additional_allowed_model_components":[
	7579	"AER",
	7580	"CHEM",
	7581	"BGC"
	7582	],
	7583	"experiment":"as LFMIP-rmLC with Land-Hist-wfdei",
	7584	"experiment_id":"lfmip-rmLC-wfdei",
	7585	"parent_activity_id":[
	7586	"CMIP"
	7587	],
	7588	"parent_experiment_id":[
	7589	"historical"
	7590	],
	7591	"required_model_components":[
	7592	"AOGCM"
	7593	],
	7594	"sub_experiment_id":[
	7595	"none"
	7596	]
	7597	},
	7598	"lgm":{
	7599	"activity_id":[
	7600	"PMIP"
	7601	],
	7602	"additional_allowed_model_components":[
	7603	"AER",
	7604	"CHEM",
	7605	"BGC"
	7606	],
	7607	"experiment":"last glacial maximum",
	7608	"experiment_id":"lgm",
	7609	"parent_activity_id":[
	7610	"no parent"
	7611	],
	7612	"parent_experiment_id":[
	7613	"no parent"
	7614	],
	7615	"required_model_components":[
	7616	"AOGCM"
	7617	],
	7618	"sub_experiment_id":[
	7619	"none"
	7620	]
	7621	},
	7622	"lig127k":{
	7623	"activity_id":[
	7624	"PMIP"
	7625	],
	7626	"additional_allowed_model_components":[
	7627	"AER",
	7628	"CHEM",
	7629	"BGC"
	7630	],
	7631	"experiment":"last interglacial (127k)",
	7632	"experiment_id":"lig127k",
	7633	"parent_activity_id":[
	7634	"no parent"
	7635	],
	7636	"parent_experiment_id":[
	7637	"no parent"
	7638	],
	7639	"required_model_components":[
	7640	"AOGCM"
	7641	],
	7642	"sub_experiment_id":[
	7643	"none"
	7644	]
	7645	},
	7646	"midHolocene":{
	7647	"activity_id":[
	7648	"PMIP"
	7649	],
	7650	"additional_allowed_model_components":[
	7651	"AER",
	7652	"CHEM",
	7653	"BGC"
	7654	],
	7655	"experiment":"mid-Holocene",
	7656	"experiment_id":"midHolocene",
	7657	"parent_activity_id":[
	7658	"no parent"
	7659	],
	7660	"parent_experiment_id":[
	7661	"no parent"
	7662	],
	7663	"required_model_components":[
	7664	"AOGCM"
	7665	],
	7666	"sub_experiment_id":[
	7667	"none"
	7668	]
	7669	},
	7670	"midPliocene-eoi400":{
	7671	"activity_id":[
	7672	"PMIP"
	7673	],
	7674	"additional_allowed_model_components":[
	7675	"AER",
	7676	"CHEM",
	7677	"BGC"
	7678	],
	7679	"experiment":"mid-Pliocene warm period",
	7680	"experiment_id":"midPliocene-eoi400",
	7681	"parent_activity_id":[
	7682	"no parent"
	7683	],
	7684	"parent_experiment_id":[
	7685	"no parent"
	7686	],
	7687	"required_model_components":[
	7688	"AOGCM"
	7689	],
	7690	"sub_experiment_id":[
	7691	"none"
	7692	]
	7693	},
	7694	"modelSST-futArcSIC":{
	7695	"activity_id":[
	7696	"PAMIP"
	7697	],
	7698	"additional_allowed_model_components":[
	7699	"AER",
	7700	"CHEM",
	7701	"BGC"
	7702	],
	7703	"experiment":"Atmosphere time slice with present day coupled model SST and future Arctic SIC",
	7704	"experiment_id":"modelSST-futArcSIC",
	7705	"parent_activity_id":[
	7706	"CMIP"
	7707	],
	7708	"parent_experiment_id":[
	7709	"amip"
	7710	],
	7711	"required_model_components":[
	7712	"AGCM"
	7713	],
	7714	"sub_experiment_id":[
	7715	"none"
	7716	]
	7717	},
	7718	"modelSST-pdSIC":{
	7719	"activity_id":[
	7720	"PAMIP"
	7721	],
	7722	"additional_allowed_model_components":[
	7723	"AER",
	7724	"CHEM",
	7725	"BGC"
	7726	],
	7727	"experiment":"Atmosphere time slice present day control with coupled model SST",
	7728	"experiment_id":"modelSST-pdSIC",
	7729	"parent_activity_id":[
	7730	"CMIP"
	7731	],
	7732	"parent_experiment_id":[
	7733	"amip"
	7734	],
	7735	"required_model_components":[
	7736	"AGCM"
	7737	],
	7738	"sub_experiment_id":[
	7739	"none"
	7740	]
	7741	},
	7742	"omip1":{
	7743	"activity_id":[
	7744	"OMIP"
	7745	],
	7746	"additional_allowed_model_components":[
	7747	"BGC"
	7748	],
	7749	"experiment":"OMIP experiment forced by Large and Yeager (CORE-2, NCEP) atmospheric data set and initialized with observed physical and biogeochemical ocean data",
	7750	"experiment_id":"omip1",
	7751	"parent_activity_id":[
	7752	"no parent"
	7753	],
	7754	"parent_experiment_id":[
	7755	"no parent"
	7756	],
	7757	"required_model_components":[
	7758	"OGCM"
	7759	],
	7760	"sub_experiment_id":[
	7761	"none"
	7762	]
	7763	},
	7764	"omip1-spunup":{
	7765	"activity_id":[
	7766	"OMIP"
	7767	],
	7768	"additional_allowed_model_components":[],
	7769	"experiment":"OMIP experiment forced by Large and Yeager (CORE-2, NCEP) atmospheric data set and initialized from at least a 2000-year spin up of the coupled physical-biogeochemical model",
	7770	"experiment_id":"omip1-spunup",
	7771	"parent_activity_id":[
	7772	"no parent"
	7773	],
	7774	"parent_experiment_id":[
	7775	"no parent"
	7776	],
	7777	"required_model_components":[
	7778	"OGCM",
	7779	"BGC"
	7780	],
	7781	"sub_experiment_id":[
	7782	"none"
	7783	]
	7784	},
	7785	"omip2":{
	7786	"activity_id":[
	7787	"OMIP"
	7788	],
	7789	"additional_allowed_model_components":[
	7790	"BGC"
	7791	],
	7792	"experiment":"OMIP experiment forced by JRA55-do atmospheric data set and initialized with observed physical and biogeochemical ocean data",
	7793	"experiment_id":"omip2",
	7794	"parent_activity_id":[
	7795	"no parent"
	7796	],
	7797	"parent_experiment_id":[
	7798	"no parent"
	7799	],
	7800	"required_model_components":[
	7801	"OGCM"
	7802	],
	7803	"sub_experiment_id":[
	7804	"none"
	7805	]
	7806	},
	7807	"omip2-spunup":{
	7808	"activity_id":[
	7809	"OMIP"
	7810	],
	7811	"additional_allowed_model_components":[],
	7812	"experiment":"OMIP experiment forced by JRA55-do atmospheric data set and initialized from at least a 2000-year spin up of the coupled physical-biogeochemical model",
	7813	"experiment_id":"omip2-spunup",
	7814	"parent_activity_id":[
	7815	"no parent"
	7816	],
	7817	"parent_experiment_id":[
	7818	"no parent"
	7819	],
	7820	"required_model_components":[
	7821	"OGCM",
	7822	"BGC"
	7823	],
	7824	"sub_experiment_id":[
	7825	"none"
	7826	]
	7827	},
	7828	"pa-futAntSIC":{
	7829	"activity_id":[
	7830	"PAMIP"
	7831	],
	7832	"additional_allowed_model_components":[
	7833	"AER",
	7834	"CHEM",
	7835	"BGC"
	7836	],
	7837	"experiment":"Partially-coupled time slice constrained by future Antarctic SIC",
	7838	"experiment_id":"pa-futAntSIC",
	7839	"parent_activity_id":[
	7840	"CMIP"
	7841	],
	7842	"parent_experiment_id":[
	7843	"historical"
	7844	],
	7845	"required_model_components":[
	7846	"AOGCM"
	7847	],
	7848	"sub_experiment_id":[
	7849	"none"
	7850	]
	7851	},
	7852	"pa-futAntSIC-ext":{
	7853	"activity_id":[
	7854	"PAMIP"
	7855	],
	7856	"additional_allowed_model_components":[
	7857	"AER",
	7858	"CHEM",
	7859	"BGC"
	7860	],
	7861	"experiment":"Partially-coupled extended simulation with future Antarctic SIC",
	7862	"experiment_id":"pa-futAntSIC-ext",
	7863	"parent_activity_id":[
	7864	"CMIP"
	7865	],
	7866	"parent_experiment_id":[
	7867	"historical"
	7868	],
	7869	"required_model_components":[
	7870	"AOGCM"
	7871	],
	7872	"sub_experiment_id":[
	7873	"none"
	7874	]
	7875	},
	7876	"pa-futArcSIC":{
	7877	"activity_id":[
	7878	"PAMIP"
	7879	],
	7880	"additional_allowed_model_components":[
	7881	"AER",
	7882	"CHEM",
	7883	"BGC"
	7884	],
	7885	"experiment":"Partially-coupled time slice constrained by future Arctic SIC",
	7886	"experiment_id":"pa-futArcSIC",
	7887	"parent_activity_id":[
	7888	"CMIP"
	7889	],
	7890	"parent_experiment_id":[
	7891	"historical"
	7892	],
	7893	"required_model_components":[
	7894	"AOGCM"
	7895	],
	7896	"sub_experiment_id":[
	7897	"none"
	7898	]
	7899	},
	7900	"pa-futArcSIC-ext":{
	7901	"activity_id":[
	7902	"PAMIP"
	7903	],
	7904	"additional_allowed_model_components":[
	7905	"AER",
	7906	"CHEM",
	7907	"BGC"
	7908	],
	7909	"experiment":"Partially-coupled extended simulation with future Arctic SIC",
	7910	"experiment_id":"pa-futArcSIC-ext",
	7911	"parent_activity_id":[
	7912	"CMIP"
	7913	],
	7914	"parent_experiment_id":[
	7915	"historical"
	7916	],
	7917	"required_model_components":[
	7918	"AOGCM"
	7919	],
	7920	"sub_experiment_id":[
	7921	"none"
	7922	]
	7923	},
	7924	"pa-pdSIC":{
	7925	"activity_id":[
	7926	"PAMIP"
	7927	],
	7928	"additional_allowed_model_components":[
	7929	"AER",
	7930	"CHEM",
	7931	"BGC"
	7932	],
	7933	"experiment":"Partially-coupled time slice contrained by present day SIC",
	7934	"experiment_id":"pa-pdSIC",
	7935	"parent_activity_id":[
	7936	"CMIP"
	7937	],
	7938	"parent_experiment_id":[
	7939	"historical"
	7940	],
	7941	"required_model_components":[
	7942	"AOGCM"
	7943	],
	7944	"sub_experiment_id":[
	7945	"none"
	7946	]
	7947	},
	7948	"pa-pdSIC-ext":{
	7949	"activity_id":[
	7950	"PAMIP"
	7951	],
	7952	"additional_allowed_model_components":[
	7953	"AER",
	7954	"CHEM",
	7955	"BGC"
	7956	],
	7957	"experiment":"Partially-coupled extended simulation constrained by present day SIC",
	7958	"experiment_id":"pa-pdSIC-ext",
	7959	"parent_activity_id":[
	7960	"CMIP"
	7961	],
	7962	"parent_experiment_id":[
	7963	"historical"
	7964	],
	7965	"required_model_components":[
	7966	"AOGCM"
	7967	],
	7968	"sub_experiment_id":[
	7969	"none"
	7970	]
	7971	},
	7972	"pa-piAntSIC":{
	7973	"activity_id":[
	7974	"PAMIP"
	7975	],
	7976	"additional_allowed_model_components":[
	7977	"AER",
	7978	"CHEM",
	7979	"BGC"
	7980	],
	7981	"experiment":"Partially-coupled time slice with pre-industrial Antarctic SIC",
	7982	"experiment_id":"pa-piAntSIC",
	7983	"parent_activity_id":[
	7984	"CMIP"
	7985	],
	7986	"parent_experiment_id":[
	7987	"historical"
	7988	],
	7989	"required_model_components":[
	7990	"AOGCM"
	7991	],
	7992	"sub_experiment_id":[
	7993	"none"
	7994	]
	7995	},
	7996	"pa-piArcSIC":{
	7997	"activity_id":[
	7998	"PAMIP"
	7999	],
	8000	"additional_allowed_model_components":[
	8001	"AER",
	8002	"CHEM",
	8003	"BGC"
	8004	],
	8005	"experiment":"Partially-coupled time slice constrained by pre-industrial Arctic SIC",
	8006	"experiment_id":"pa-piArcSIC",
	8007	"parent_activity_id":[
	8008	"CMIP"
	8009	],
	8010	"parent_experiment_id":[
	8011	"historical"
	8012	],
	8013	"required_model_components":[
	8014	"AOGCM"
	8015	],
	8016	"sub_experiment_id":[
	8017	"none"
	8018	]
	8019	},
	8020	"past1000":{
	8021	"activity_id":[
	8022	"PMIP"
	8023	],
	8024	"additional_allowed_model_components":[
	8025	"AER",
	8026	"CHEM",
	8027	"BGC"
	8028	],
	8029	"experiment":"last millennium",
	8030	"experiment_id":"past1000",
	8031	"parent_activity_id":[
	8032	"no parent"
	8033	],
	8034	"parent_experiment_id":[
	8035	"no parent"
	8036	],
	8037	"required_model_components":[
	8038	"AOGCM"
	8039	],
	8040	"sub_experiment_id":[
	8041	"none"
	8042	]
	8043	},
	8044	"past1000-solaronly":{
	8045	"activity_id":[
	8046	"PMIP"
	8047	],
	8048	"additional_allowed_model_components":[
	8049	"AER",
	8050	"CHEM",
	8051	"BGC"
	8052	],
	8053	"experiment":"last millennium experiment using only solar forcing",
	8054	"experiment_id":"past1000-solaronly",
	8055	"parent_activity_id":[
	8056	"no parent"
	8057	],
	8058	"parent_experiment_id":[
	8059	"no parent"
	8060	],
	8061	"required_model_components":[
	8062	"AOGCM"
	8063	],
	8064	"sub_experiment_id":[
	8065	"none"
	8066	]
	8067	},
	8068	"past1000-volconly":{
	8069	"activity_id":[
	8070	"PMIP"
	8071	],
	8072	"additional_allowed_model_components":[
	8073	"AER",
	8074	"CHEM",
	8075	"BGC"
	8076	],
	8077	"experiment":"last millennium experiment using only volcanic forcing",
	8078	"experiment_id":"past1000-volconly",
	8079	"parent_activity_id":[
	8080	"no parent"
	8081	],
	8082	"parent_experiment_id":[
	8083	"no parent"
	8084	],
	8085	"required_model_components":[
	8086	"AOGCM"
	8087	],
	8088	"sub_experiment_id":[
	8089	"none"
	8090	]
	8091	},
	8092	"past2k":{
	8093	"activity_id":[
	8094	"PMIP"
	8095	],
	8096	"additional_allowed_model_components":[
	8097	"AER",
	8098	"CHEM",
	8099	"BGC"
	8100	],
	8101	"experiment":"last two millennia experiment",
	8102	"experiment_id":"past2k",
	8103	"parent_activity_id":[
	8104	"no parent"
	8105	],
	8106	"parent_experiment_id":[
	8107	"no parent"
	8108	],
	8109	"required_model_components":[
	8110	"AOGCM"
	8111	],
	8112	"sub_experiment_id":[
	8113	"none"
	8114	]
	8115	},
	8116	"pdSST-futAntSIC":{
	8117	"activity_id":[
	8118	"PAMIP"
	8119	],
	8120	"additional_allowed_model_components":[
	8121	"AER",
	8122	"CHEM",
	8123	"BGC"
	8124	],
	8125	"experiment":"Atmosphere time slice with present day SST and future Antarctic SIC",
	8126	"experiment_id":"pdSST-futAntSIC",
	8127	"parent_activity_id":[
	8128	"CMIP"
	8129	],
	8130	"parent_experiment_id":[
	8131	"amip"
	8132	],
	8133	"required_model_components":[
	8134	"AGCM"
	8135	],
	8136	"sub_experiment_id":[
	8137	"none"
	8138	]
	8139	},
	8140	"pdSST-futArcSIC":{
	8141	"activity_id":[
	8142	"PAMIP"
	8143	],
	8144	"additional_allowed_model_components":[
	8145	"AER",
	8146	"CHEM",
	8147	"BGC"
	8148	],
	8149	"experiment":"Atmosphere time slice with present day SST and future Arctic SIC",
	8150	"experiment_id":"pdSST-futArcSIC",
	8151	"parent_activity_id":[
	8152	"CMIP"
	8153	],
	8154	"parent_experiment_id":[
	8155	"amip"
	8156	],
	8157	"required_model_components":[
	8158	"AGCM"
	8159	],
	8160	"sub_experiment_id":[
	8161	"none"
	8162	]
	8163	},
	8164	"pdSST-futArcSICSIT":{
	8165	"activity_id":[
	8166	"PAMIP"
	8167	],
	8168	"additional_allowed_model_components":[
	8169	"AER",
	8170	"CHEM",
	8171	"BGC"
	8172	],
	8173	"experiment":"Atmosphere time slice with present day SST and future Arctic SIC and sea ice thickness",
	8174	"experiment_id":"pdSST-futArcSICSIT",
	8175	"parent_activity_id":[
	8176	"CMIP"
	8177	],
	8178	"parent_experiment_id":[
	8179	"amip"
	8180	],
	8181	"required_model_components":[
	8182	"AGCM"
	8183	],
	8184	"sub_experiment_id":[
	8185	"none"
	8186	]
	8187	},
	8188	"pdSST-futBKSeasSIC":{
	8189	"activity_id":[
	8190	"PAMIP"
	8191	],
	8192	"additional_allowed_model_components":[
	8193	"AER",
	8194	"CHEM",
	8195	"BGC"
	8196	],
	8197	"experiment":"Atmosphere time slice with present day SST and future Barents and Kara Seas SIC",
	8198	"experiment_id":"pdSST-futBKSeasSIC",
	8199	"parent_activity_id":[
	8200	"CMIP"
	8201	],
	8202	"parent_experiment_id":[
	8203	"amip"
	8204	],
	8205	"required_model_components":[
	8206	"AGCM"
	8207	],
	8208	"sub_experiment_id":[
	8209	"none"
	8210	]
	8211	},
	8212	"pdSST-futOkhotskSIC":{
	8213	"activity_id":[
	8214	"PAMIP"
	8215	],
	8216	"additional_allowed_model_components":[
	8217	"AER",
	8218	"CHEM",
	8219	"BGC"
	8220	],
	8221	"experiment":"Atmosphere time slice with present day SST and future Sea of Okhotsk SIC",
	8222	"experiment_id":"pdSST-futOkhotskSIC",
	8223	"parent_activity_id":[
	8224	"CMIP"
	8225	],
	8226	"parent_experiment_id":[
	8227	"amip"
	8228	],
	8229	"required_model_components":[
	8230	"AGCM"
	8231	],
	8232	"sub_experiment_id":[
	8233	"none"
	8234	]
	8235	},
	8236	"pdSST-pdSIC":{
	8237	"activity_id":[
	8238	"PAMIP"
	8239	],
	8240	"additional_allowed_model_components":[
	8241	"AER",
	8242	"CHEM",
	8243	"BGC"
	8244	],
	8245	"experiment":"Atmosphere time slice with present day SST and SIC",
	8246	"experiment_id":"pdSST-pdSIC",
	8247	"parent_activity_id":[
	8248	"CMIP"
	8249	],
	8250	"parent_experiment_id":[
	8251	"amip"
	8252	],
	8253	"required_model_components":[
	8254	"AGCM"
	8255	],
	8256	"sub_experiment_id":[
	8257	"none"
	8258	]
	8259	},
	8260	"pdSST-pdSICSIT":{
	8261	"activity_id":[
	8262	"PAMIP"
	8263	],
	8264	"additional_allowed_model_components":[
	8265	"AER",
	8266	"CHEM",
	8267	"BGC"
	8268	],
	8269	"experiment":"Atmosphere time slice constrained by present day conditions including sea ice thickness",
	8270	"experiment_id":"pdSST-pdSICSIT",
	8271	"parent_activity_id":[
	8272	"CMIP"
	8273	],
	8274	"parent_experiment_id":[
	8275	"amip"
	8276	],
	8277	"required_model_components":[
	8278	"AGCM"
	8279	],
	8280	"sub_experiment_id":[
	8281	"none"
	8282	]
	8283	},
	8284	"pdSST-piAntSIC":{
	8285	"activity_id":[
	8286	"PAMIP"
	8287	],
	8288	"additional_allowed_model_components":[
	8289	"AER",
	8290	"CHEM",
	8291	"BGC"
	8292	],
	8293	"experiment":"Atmosphere time slice with present day SST and pre-industrial Antarctic SIC",
	8294	"experiment_id":"pdSST-piAntSIC",
	8295	"parent_activity_id":[
	8296	"CMIP"
	8297	],
	8298	"parent_experiment_id":[
	8299	"amip"
	8300	],
	8301	"required_model_components":[
	8302	"AGCM"
	8303	],
	8304	"sub_experiment_id":[
	8305	"none"
	8306	]
	8307	},
	8308	"pdSST-piArcSIC":{
	8309	"activity_id":[
	8310	"PAMIP"
	8311	],
	8312	"additional_allowed_model_components":[
	8313	"AER",
	8314	"CHEM",
	8315	"BGC"
	8316	],
	8317	"experiment":"Atmosphere time slice with present day SST and pre-industrial Arctic SIC",
	8318	"experiment_id":"pdSST-piArcSIC",
	8319	"parent_activity_id":[
	8320	"CMIP"
	8321	],
	8322	"parent_experiment_id":[
	8323	"amip"
	8324	],
	8325	"required_model_components":[
	8326	"AGCM"
	8327	],
	8328	"sub_experiment_id":[
	8329	"none"
	8330	]
	8331	},
	8332	"piClim-2xDMS":{
	8333	"activity_id":[
	8334	"AerChemMIP"
	8335	],
	8336	"additional_allowed_model_components":[
	8337	"CHEM",
	8338	"BGC"
	8339	],
	8340	"experiment":"pre-industrial climatological SSTs and forcing, but with doubled emissions of DMS",
	8341	"experiment_id":"piClim-2xDMS",
	8342	"parent_activity_id":[
	8343	"CMIP"
	8344	],
	8345	"parent_experiment_id":[
	8346	"piControl"
	8347	],
	8348	"required_model_components":[
	8349	"AGCM",
	8350	"AER"
	8351	],
	8352	"sub_experiment_id":[
	8353	"none"
	8354	]
	8355	},
	8356	"piClim-2xNOx":{
	8357	"activity_id":[
	8358	"AerChemMIP"
	8359	],
	8360	"additional_allowed_model_components":[
	8361	"BGC"
	8362	],
	8363	"experiment":"pre-industrial climatological SSTs and forcing, but with doubled production of NOx due to lightning",
	8364	"experiment_id":"piClim-2xNOx",
	8365	"parent_activity_id":[
	8366	"CMIP"
	8367	],
	8368	"parent_experiment_id":[
	8369	"piControl"
	8370	],
	8371	"required_model_components":[
	8372	"AGCM",
	8373	"AER",
	8374	"CHEM"
	8375	],
	8376	"sub_experiment_id":[
	8377	"none"
	8378	]
	8379	},
	8380	"piClim-2xVOC":{
	8381	"activity_id":[
	8382	"AerChemMIP"
	8383	],
	8384	"additional_allowed_model_components":[
	8385	"BGC"
	8386	],
	8387	"experiment":"pre-industrial climatological SSTs and forcing, but with doubled emissions of biogenic VOCs",
	8388	"experiment_id":"piClim-2xVOC",
	8389	"parent_activity_id":[
	8390	"CMIP"
	8391	],
	8392	"parent_experiment_id":[
	8393	"piControl"
	8394	],
	8395	"required_model_components":[
	8396	"AGCM",
	8397	"AER",
	8398	"CHEM"
	8399	],
	8400	"sub_experiment_id":[
	8401	"none"
	8402	]
	8403	},
	8404	"piClim-2xdust":{
	8405	"activity_id":[
	8406	"AerChemMIP"
	8407	],
	8408	"additional_allowed_model_components":[
	8409	"CHEM",
	8410	"BGC"
	8411	],
	8412	"experiment":"pre-industrial climatological SSTs and forcing, but with doubled emissions of dust",
	8413	"experiment_id":"piClim-2xdust",
	8414	"parent_activity_id":[
	8415	"CMIP"
	8416	],
	8417	"parent_experiment_id":[
	8418	"piControl"
	8419	],
	8420	"required_model_components":[
	8421	"AGCM",
	8422	"AER"
	8423	],
	8424	"sub_experiment_id":[
	8425	"none"
	8426	]
	8427	},
	8428	"piClim-2xfire":{
	8429	"activity_id":[
	8430	"AerChemMIP"
	8431	],
	8432	"additional_allowed_model_components":[
	8433	"CHEM",
	8434	"BGC"
	8435	],
	8436	"experiment":"pre-industrial climatological SSTs and forcing, but with doubled emissions from fires",
	8437	"experiment_id":"piClim-2xfire",
	8438	"parent_activity_id":[
	8439	"CMIP"
	8440	],
	8441	"parent_experiment_id":[
	8442	"piControl"
	8443	],
	8444	"required_model_components":[
	8445	"AGCM",
	8446	"AER"
	8447	],
	8448	"sub_experiment_id":[
	8449	"none"
	8450	]
	8451	},
	8452	"piClim-2xss":{
	8453	"activity_id":[
	8454	"AerChemMIP"
	8455	],
	8456	"additional_allowed_model_components":[
	8457	"CHEM",
	8458	"BGC"
	8459	],
	8460	"experiment":"pre-industrial climatological SSTs and forcing, but with doubled emissions of sea salt",
	8461	"experiment_id":"piClim-2xss",
	8462	"parent_activity_id":[
	8463	"CMIP"
	8464	],
	8465	"parent_experiment_id":[
	8466	"piControl"
	8467	],
	8468	"required_model_components":[
	8469	"AGCM",
	8470	"AER"
	8471	],
	8472	"sub_experiment_id":[
	8473	"none"
	8474	]
	8475	},
	8476	"piClim-4xCO2":{
	8477	"activity_id":[
	8478	"RFMIP"
	8479	],
	8480	"additional_allowed_model_components":[
	8481	"AER",
	8482	"CHEM"
	8483	],
	8484	"experiment":"effective radiative forcing by 4xCO2",
	8485	"experiment_id":"piClim-4xCO2",
	8486	"parent_activity_id":[
	8487	"CMIP"
	8488	],
	8489	"parent_experiment_id":[
	8490	"piControl"
	8491	],
	8492	"required_model_components":[
	8493	"AGCM"
	8494	],
	8495	"sub_experiment_id":[
	8496	"none"
	8497	]
	8498	},
	8499	"piClim-BC":{
	8500	"activity_id":[
	8501	"AerChemMIP"
	8502	],
	8503	"additional_allowed_model_components":[
	8504	"CHEM",
	8505	"BGC"
	8506	],
	8507	"experiment":"pre-industrial climatological SSTs and forcing, but with 2014 black carbon emissions",
	8508	"experiment_id":"piClim-BC",
	8509	"parent_activity_id":[
	8510	"CMIP"
	8511	],
	8512	"parent_experiment_id":[
	8513	"piControl"
	8514	],
	8515	"required_model_components":[
	8516	"AGCM",
	8517	"AER"
	8518	],
	8519	"sub_experiment_id":[
	8520	"none"
	8521	]
	8522	},
	8523	"piClim-CH4":{
	8524	"activity_id":[
	8525	"AerChemMIP"
	8526	],
	8527	"additional_allowed_model_components":[
	8528	"BGC"
	8529	],
	8530	"experiment":"pre-industrial climatological SSTs and forcing, but with 2014 methane concentrations (including chemistry)",
	8531	"experiment_id":"piClim-CH4",
	8532	"parent_activity_id":[
	8533	"CMIP"
	8534	],
	8535	"parent_experiment_id":[
	8536	"piControl"
	8537	],
	8538	"required_model_components":[
	8539	"AGCM",
	8540	"AER",
	8541	"CHEM"
	8542	],
	8543	"sub_experiment_id":[
	8544	"none"
	8545	]
	8546	},
	8547	"piClim-HC":{
	8548	"activity_id":[
	8549	"AerChemMIP"
	8550	],
	8551	"additional_allowed_model_components":[
	8552	"BGC"
	8553	],
	8554	"experiment":"pre-industrial climatological SSTs and forcing, but with 2014 halocarbon concentrations (including chemistry)",
	8555	"experiment_id":"piClim-HC",
	8556	"parent_activity_id":[
	8557	"CMIP"
	8558	],
	8559	"parent_experiment_id":[
	8560	"piControl"
	8561	],
	8562	"required_model_components":[
	8563	"AGCM",
	8564	"AER",
	8565	"CHEM"
	8566	],
	8567	"sub_experiment_id":[
	8568	"none"
	8569	]
	8570	},
	8571	"piClim-N2O":{
	8572	"activity_id":[
	8573	"AerChemMIP"
	8574	],
	8575	"additional_allowed_model_components":[
	8576	"BGC"
	8577	],
	8578	"experiment":"pre-industrial climatological SSTs and forcing, but with 2014 N2O concentrations (including chemistry)",
	8579	"experiment_id":"piClim-N2O",
	8580	"parent_activity_id":[
	8581	"CMIP"
	8582	],
	8583	"parent_experiment_id":[
	8584	"piControl"
	8585	],
	8586	"required_model_components":[
	8587	"AGCM",
	8588	"AER",
	8589	"CHEM"
	8590	],
	8591	"sub_experiment_id":[
	8592	"none"
	8593	]
	8594	},
	8595	"piClim-NH3":{
	8596	"activity_id":[
	8597	"AerChemMIP"
	8598	],
	8599	"additional_allowed_model_components":[
	8600	"CHEM",
	8601	"BGC"
	8602	],
	8603	"experiment":"pre-industrial climatological SSTs and forcing, but with 2014 ammonia emissions",
	8604	"experiment_id":"piClim-NH3",
	8605	"parent_activity_id":[
	8606	"CMIP"
	8607	],
	8608	"parent_experiment_id":[
	8609	"piControl"
	8610	],
	8611	"required_model_components":[
	8612	"AGCM",
	8613	"AER"
	8614	],
	8615	"sub_experiment_id":[
	8616	"none"
	8617	]
	8618	},
	8619	"piClim-NOx":{
	8620	"activity_id":[
	8621	"AerChemMIP"
	8622	],
	8623	"additional_allowed_model_components":[
	8624	"BGC"
	8625	],
	8626	"experiment":"pre-industrial climatological SSTs and forcing, but with 2014 NOx emissions",
	8627	"experiment_id":"piClim-NOx",
	8628	"parent_activity_id":[
	8629	"CMIP"
	8630	],
	8631	"parent_experiment_id":[
	8632	"piControl"
	8633	],
	8634	"required_model_components":[
	8635	"AGCM",
	8636	"AER",
	8637	"CHEM"
	8638	],
	8639	"sub_experiment_id":[
	8640	"none"
	8641	]
	8642	},
	8643	"piClim-NTCF":{
	8644	"activity_id":[
	8645	"AerChemMIP"
	8646	],
	8647	"additional_allowed_model_components":[
	8648	"CHEM",
	8649	"BGC"
	8650	],
	8651	"experiment":"pre-industrial climatological SSTs and forcing, but with 2014 NTCF emissions",
	8652	"experiment_id":"piClim-NTCF",
	8653	"parent_activity_id":[
	8654	"CMIP"
	8655	],
	8656	"parent_experiment_id":[
	8657	"piControl"
	8658	],
	8659	"required_model_components":[
	8660	"AGCM",
	8661	"AER"
	8662	],
	8663	"sub_experiment_id":[
	8664	"none"
	8665	]
	8666	},
	8667	"piClim-O3":{
	8668	"activity_id":[
	8669	"AerChemMIP"
	8670	],
	8671	"additional_allowed_model_components":[
	8672	"BGC"
	8673	],
	8674	"experiment":"pre-industrial climatological SSTs and forcing, but with 2014 ozone precursor emissions",
	8675	"experiment_id":"piClim-O3",
	8676	"parent_activity_id":[
	8677	"CMIP"
	8678	],
	8679	"parent_experiment_id":[
	8680	"piControl"
	8681	],
	8682	"required_model_components":[
	8683	"AGCM",
	8684	"AER",
	8685	"CHEM"
	8686	],
	8687	"sub_experiment_id":[
	8688	"none"
	8689	]
	8690	},
	8691	"piClim-OC":{
	8692	"activity_id":[
	8693	"AerChemMIP"
	8694	],
	8695	"additional_allowed_model_components":[
	8696	"CHEM",
	8697	"BGC"
	8698	],
	8699	"experiment":"pre-industrial climatological SSTs and forcing, but with 2014 organic carbon emissions",
	8700	"experiment_id":"piClim-OC",
	8701	"parent_activity_id":[
	8702	"CMIP"
	8703	],
	8704	"parent_experiment_id":[
	8705	"piControl"
	8706	],
	8707	"required_model_components":[
	8708	"AGCM",
	8709	"AER"
	8710	],
	8711	"sub_experiment_id":[
	8712	"none"
	8713	]
	8714	},
	8715	"piClim-SO2":{
	8716	"activity_id":[
	8717	"AerChemMIP"
	8718	],
	8719	"additional_allowed_model_components":[
	8720	"CHEM",
	8721	"BGC"
	8722	],
	8723	"experiment":"pre-industrial climatological SSTs and forcing, but with 2014 SO2 emissions",
	8724	"experiment_id":"piClim-SO2",
	8725	"parent_activity_id":[
	8726	"CMIP"
	8727	],
	8728	"parent_experiment_id":[
	8729	"piControl"
	8730	],
	8731	"required_model_components":[
	8732	"AGCM",
	8733	"AER"
	8734	],
	8735	"sub_experiment_id":[
	8736	"none"
	8737	]
	8738	},
	8739	"piClim-VOC":{
	8740	"activity_id":[
	8741	"AerChemMIP"
	8742	],
	8743	"additional_allowed_model_components":[
	8744	"BGC"
	8745	],
	8746	"experiment":"pre-industrial climatological SSTs and forcing, but with 2014 VOC emissions",
	8747	"experiment_id":"piClim-VOC",
	8748	"parent_activity_id":[
	8749	"CMIP"
	8750	],
	8751	"parent_experiment_id":[
	8752	"piControl"
	8753	],
	8754	"required_model_components":[
	8755	"AGCM",
	8756	"AER",
	8757	"CHEM"
	8758	],
	8759	"sub_experiment_id":[
	8760	"none"
	8761	]
	8762	},
	8763	"piClim-aer":{
	8764	"activity_id":[
	8765	"RFMIP AerChemMIP"
	8766	],
	8767	"additional_allowed_model_components":[
	8768	"AER",
	8769	"CHEM",
	8770	"BGC"
	8771	],
	8772	"experiment":"effective radiative forcing by present-day aerosols",
	8773	"experiment_id":"piClim-aer",
	8774	"parent_activity_id":[
	8775	"CMIP"
	8776	],
	8777	"parent_experiment_id":[
	8778	"piControl"
	8779	],
	8780	"required_model_components":[
	8781	"AGCM"
	8782	],
	8783	"sub_experiment_id":[
	8784	"none"
	8785	]
	8786	},
	8787	"piClim-anthro":{
	8788	"activity_id":[
	8789	"RFMIP"
	8790	],
	8791	"additional_allowed_model_components":[
	8792	"AER",
	8793	"CHEM"
	8794	],
	8795	"experiment":"effective radiative forcing by present day anthropogenic agents",
	8796	"experiment_id":"piClim-anthro",
	8797	"parent_activity_id":[
	8798	"CMIP"
	8799	],
	8800	"parent_experiment_id":[
	8801	"piControl"
	8802	],
	8803	"required_model_components":[
	8804	"AGCM"
	8805	],
	8806	"sub_experiment_id":[
	8807	"none"
	8808	]
	8809	},
	8810	"piClim-control":{
	8811	"activity_id":[
	8812	"RFMIP AerChemMIP"
	8813	],
	8814	"additional_allowed_model_components":[
	8815	"AER",
	8816	"CHEM",
	8817	"BGC"
	8818	],
	8819	"experiment":"Control simulation providing baseline for evaluating effective radiative forcing (ERF)",
	8820	"experiment_id":"piClim-control",
	8821	"parent_activity_id":[
	8822	"CMIP"
	8823	],
	8824	"parent_experiment_id":[
	8825	"piControl"
	8826	],
	8827	"required_model_components":[
	8828	"AGCM"
	8829	],
	8830	"sub_experiment_id":[
	8831	"none"
	8832	]
	8833	},
	8834	"piClim-ghg":{
	8835	"activity_id":[
	8836	"RFMIP"
	8837	],
	8838	"additional_allowed_model_components":[
	8839	"AER",
	8840	"CHEM",
	8841	"BGC"
	8842	],
	8843	"experiment":"effective radiative forcing by present-day greenhouse gases",
	8844	"experiment_id":"piClim-ghg",
	8845	"parent_activity_id":[
	8846	"CMIP"
	8847	],
	8848	"parent_experiment_id":[
	8849	"piControl"
	8850	],
	8851	"required_model_components":[
	8852	"AGCM"
	8853	],
	8854	"sub_experiment_id":[
	8855	"none"
	8856	]
	8857	},
	8858	"piClim-histaer":{
	8859	"activity_id":[
	8860	"RFMIP"
	8861	],
	8862	"additional_allowed_model_components":[
	8863	"AER",
	8864	"CHEM",
	8865	"BGC"
	8866	],
	8867	"experiment":"transient effective radiative forcing by aerosols",
	8868	"experiment_id":"piClim-histaer",
	8869	"parent_activity_id":[
	8870	"CMIP"
	8871	],
	8872	"parent_experiment_id":[
	8873	"piControl"
	8874	],
	8875	"required_model_components":[
	8876	"AGCM"
	8877	],
	8878	"sub_experiment_id":[
	8879	"none"
	8880	]
	8881	},
	8882	"piClim-histall":{
	8883	"activity_id":[
	8884	"RFMIP"
	8885	],
	8886	"additional_allowed_model_components":[
	8887	"AER",
	8888	"CHEM",
	8889	"BGC"
	8890	],
	8891	"experiment":"transient effective radiative forcing",
	8892	"experiment_id":"piClim-histall",
	8893	"parent_activity_id":[
	8894	"CMIP"
	8895	],
	8896	"parent_experiment_id":[
	8897	"piControl"
	8898	],
	8899	"required_model_components":[
	8900	"AGCM"
	8901	],
	8902	"sub_experiment_id":[
	8903	"none"
	8904	]
	8905	},
	8906	"piClim-histghg":{
	8907	"activity_id":[
	8908	"RFMIP"
	8909	],
	8910	"additional_allowed_model_components":[
	8911	"AER",
	8912	"CHEM",
	8913	"BGC"
	8914	],
	8915	"experiment":"transient effective radiative forcing by greenhouse gases",
	8916	"experiment_id":"piClim-histghg",
	8917	"parent_activity_id":[
	8918	"CMIP"
	8919	],
	8920	"parent_experiment_id":[
	8921	"piControl"
	8922	],
	8923	"required_model_components":[
	8924	"AGCM"
	8925	],
	8926	"sub_experiment_id":[
	8927	"none"
	8928	]
	8929	},
	8930	"piClim-histnat":{
	8931	"activity_id":[
	8932	"RFMIP"
	8933	],
	8934	"additional_allowed_model_components":[
	8935	"AER",
	8936	"CHEM",
	8937	"BGC"
	8938	],
	8939	"experiment":"transient effective radiative forcing by natural perturbations",
	8940	"experiment_id":"piClim-histnat",
	8941	"parent_activity_id":[
	8942	"CMIP"
	8943	],
	8944	"parent_experiment_id":[
	8945	"piControl"
	8946	],
	8947	"required_model_components":[
	8948	"AGCM"
	8949	],
	8950	"sub_experiment_id":[
	8951	"none"
	8952	]
	8953	},
	8954	"piClim-lu":{
	8955	"activity_id":[
	8956	"RFMIP"
	8957	],
	8958	"additional_allowed_model_components":[
	8959	"AER",
	8960	"CHEM",
	8961	"BGC"
	8962	],
	8963	"experiment":"effective radiative forcing by present-day land use",
	8964	"experiment_id":"piClim-lu",
	8965	"parent_activity_id":[
	8966	"CMIP"
	8967	],
	8968	"parent_experiment_id":[
	8969	"piControl"
	8970	],
	8971	"required_model_components":[
	8972	"AGCM"
	8973	],
	8974	"sub_experiment_id":[
	8975	"none"
	8976	]
	8977	},
	8978	"piClim-spAer-aer":{
	8979	"activity_id":[
	8980	"RFMIP"
	8981	],
	8982	"additional_allowed_model_components":[
	8983	""
	8984	],
	8985	"experiment":"effective radiative forcing at present day with specified anthropogenic aerosol optical properties, all forcings",
	8986	"experiment_id":"piClim-spAer-aer",
	8987	"parent_activity_id":[
	8988	"CMIP"
	8989	],
	8990	"parent_experiment_id":[
	8991	"piControl"
	8992	],
	8993	"required_model_components":[
	8994	"AGCM"
	8995	],
	8996	"sub_experiment_id":[
	8997	"none"
	8998	]
	8999	},
	9000	"piClim-spAer-anthro":{
	9001	"activity_id":[
	9002	"RFMIP"
	9003	],
	9004	"additional_allowed_model_components":[
	9005	""
	9006	],
	9007	"experiment":"effective radiative forcing at present day with specified anthropogenic aerosol optical properties, anthropogenic forcings",
	9008	"experiment_id":"piClim-spAer-anthro",
	9009	"parent_activity_id":[
	9010	"CMIP"
	9011	],
	9012	"parent_experiment_id":[
	9013	"piControl"
	9014	],
	9015	"required_model_components":[
	9016	"AGCM"
	9017	],
	9018	"sub_experiment_id":[
	9019	"none"
	9020	]
	9021	},
	9022	"piClim-spAer-histaer":{
	9023	"activity_id":[
	9024	"RFMIP"
	9025	],
	9026	"additional_allowed_model_components":[
	9027	""
	9028	],
	9029	"experiment":"transient effective radiative forcing with specified anthropogenic aerosol optical properties, aerosol forcing",
	9030	"experiment_id":"piClim-spAer-histaer",
	9031	"parent_activity_id":[
	9032	"CMIP"
	9033	],
	9034	"parent_experiment_id":[
	9035	"piControl"
	9036	],
	9037	"required_model_components":[
	9038	"AGCM"
	9039	],
	9040	"sub_experiment_id":[
	9041	"none"
	9042	]
	9043	},
	9044	"piClim-spAer-histall":{
	9045	"activity_id":[
	9046	"RFMIP"
	9047	],
	9048	"additional_allowed_model_components":[
	9049	""
	9050	],
	9051	"experiment":"transient effective radiative forcing with specified anthropogenic aerosol optical properties, all forcings",
	9052	"experiment_id":"piClim-spAer-histall",
	9053	"parent_activity_id":[
	9054	"CMIP"
	9055	],
	9056	"parent_experiment_id":[
	9057	"piControl"
	9058	],
	9059	"required_model_components":[
	9060	"AGCM"
	9061	],
	9062	"sub_experiment_id":[
	9063	"none"
	9064	]
	9065	},
	9066	"piControl":{
	9067	"activity_id":[
	9068	"CMIP"
	9069	],
	9070	"additional_allowed_model_components":[
	9071	"AER",
	9072	"CHEM",
	9073	"BGC"
	9074	],
	9075	"experiment":"pre-industrial control",
	9076	"experiment_id":"piControl",
	9077	"parent_activity_id":[
	9078	"CMIP"
	9079	],
	9080	"parent_experiment_id":[
	9081	"piControl-spinup"
	9082	],
	9083	"required_model_components":[
	9084	"AOGCM"
	9085	],
	9086	"sub_experiment_id":[
	9087	"none"
	9088	]
	9089	},
	9090	"piControl-cmip5":{
	9091	"activity_id":[
	9092	"CMIP"
	9093	],
	9094	"additional_allowed_model_components":[
	9095	"AER",
	9096	"CHEM",
	9097	"BGC"
	9098	],
	9099	"experiment":"pre-industrial control (CMIP5-era [1850-2005] forcing)",
	9100	"experiment_id":"piControl-cmip5",
	9101	"parent_activity_id":[
	9102	"CMIP"
	9103	],
	9104	"parent_experiment_id":[
	9105	"piControl-spinup-cmip5"
	9106	],
	9107	"required_model_components":[
	9108	"AOGCM"
	9109	],
	9110	"sub_experiment_id":[
	9111	"none"
	9112	]
	9113	},
	9114	"piControl-spinup":{
	9115	"activity_id":[
	9116	"CMIP"
	9117	],
	9118	"additional_allowed_model_components":[
	9119	"AER",
	9120	"CHEM",
	9121	"BGC"
	9122	],
	9123	"experiment":"pre-industrial control (spin-up)",
	9124	"experiment_id":"piControl-spinup",
	9125	"parent_activity_id":[
	9126	"no parent"
	9127	],
	9128	"parent_experiment_id":[
	9129	"no parent"
	9130	],
	9131	"required_model_components":[
	9132	"AOGCM"
	9133	],
	9134	"sub_experiment_id":[
	9135	"none"
	9136	]
	9137	},
	9138	"piControl-spinup-cmip5":{
	9139	"activity_id":[
	9140	"CMIP"
	9141	],
	9142	"additional_allowed_model_components":[
	9143	"AER",
	9144	"CHEM",
	9145	"BGC"
	9146	],
	9147	"experiment":"pre-industrial control (spin-up; CMIP5-era [1850-2005] forcing)",
	9148	"experiment_id":"piControl-spinup-cmip5",
	9149	"parent_activity_id":[
	9150	"CMIP"
	9151	],
	9152	"parent_experiment_id":[
	9153	"no parent"
	9154	],
	9155	"required_model_components":[
	9156	"AOGCM"
	9157	],
	9158	"sub_experiment_id":[
	9159	"none"
	9160	]
	9161	},
	9162	"piControl-withism":{
	9163	"activity_id":[
	9164	"ISMIP6"
	9165	],
	9166	"additional_allowed_model_components":[
	9167	"AER",
	9168	"CHEM",
	9169	"BGC"
	9170	],
	9171	"experiment":"preindustrial control with interactive ice sheet",
	9172	"experiment_id":"piControl-withism",
	9173	"parent_activity_id":[
	9174	"no parent"
	9175	],
	9176	"parent_experiment_id":[
	9177	"no parent"
	9178	],
	9179	"required_model_components":[
	9180	"AOGCM",
	9181	"ISM"
	9182	],
	9183	"sub_experiment_id":[
	9184	"none"
	9185	]
	9186	},
	9187	"piSST":{
	9188	"activity_id":[
	9189	"CFMIP"
	9190	],
	9191	"additional_allowed_model_components":[
	9192	"AER",
	9193	"CHEM"
	9194	],
	9195	"experiment":"experiment forced with pre-industrial SSTs, sea ice and atmospheric constituents",
	9196	"experiment_id":"piSST",
	9197	"parent_activity_id":[
	9198	"no parent"
	9199	],
	9200	"parent_experiment_id":[
	9201	"no parent"
	9202	],
	9203	"required_model_components":[
	9204	"AGCM"
	9205	],
	9206	"sub_experiment_id":[
	9207	"none"
	9208	]
	9209	},
	9210	"piSST-4xCO2":{
	9211	"activity_id":[
	9212	"CFMIP"
	9213	],
	9214	"additional_allowed_model_components":[
	9215	"AER",
	9216	"CHEM"
	9217	],
	9218	"experiment":"as piSST with radiation and vegetation seeing 4xCO2",
	9219	"experiment_id":"piSST-4xCO2",
	9220	"parent_activity_id":[
	9221	"no parent"
	9222	],
	9223	"parent_experiment_id":[
	9224	"no parent"
	9225	],
	9226	"required_model_components":[
	9227	"AGCM"
	9228	],
	9229	"sub_experiment_id":[
	9230	"none"
	9231	]
	9232	},
	9233	"piSST-4xCO2-rad":{
	9234	"activity_id":[
	9235	"CFMIP"
	9236	],
	9237	"additional_allowed_model_components":[
	9238	"AER",
	9239	"CHEM"
	9240	],
	9241	"experiment":"as piSST with radiation-only seeing 4xCO2",
	9242	"experiment_id":"piSST-4xCO2-rad",
	9243	"parent_activity_id":[
	9244	"no parent"
	9245	],
	9246	"parent_experiment_id":[
	9247	"no parent"
	9248	],
	9249	"required_model_components":[
	9250	"AGCM"
	9251	],
	9252	"sub_experiment_id":[
	9253	"none"
	9254	]
	9255	},
	9256	"piSST-4xCO2-solar":{
	9257	"activity_id":[
	9258	"GeoMIP"
	9259	],
	9260	"additional_allowed_model_components":[
	9261	"AER",
	9262	"CHEM"
	9263	],
	9264	"experiment":"preindustrial control SSTs with quadrupled CO2 and solar reduction",
	9265	"experiment_id":"piSST-4xCO2-solar",
	9266	"parent_activity_id":[
	9267	"CMIP"
	9268	],
	9269	"parent_experiment_id":[
	9270	"piControl"
	9271	],
	9272	"required_model_components":[
	9273	"AGCM"
	9274	],
	9275	"sub_experiment_id":[
	9276	"none"
	9277	]
	9278	},
	9279	"piSST-pdSIC":{
	9280	"activity_id":[
	9281	"PAMIP"
	9282	],
	9283	"additional_allowed_model_components":[
	9284	"AER",
	9285	"CHEM",
	9286	"BGC"
	9287	],
	9288	"experiment":"Atmosphere time slice with pre-industrial SST and present day SIC",
	9289	"experiment_id":"piSST-pdSIC",
	9290	"parent_activity_id":[
	9291	"CMIP"
	9292	],
	9293	"parent_experiment_id":[
	9294	"amip"
	9295	],
	9296	"required_model_components":[
	9297	"AGCM"
	9298	],
	9299	"sub_experiment_id":[
	9300	"none"
	9301	]
	9302	},
	9303	"piSST-piSIC":{
	9304	"activity_id":[
	9305	"PAMIP"
	9306	],
	9307	"additional_allowed_model_components":[
	9308	"AER",
	9309	"CHEM",
	9310	"BGC"
	9311	],
	9312	"experiment":"Atmosphere time slice with pre-industrial SST and SIC",
	9313	"experiment_id":"piSST-piSIC",
	9314	"parent_activity_id":[
	9315	"CMIP"
	9316	],
	9317	"parent_experiment_id":[
	9318	"amip"
	9319	],
	9320	"required_model_components":[
	9321	"AGCM"
	9322	],
	9323	"sub_experiment_id":[
	9324	"none"
	9325	]
	9326	},
	9327	"piSST-pxK":{
	9328	"activity_id":[
	9329	"CFMIP"
	9330	],
	9331	"additional_allowed_model_components":[
	9332	"AER",
	9333	"CHEM"
	9334	],
	9335	"experiment":"as piSST with uniform SST increase with magnitude based on abrupt-4xCO2 response",
	9336	"experiment_id":"piSST-pxK",
	9337	"parent_activity_id":[
	9338	"no parent"
	9339	],
	9340	"parent_experiment_id":[
	9341	"no parent"
	9342	],
	9343	"required_model_components":[
	9344	"AGCM"
	9345	],
	9346	"sub_experiment_id":[
	9347	"none"
	9348	]
	9349	},
	9350	"rad-irf":{
	9351	"activity_id":[
	9352	"RFMIP"
	9353	],
	9354	"additional_allowed_model_components":[
	9355	""
	9356	],
	9357	"experiment":"offline assessment of radiative transfer parmeterizations in clear skies",
	9358	"experiment_id":"rad-irf",
	9359	"parent_activity_id":[
	9360	"no parent"
	9361	],
	9362	"parent_experiment_id":[
	9363	"no parent"
	9364	],
	9365	"required_model_components":[
	9366	"RAD"
	9367	],
	9368	"sub_experiment_id":[
	9369	"none"
	9370	]
	9371	},
	9372	"rcp26-cmip5":{
	9373	"activity_id":[
	9374	"ScenarioMIP"
	9375	],
	9376	"additional_allowed_model_components":[
	9377	"AER",
	9378	"CHEM",
	9379	"BGC"
	9380	],
	9381	"experiment":"future projection based on CMIP5-era RCP2.6 scenario (CMIP5-era [2006-2100] forcing)",
	9382	"experiment_id":"rcp26-cmip5",
	9383	"parent_activity_id":[
	9384	"CMIP"
	9385	],
	9386	"parent_experiment_id":[
	9387	"historical-cmip5"
	9388	],
	9389	"required_model_components":[
	9390	"AOGCM"
	9391	],
	9392	"sub_experiment_id":[
	9393	"none"
	9394	]
	9395	},
	9396	"rcp45-cmip5":{
	9397	"activity_id":[
	9398	"ScenarioMIP"
	9399	],
	9400	"additional_allowed_model_components":[
	9401	"AER",
	9402	"CHEM",
	9403	"BGC"
	9404	],
	9405	"experiment":"future projection based on CMIP5-era RCP4.5 scenario (CMIP5-era [2006-2100] forcing)",
	9406	"experiment_id":"rcp45-cmip5",
	9407	"parent_activity_id":[
	9408	"CMIP"
	9409	],
	9410	"parent_experiment_id":[
	9411	"historical-cmip5"
	9412	],
	9413	"required_model_components":[
	9414	"AOGCM"
	9415	],
	9416	"sub_experiment_id":[
	9417	"none"
	9418	]
	9419	},
	9420	"rcp60-cmip5":{
	9421	"activity_id":[
	9422	"ScenarioMIP"
	9423	],
	9424	"additional_allowed_model_components":[
	9425	"AER",
	9426	"CHEM",
	9427	"BGC"
	9428	],
	9429	"experiment":"future projection based on CMIP5-era RCP6.0 scenario (CMIP5-era [2006-2100] forcing)",
	9430	"experiment_id":"rcp60-cmip5",
	9431	"parent_activity_id":[
	9432	"CMIP"
	9433	],
	9434	"parent_experiment_id":[
	9435	"historical-cmip5"
	9436	],
	9437	"required_model_components":[
	9438	"AOGCM"
	9439	],
	9440	"sub_experiment_id":[
	9441	"none"
	9442	]
	9443	},
	9444	"rcp85-cmip5":{
	9445	"activity_id":[
	9446	"ScenarioMIP"
	9447	],
	9448	"additional_allowed_model_components":[
	9449	"AER",
	9450	"CHEM",
	9451	"BGC"
	9452	],
	9453	"experiment":"future projection based on CMIP5-era RCP8.5 scenario (CMIP5-era [2006-2100] forcing)",
	9454	"experiment_id":"rcp85-cmip5",
	9455	"parent_activity_id":[
	9456	"CMIP"
	9457	],
	9458	"parent_experiment_id":[
	9459	"historical-cmip5"
	9460	],
	9461	"required_model_components":[
	9462	"AOGCM"
	9463	],
	9464	"sub_experiment_id":[
	9465	"none"
	9466	]
	9467	},
	9468	"spinup-1950":{
	9469	"activity_id":[
	9470	"HighResMIP"
	9471	],
	9472	"additional_allowed_model_components":[
	9473	"AER"
	9474	],
	9475	"experiment":"coupled spinup with fixed 1950s forcings from 1950 initial conditions (with ocean at rest) to provide initial condition for control-1950 and hist-1950",
	9476	"experiment_id":"spinup-1950",
	9477	"parent_activity_id":[
	9478	"no parent"
	9479	],
	9480	"parent_experiment_id":[
	9481	"no parent"
	9482	],
	9483	"required_model_components":[
	9484	"AOGCM"
	9485	],
	9486	"sub_experiment_id":[
	9487	"none"
	9488	]
	9489	},
	9490	"ssp119":{
	9491	"activity_id":[
	9492	"ScenarioMIP"
	9493	],
	9494	"additional_allowed_model_components":[
	9495	"AER",
	9496	"CHEM",
	9497	"BGC"
	9498	],
	9499	"experiment":"low-end scenario reaching 1.9 W m-2, based on SSP1",
	9500	"experiment_id":"ssp119",
	9501	"parent_activity_id":[
	9502	"CMIP"
	9503	],
	9504	"parent_experiment_id":[
	9505	"historical"
	9506	],
	9507	"required_model_components":[
	9508	"AOGCM"
	9509	],
	9510	"sub_experiment_id":[
	9511	"none"
	9512	]
	9513	},
	9514	"ssp126":{
	9515	"activity_id":[
	9516	"ScenarioMIP"
	9517	],
	9518	"additional_allowed_model_components":[
	9519	"AER",
	9520	"CHEM",
	9521	"BGC"
	9522	],
	9523	"experiment":"update of RCP2.6 based on SSP1",
	9524	"experiment_id":"ssp126",
	9525	"parent_activity_id":[
	9526	"CMIP"
	9527	],
	9528	"parent_experiment_id":[
	9529	"historical"
	9530	],
	9531	"required_model_components":[
	9532	"AOGCM"
	9533	],
	9534	"sub_experiment_id":[
	9535	"none"
	9536	]
	9537	},
	9538	"ssp126-ssp370Lu":{
	9539	"activity_id":[
	9540	"LUMIP"
	9541	],
	9542	"additional_allowed_model_components":[
	9543	"AER",
	9544	"CHEM",
	9545	"BGC"
	9546	],
	9547	"experiment":"SSP1-2.6 with SSP3-7.0 land use",
	9548	"experiment_id":"ssp126-ssp370Lu",
	9549	"parent_activity_id":[
	9550	"CMIP"
	9551	],
	9552	"parent_experiment_id":[
	9553	"historical"
	9554	],
	9555	"required_model_components":[
	9556	"AOGCM"
	9557	],
	9558	"sub_experiment_id":[
	9559	"none"
	9560	]
	9561	},
	9562	"ssp245":{
	9563	"activity_id":[
	9564	"ScenarioMIP"
	9565	],
	9566	"additional_allowed_model_components":[
	9567	"AER",
	9568	"CHEM",
	9569	"BGC"
	9570	],
	9571	"experiment":"update of RCP4.5 based on SSP2",
	9572	"experiment_id":"ssp245",
	9573	"parent_activity_id":[
	9574	"CMIP"
	9575	],
	9576	"parent_experiment_id":[
	9577	"historical"
	9578	],
	9579	"required_model_components":[
	9580	"AOGCM"
	9581	],
	9582	"sub_experiment_id":[
	9583	"none"
	9584	]
	9585	},
	9586	"ssp245-GHG":{
	9587	"activity_id":[
	9588	"DAMIP"
	9589	],
	9590	"additional_allowed_model_components":[
	9591	"AER",
	9592	"CHEM",
	9593	"BGC"
	9594	],
	9595	"experiment":"well-mixed GHG-only SSP2-4.5 run",
	9596	"experiment_id":"ssp245-GHG",
	9597	"parent_activity_id":[
	9598	"DAMIP"
	9599	],
	9600	"parent_experiment_id":[
	9601	"hist-GHG"
	9602	],
	9603	"required_model_components":[
	9604	"AOGCM"
	9605	],
	9606	"sub_experiment_id":[
	9607	"none"
	9608	]
	9609	},
	9610	"ssp245-aer":{
	9611	"activity_id":[
	9612	"DAMIP"
	9613	],
	9614	"additional_allowed_model_components":[
	9615	"AER",
	9616	"CHEM",
	9617	"BGC"
	9618	],
	9619	"experiment":"aerosol-only SSP2-4.5 run",
	9620	"experiment_id":"ssp245-aer",
	9621	"parent_activity_id":[
	9622	"DAMIP"
	9623	],
	9624	"parent_experiment_id":[
	9625	"hist-aer"
	9626	],
	9627	"required_model_components":[
	9628	"AOGCM"
	9629	],
	9630	"sub_experiment_id":[
	9631	"none"
	9632	]
	9633	},
	9634	"ssp245-cov-GHG":{
	9635	"activity_id":[
	9636	"DAMIP"
	9637	],
	9638	"additional_allowed_model_components":[
	9639	"AER",
	9640	"CHEM",
	9641	"BGC"
	9642	],
	9643	"experiment":"2-year Covid-19 emissions blip including well mixed GHG only, based upon ssp245",
	9644	"experiment_id":"ssp245-cov-GHG",
	9645	"parent_activity_id":[
	9646	"ScenarioMIP"
	9647	],
	9648	"parent_experiment_id":[
	9649	"ssp245"
	9650	],
	9651	"required_model_components":[
	9652	"AOGCM"
	9653	],
	9654	"sub_experiment_id":[
	9655	"none"
	9656	]
	9657	},
	9658	"ssp245-cov-aer":{
	9659	"activity_id":[
	9660	"DAMIP"
	9661	],
	9662	"additional_allowed_model_components":[
	9663	"AER",
	9664	"CHEM",
	9665	"BGC"
	9666	],
	9667	"experiment":"2-year Covid-19 emissions blip including anthropogenic aerosols only, based upon ssp245",
	9668	"experiment_id":"ssp245-cov-aer",
	9669	"parent_activity_id":[
	9670	"ScenarioMIP"
	9671	],
	9672	"parent_experiment_id":[
	9673	"ssp245"
	9674	],
	9675	"required_model_components":[
	9676	"AOGCM"
	9677	],
	9678	"sub_experiment_id":[
	9679	"none"
	9680	]
	9681	},
	9682	"ssp245-cov-fossil":{
	9683	"activity_id":[
	9684	"DAMIP"
	9685	],
	9686	"additional_allowed_model_components":[
	9687	"AER",
	9688	"CHEM",
	9689	"BGC"
	9690	],
	9691	"experiment":"2-year Covid-19 emissions blip followed by increased emissions due to a fossil-fuel based recovery, based upon ssp245",
	9692	"experiment_id":"ssp245-cov-fossil",
	9693	"parent_activity_id":[
	9694	"ScenarioMIP"
	9695	],
	9696	"parent_experiment_id":[
	9697	"ssp245"
	9698	],
	9699	"required_model_components":[
	9700	"AOGCM"
	9701	],
	9702	"sub_experiment_id":[
	9703	"none"
	9704	]
	9705	},
	9706	"ssp245-cov-modgreen":{
	9707	"activity_id":[
	9708	"DAMIP"
	9709	],
	9710	"additional_allowed_model_components":[
	9711	"AER",
	9712	"CHEM",
	9713	"BGC"
	9714	],
	9715	"experiment":"2-year Covid-19 emissions blip followed by moderate-green stimulus recovery, based upon ssp245",
	9716	"experiment_id":"ssp245-cov-modgreen",
	9717	"parent_activity_id":[
	9718	"ScenarioMIP"
	9719	],
	9720	"parent_experiment_id":[
	9721	"ssp245"
	9722	],
	9723	"required_model_components":[
	9724	"AOGCM"
	9725	],
	9726	"sub_experiment_id":[
	9727	"none"
	9728	]
	9729	},
	9730	"ssp245-cov-strgreen":{
	9731	"activity_id":[
	9732	"DAMIP"
	9733	],
	9734	"additional_allowed_model_components":[
	9735	"AER",
	9736	"CHEM",
	9737	"BGC"
	9738	],
	9739	"experiment":"2-year Covid-19 emissions blip followed by strong-green stimulus recovery, based upon ssp245",
	9740	"experiment_id":"ssp245-cov-strgreen",
	9741	"parent_activity_id":[
	9742	"ScenarioMIP"
	9743	],
	9744	"parent_experiment_id":[
	9745	"ssp245"
	9746	],
	9747	"required_model_components":[
	9748	"AOGCM"
	9749	],
	9750	"sub_experiment_id":[
	9751	"none"
	9752	]
	9753	},
	9754	"ssp245-covid":{
	9755	"activity_id":[
	9756	"DAMIP"
	9757	],
	9758	"additional_allowed_model_components":[
	9759	"AER",
	9760	"CHEM",
	9761	"BGC"
	9762	],
	9763	"experiment":"2-year Covid-19 emissions blip based upon ssp245",
	9764	"experiment_id":"ssp245-covid",
	9765	"parent_activity_id":[
	9766	"ScenarioMIP"
	9767	],
	9768	"parent_experiment_id":[
	9769	"ssp245"
	9770	],
	9771	"required_model_components":[
	9772	"AOGCM"
	9773	],
	9774	"sub_experiment_id":[
	9775	"none"
	9776	]
	9777	},
	9778	"ssp245-nat":{
	9779	"activity_id":[
	9780	"DAMIP"
	9781	],
	9782	"additional_allowed_model_components":[
	9783	"AER",
	9784	"CHEM",
	9785	"BGC"
	9786	],
	9787	"experiment":"natural-only SSP2-4.5 run",
	9788	"experiment_id":"ssp245-nat",
	9789	"parent_activity_id":[
	9790	"DAMIP"
	9791	],
	9792	"parent_experiment_id":[
	9793	"hist-nat"
	9794	],
	9795	"required_model_components":[
	9796	"AOGCM"
	9797	],
	9798	"sub_experiment_id":[
	9799	"none"
	9800	]
	9801	},
	9802	"ssp245-stratO3":{
	9803	"activity_id":[
	9804	"DAMIP"
	9805	],
	9806	"additional_allowed_model_components":[
	9807	"AER",
	9808	"BGC"
	9809	],
	9810	"experiment":"stratospheric ozone-only SSP2-4.5 (ssp245) run",
	9811	"experiment_id":"ssp245-stratO3",
	9812	"parent_activity_id":[
	9813	"DAMIP"
	9814	],
	9815	"parent_experiment_id":[
	9816	"hist-stratO3"
	9817	],
	9818	"required_model_components":[
	9819	"AOGCM"
	9820	],
	9821	"sub_experiment_id":[
	9822	"none"
	9823	]
	9824	},
	9825	"ssp370":{
	9826	"activity_id":[
	9827	"ScenarioMIP AerChemMIP"
	9828	],
	9829	"additional_allowed_model_components":[
	9830	"AER",
	9831	"CHEM",
	9832	"BGC"
	9833	],
	9834	"experiment":"gap-filling scenario reaching 7.0 based on SSP3",
	9835	"experiment_id":"ssp370",
	9836	"parent_activity_id":[
	9837	"CMIP"
	9838	],
	9839	"parent_experiment_id":[
	9840	"historical"
	9841	],
	9842	"required_model_components":[
	9843	"AOGCM"
	9844	],
	9845	"sub_experiment_id":[
	9846	"none"
	9847	]
	9848	},
	9849	"ssp370-lowNTCF":{
	9850	"activity_id":[
	9851	"AerChemMIP"
	9852	],
	9853	"additional_allowed_model_components":[
	9854	"CHEM",
	9855	"BGC"
	9856	],
	9857	"experiment":"SSP3-7.0, with low NTCF emissions",
	9858	"experiment_id":"ssp370-lowNTCF",
	9859	"parent_activity_id":[
	9860	"CMIP"
	9861	],
	9862	"parent_experiment_id":[
	9863	"historical"
	9864	],
	9865	"required_model_components":[
	9866	"AOGCM",
	9867	"AER"
	9868	],
	9869	"sub_experiment_id":[
	9870	"none"
	9871	]
	9872	},
	9873	"ssp370-lowNTCFCH4":{
	9874	"activity_id":[
	9875	"AerChemMIP"
	9876	],
	9877	"additional_allowed_model_components":[
	9878	"CHEM",
	9879	"BGC"
	9880	],
	9881	"experiment":"SSP3-7.0, with low NTCF emissions and methane concentrations",
	9882	"experiment_id":"ssp370-lowNTCFCH4",
	9883	"parent_activity_id":[
	9884	"CMIP"
	9885	],
	9886	"parent_experiment_id":[
	9887	"historical"
	9888	],
	9889	"required_model_components":[
	9890	"AOGCM",
	9891	"AER"
	9892	],
	9893	"sub_experiment_id":[
	9894	"none"
	9895	]
	9896	},
	9897	"ssp370-ssp126Lu":{
	9898	"activity_id":[
	9899	"LUMIP"
	9900	],
	9901	"additional_allowed_model_components":[
	9902	"AER",
	9903	"CHEM",
	9904	"BGC"
	9905	],
	9906	"experiment":"SSP3-7.0 with SSP1-2.6 land use",
	9907	"experiment_id":"ssp370-ssp126Lu",
	9908	"parent_activity_id":[
	9909	"CMIP"
	9910	],
	9911	"parent_experiment_id":[
	9912	"historical"
	9913	],
	9914	"required_model_components":[
	9915	"AOGCM"
	9916	],
	9917	"sub_experiment_id":[
	9918	"none"
	9919	]
	9920	},
	9921	"ssp370SST":{
	9922	"activity_id":[
	9923	"AerChemMIP"
	9924	],
	9925	"additional_allowed_model_components":[
	9926	"CHEM",
	9927	"BGC"
	9928	],
	9929	"experiment":"SSP3-7.0, with SSTs prescribed from ssp370",
	9930	"experiment_id":"ssp370SST",
	9931	"parent_activity_id":[
	9932	"CMIP"
	9933	],
	9934	"parent_experiment_id":[
	9935	"historical"
	9936	],
	9937	"required_model_components":[
	9938	"AGCM",
	9939	"AER"
	9940	],
	9941	"sub_experiment_id":[
	9942	"none"
	9943	]
	9944	},
	9945	"ssp370SST-lowAer":{
	9946	"activity_id":[
	9947	"AerChemMIP"
	9948	],
	9949	"additional_allowed_model_components":[
	9950	"CHEM",
	9951	"BGC"
	9952	],
	9953	"experiment":"SSP3-7.0, prescribed SSTs, with low aerosol emissions",
	9954	"experiment_id":"ssp370SST-lowAer",
	9955	"parent_activity_id":[
	9956	"CMIP"
	9957	],
	9958	"parent_experiment_id":[
	9959	"historical"
	9960	],
	9961	"required_model_components":[
	9962	"AGCM",
	9963	"AER"
	9964	],
	9965	"sub_experiment_id":[
	9966	"none"
	9967	]
	9968	},
	9969	"ssp370SST-lowBC":{
	9970	"activity_id":[
	9971	"AerChemMIP"
	9972	],
	9973	"additional_allowed_model_components":[
	9974	"CHEM",
	9975	"BGC"
	9976	],
	9977	"experiment":"SSP3-7.0, prescribed SSTs, with low black carbon emissions",
	9978	"experiment_id":"ssp370SST-lowBC",
	9979	"parent_activity_id":[
	9980	"CMIP"
	9981	],
	9982	"parent_experiment_id":[
	9983	"historical"
	9984	],
	9985	"required_model_components":[
	9986	"AGCM",
	9987	"AER"
	9988	],
	9989	"sub_experiment_id":[
	9990	"none"
	9991	]
	9992	},
	9993	"ssp370SST-lowCH4":{
	9994	"activity_id":[
	9995	"AerChemMIP"
	9996	],
	9997	"additional_allowed_model_components":[
	9998	"BGC"
	9999	],
	10000	"experiment":"SSP3-7.0, prescribed SSTs, with low methane concentrations",
	10001	"experiment_id":"ssp370SST-lowCH4",
	10002	"parent_activity_id":[
	10003	"CMIP"
	10004	],
	10005	"parent_experiment_id":[
	10006	"historical"
	10007	],
	10008	"required_model_components":[
	10009	"AGCM",
	10010	"AER",
	10011	"CHEM"
	10012	],
	10013	"sub_experiment_id":[
	10014	"none"
	10015	]
	10016	},
	10017	"ssp370SST-lowNTCF":{
	10018	"activity_id":[
	10019	"AerChemMIP"
	10020	],
	10021	"additional_allowed_model_components":[
	10022	"CHEM",
	10023	"BGC"
	10024	],
	10025	"experiment":"SSP3-7.0, prescribed SSTs, with low NTCF emissions",
	10026	"experiment_id":"ssp370SST-lowNTCF",
	10027	"parent_activity_id":[
	10028	"CMIP"
	10029	],
	10030	"parent_experiment_id":[
	10031	"historical"
	10032	],
	10033	"required_model_components":[
	10034	"AGCM",
	10035	"AER"
	10036	],
	10037	"sub_experiment_id":[
	10038	"none"
	10039	]
	10040	},
	10041	"ssp370SST-lowNTCFCH4":{
	10042	"activity_id":[
	10043	"AerChemMIP"
	10044	],
	10045	"additional_allowed_model_components":[
	10046	"CHEM",
	10047	"BGC"
	10048	],
	10049	"experiment":"SSP3-7.0, prescribed SSTs, with low NTCF emissions and methane concentrations",
	10050	"experiment_id":"ssp370SST-lowNTCFCH4",
	10051	"parent_activity_id":[
	10052	"CMIP"
	10053	],
	10054	"parent_experiment_id":[
	10055	"historical"
	10056	],
	10057	"required_model_components":[
	10058	"AGCM",
	10059	"AER"
	10060	],
	10061	"sub_experiment_id":[
	10062	"none"
	10063	]
	10064	},
	10065	"ssp370SST-lowO3":{
	10066	"activity_id":[
	10067	"AerChemMIP"
	10068	],
	10069	"additional_allowed_model_components":[
	10070	"BGC"
	10071	],
	10072	"experiment":"SSP3-7.0, prescribed SSTs, with low ozone precursor emissions",
	10073	"experiment_id":"ssp370SST-lowO3",
	10074	"parent_activity_id":[
	10075	"CMIP"
	10076	],
	10077	"parent_experiment_id":[
	10078	"historical"
	10079	],
	10080	"required_model_components":[
	10081	"AGCM",
	10082	"AER",
	10083	"CHEM"
	10084	],
	10085	"sub_experiment_id":[
	10086	"none"
	10087	]
	10088	},
	10089	"ssp370SST-ssp126Lu":{
	10090	"activity_id":[
	10091	"AerChemMIP"
	10092	],
	10093	"additional_allowed_model_components":[
	10094	"CHEM",
	10095	"BGC"
	10096	],
	10097	"experiment":"SSP3-7.0, prescribed SSTs, with SSP1-2.6 land use",
	10098	"experiment_id":"ssp370SST-ssp126Lu",
	10099	"parent_activity_id":[
	10100	"CMIP"
	10101	],
	10102	"parent_experiment_id":[
	10103	"historical"
	10104	],
	10105	"required_model_components":[
	10106	"AGCM",
	10107	"AER"
	10108	],
	10109	"sub_experiment_id":[
	10110	"none"
	10111	]
	10112	},
	10113	"ssp370pdSST":{
	10114	"activity_id":[
	10115	"AerChemMIP"
	10116	],
	10117	"additional_allowed_model_components":[
	10118	"CHEM",
	10119	"BGC"
	10120	],
	10121	"experiment":"SSP3-7.0, with SSTs prescribed as present day",
	10122	"experiment_id":"ssp370pdSST",
	10123	"parent_activity_id":[
	10124	"CMIP"
	10125	],
	10126	"parent_experiment_id":[
	10127	"historical"
	10128	],
	10129	"required_model_components":[
	10130	"AGCM",
	10131	"AER"
	10132	],
	10133	"sub_experiment_id":[
	10134	"none"
	10135	]
	10136	},
	10137	"ssp434":{
	10138	"activity_id":[
	10139	"ScenarioMIP"
	10140	],
	10141	"additional_allowed_model_components":[
	10142	"AER",
	10143	"CHEM",
	10144	"BGC"
	10145	],
	10146	"experiment":"gap-filling scenario reaching 3.4 based on SSP4",
	10147	"experiment_id":"ssp434",
	10148	"parent_activity_id":[
	10149	"CMIP"
	10150	],
	10151	"parent_experiment_id":[
	10152	"historical"
	10153	],
	10154	"required_model_components":[
	10155	"AOGCM"
	10156	],
	10157	"sub_experiment_id":[
	10158	"none"
	10159	]
	10160	},
	10161	"ssp460":{
	10162	"activity_id":[
	10163	"ScenarioMIP"
	10164	],
	10165	"additional_allowed_model_components":[
	10166	"AER",
	10167	"CHEM",
	10168	"BGC"
	10169	],
	10170	"experiment":"update of RCP6.0 based on SSP4",
	10171	"experiment_id":"ssp460",
	10172	"parent_activity_id":[
	10173	"CMIP"
	10174	],
	10175	"parent_experiment_id":[
	10176	"historical"
	10177	],
	10178	"required_model_components":[
	10179	"AOGCM"
	10180	],
	10181	"sub_experiment_id":[
	10182	"none"
	10183	]
	10184	},
	10185	"ssp534-over":{
	10186	"activity_id":[
	10187	"ScenarioMIP"
	10188	],
	10189	"additional_allowed_model_components":[
	10190	"AER",
	10191	"CHEM",
	10192	"BGC"
	10193	],
	10194	"experiment":"overshoot of 3.4 W/m**2 branching from ssp585 in 2040",
	10195	"experiment_id":"ssp534-over",
	10196	"parent_activity_id":[
	10197	"ScenarioMIP"
	10198	],
	10199	"parent_experiment_id":[
	10200	"ssp585"
	10201	],
	10202	"required_model_components":[
	10203	"AOGCM"
	10204	],
	10205	"sub_experiment_id":[
	10206	"none"
	10207	]
	10208	},
	10209	"ssp534-over-bgc":{
	10210	"activity_id":[
	10211	"C4MIP"
	10212	],
	10213	"additional_allowed_model_components":[
	10214	"AER",
	10215	"CHEM"
	10216	],
	10217	"experiment":"biogeochemically-coupled version of the RCP3.4-overshoot based on SSP5",
	10218	"experiment_id":"ssp534-over-bgc",
	10219	"parent_activity_id":[
	10220	"C4MIP"
	10221	],
	10222	"parent_experiment_id":[
	10223	"ssp585-bgc"
	10224	],
	10225	"required_model_components":[
	10226	"AOGCM",
	10227	"BGC"
	10228	],
	10229	"sub_experiment_id":[
	10230	"none"
	10231	]
	10232	},
	10233	"ssp585":{
	10234	"activity_id":[
	10235	"ScenarioMIP"
	10236	],
	10237	"additional_allowed_model_components":[
	10238	"AER",
	10239	"CHEM",
	10240	"BGC"
	10241	],
	10242	"experiment":"update of RCP8.5 based on SSP5",
	10243	"experiment_id":"ssp585",
	10244	"parent_activity_id":[
	10245	"CMIP"
	10246	],
	10247	"parent_experiment_id":[
	10248	"historical"
	10249	],
	10250	"required_model_components":[
	10251	"AOGCM"
	10252	],
	10253	"sub_experiment_id":[
	10254	"none"
	10255	]
	10256	},
	10257	"ssp585-bgc":{
	10258	"activity_id":[
	10259	"C4MIP"
	10260	],
	10261	"additional_allowed_model_components":[
	10262	"AER",
	10263	"CHEM"
	10264	],
	10265	"experiment":"biogeochemically-coupled version of the RCP8.5 based on SSP5",
	10266	"experiment_id":"ssp585-bgc",
	10267	"parent_activity_id":[
	10268	"C4MIP"
	10269	],
	10270	"parent_experiment_id":[
	10271	"hist-bgc"
	10272	],
	10273	"required_model_components":[
	10274	"AOGCM",
	10275	"BGC"
	10276	],
	10277	"sub_experiment_id":[
	10278	"none"
	10279	]
	10280	},
	10281	"ssp585-withism":{
	10282	"activity_id":[
	10283	"ISMIP6"
	10284	],
	10285	"additional_allowed_model_components":[
	10286	"AER",
	10287	"CHEM",
	10288	"BGC"
	10289	],
	10290	"experiment":"ssp585 with interactive ice sheet",
	10291	"experiment_id":"ssp585-withism",
	10292	"parent_activity_id":[
	10293	"ISMIP6"
	10294	],
	10295	"parent_experiment_id":[
	10296	"historical-withism"
	10297	],
	10298	"required_model_components":[
	10299	"AOGCM",
	10300	"ISM"
	10301	],
	10302	"sub_experiment_id":[
	10303	"none"
	10304	]
	10305	},
	10306	"volc-cluster-21C":{
	10307	"activity_id":[
	10308	"VolMIP"
	10309	],
	10310	"additional_allowed_model_components":[
	10311	"AER",
	10312	"CHEM",
	10313	"BGC"
	10314	],
	10315	"experiment":"volcanic cluster experiment under 21st century SSP2-4.5 scenario",
	10316	"experiment_id":"volc-cluster-21C",
	10317	"parent_activity_id":[
	10318	"CMIP"
	10319	],
	10320	"parent_experiment_id":[
	10321	"historical"
	10322	],
	10323	"required_model_components":[
	10324	"AOGCM"
	10325	],
	10326	"sub_experiment_id":[
	10327	"none"
	10328	]
	10329	},
	10330	"volc-cluster-ctrl":{
	10331	"activity_id":[
	10332	"VolMIP"
	10333	],
	10334	"additional_allowed_model_components":[
	10335	"AER",
	10336	"CHEM",
	10337	"BGC"
	10338	],
	10339	"experiment":"19th century volcanic cluster initialized from PiControl",
	10340	"experiment_id":"volc-cluster-ctrl",
	10341	"parent_activity_id":[
	10342	"CMIP"
	10343	],
	10344	"parent_experiment_id":[
	10345	"piControl"
	10346	],
	10347	"required_model_components":[
	10348	"AOGCM"
	10349	],
	10350	"sub_experiment_id":[
	10351	"none"
	10352	]
	10353	},
	10354	"volc-cluster-mill":{
	10355	"activity_id":[
	10356	"VolMIP"
	10357	],
	10358	"additional_allowed_model_components":[
	10359	"AER",
	10360	"CHEM",
	10361	"BGC"
	10362	],
	10363	"experiment":"19th century volcanic cluster initialized from past1000",
	10364	"experiment_id":"volc-cluster-mill",
	10365	"parent_activity_id":[
	10366	"PMIP"
	10367	],
	10368	"parent_experiment_id":[
	10369	"past1000"
	10370	],
	10371	"required_model_components":[
	10372	"AOGCM"
	10373	],
	10374	"sub_experiment_id":[
	10375	"none"
	10376	]
	10377	},
	10378	"volc-long-eq":{
	10379	"activity_id":[
	10380	"VolMIP"
	10381	],
	10382	"additional_allowed_model_components":[
	10383	"AER",
	10384	"CHEM",
	10385	"BGC"
	10386	],
	10387	"experiment":"idealized equatorial volcanic eruption emitting 56.2 Tg SO2",
	10388	"experiment_id":"volc-long-eq",
	10389	"parent_activity_id":[
	10390	"CMIP"
	10391	],
	10392	"parent_experiment_id":[
	10393	"piControl"
	10394	],
	10395	"required_model_components":[
	10396	"AOGCM"
	10397	],
	10398	"sub_experiment_id":[
	10399	"none"
	10400	]
	10401	},
	10402	"volc-long-hlN":{
	10403	"activity_id":[
	10404	"VolMIP"
	10405	],
	10406	"additional_allowed_model_components":[
	10407	"AER",
	10408	"CHEM",
	10409	"BGC"
	10410	],
	10411	"experiment":"idealized Northern Hemisphere high-latitude eruption emitting 28.1 Tg of SO2",
	10412	"experiment_id":"volc-long-hlN",
	10413	"parent_activity_id":[
	10414	"CMIP"
	10415	],
	10416	"parent_experiment_id":[
	10417	"piControl"
	10418	],
	10419	"required_model_components":[
	10420	"AOGCM"
	10421	],
	10422	"sub_experiment_id":[
	10423	"none"
	10424	]
	10425	},
	10426	"volc-long-hlS":{
	10427	"activity_id":[
	10428	"VolMIP"
	10429	],
	10430	"additional_allowed_model_components":[
	10431	"AER",
	10432	"CHEM",
	10433	"BGC"
	10434	],
	10435	"experiment":"Idealized Southern Hemisphere high-latitude eruption emitting 28.1 Tg of SO2",
	10436	"experiment_id":"volc-long-hlS",
	10437	"parent_activity_id":[
	10438	"CMIP"
	10439	],
	10440	"parent_experiment_id":[
	10441	"piControl"
	10442	],
	10443	"required_model_components":[
	10444	"AOGCM"
	10445	],
	10446	"sub_experiment_id":[
	10447	"none"
	10448	]
	10449	},
	10450	"volc-pinatubo-full":{
	10451	"activity_id":[
	10452	"VolMIP"
	10453	],
	10454	"additional_allowed_model_components":[
	10455	"AER",
	10456	"CHEM",
	10457	"BGC"
	10458	],
	10459	"experiment":"Pinatubo experiment",
	10460	"experiment_id":"volc-pinatubo-full",
	10461	"parent_activity_id":[
	10462	"CMIP"
	10463	],
	10464	"parent_experiment_id":[
	10465	"piControl"
	10466	],
	10467	"required_model_components":[
	10468	"AOGCM"
	10469	],
	10470	"sub_experiment_id":[
	10471	"none"
	10472	]
	10473	},
	10474	"volc-pinatubo-slab":{
	10475	"activity_id":[
	10476	"VolMIP"
	10477	],
	10478	"additional_allowed_model_components":[
	10479	"AER",
	10480	"CHEM",
	10481	"BGC"
	10482	],
	10483	"experiment":"Pinatubo experiment with slab ocean",
	10484	"experiment_id":"volc-pinatubo-slab",
	10485	"parent_activity_id":[
	10486	"VolMIP"
	10487	],
	10488	"parent_experiment_id":[
	10489	"control-slab"
	10490	],
	10491	"required_model_components":[
	10492	"AGCM",
	10493	"SLAB"
	10494	],
	10495	"sub_experiment_id":[
	10496	"none"
	10497	]
	10498	},
	10499	"volc-pinatubo-strat":{
	10500	"activity_id":[
	10501	"VolMIP"
	10502	],
	10503	"additional_allowed_model_components":[
	10504	"AER",
	10505	"CHEM",
	10506	"BGC"
	10507	],
	10508	"experiment":"Pinatubo experiment with partial radiative forcing, includes only stratospheric warming",
	10509	"experiment_id":"volc-pinatubo-strat",
	10510	"parent_activity_id":[
	10511	"CMIP"
	10512	],
	10513	"parent_experiment_id":[
	10514	"piControl"
	10515	],
	10516	"required_model_components":[
	10517	"AOGCM"
	10518	],
	10519	"sub_experiment_id":[
	10520	"none"
	10521	]
	10522	},
	10523	"volc-pinatubo-surf":{
	10524	"activity_id":[
	10525	"VolMIP"
	10526	],
	10527	"additional_allowed_model_components":[
	10528	"AER",
	10529	"CHEM",
	10530	"BGC"
	10531	],
	10532	"experiment":"Pinatubo experiment with partial radiative forcing, solar radiation scattering only",
	10533	"experiment_id":"volc-pinatubo-surf",
	10534	"parent_activity_id":[
	10535	"CMIP"
	10536	],
	10537	"parent_experiment_id":[
	10538	"piControl"
	10539	],
	10540	"required_model_components":[
	10541	"AOGCM"
	10542	],
	10543	"sub_experiment_id":[
	10544	"none"
	10545	]
	10546	},
	10547	"yr2010CO2":{
	10548	"activity_id":[
	10549	"CDRMIP"
	10550	],
	10551	"additional_allowed_model_components":[
	10552	"AER",
	10553	"CHEM"
	10554	],
	10555	"experiment":"concentration-driven fixed 2010 forcing",
	10556	"experiment_id":"yr2010CO2",
	10557	"parent_activity_id":[
	10558	"CMIP"
	10559	],
	10560	"parent_experiment_id":[
	10561	"historical"
	10562	],
	10563	"required_model_components":[
	10564	"AOGCM",
	10565	"BGC"
	10566	],
	10567	"sub_experiment_id":[
	10568	"none"
	10569	]
	10570	}
	10571	},
	10572	"product":[
	10573	"model-output"
	10574	],
	10575	"tracking_id":[
	10576	"hdl:21.14100/.*"
	10577	],
	10578	"further_info_url":[
	10579	"https://furtherinfo.es-doc.org/.*"
	10580	],
	10581	"realization_index":[
	10582	"^\\[\\{0,\\}[[:digit:]]\\{1,\\}\\]\\{0,\\}$"
	10583	],
	10584	"variant_label":[
	10585	"r[[:digit:]]\\{1,\\}i[[:digit:]]\\{1,\\}p[[:digit:]]\\{1,\\}f[[:digit:]]\\{1,\\}$"
	10586	],
	10587	"data_specs_version":[
	10588	"^[[:digit:]]\\{2,2\\}\\.[[:digit:]]\\{2,2\\}\\.[[:digit:]]\\{2,2\\}$"
	10589	],
	10590	"Conventions":[
	10591	"^CF-1.7 CMIP-6.[0-2]\$ UGRID-1.0\$\\{0,\\}$"
	10592	],
	10593	"forcing_index":[
	10594	"^\\[\\{0,\\}[[:digit:]]\\{1,\\}\\]\\{0,\\}$"
	10595	],
	10596	"initialization_index":[
	10597	"^\\[\\{0,\\}[[:digit:]]\\{1,\\}\\]\\{0,\\}$"
	10598	],
	10599	"physics_index":[
	10600	"^\\[\\{0,\\}[[:digit:]]\\{1,\\}\\]\\{0,\\}$"
	10601	]
	10602	}
	10603	}⏎

+213

-0

TestTables/CMIP6_coordinate_leadtime.json less more

	0	{
	1	"axis_entry": {
	2	"height2m": {
	3	"standard_name": "height",
	4	"units": "m",
	5	"axis": "Z",
	6	"long_name": "height",
	7	"climatology": "",
	8	"formula": "",
	9	"must_have_bounds": "no",
	10	"out_name": "height",
	11	"positive": "up",
	12	"requested": "",
	13	"requested_bounds": "",
	14	"stored_direction": "increasing",
	15	"tolerance": "",
	16	"type": "double",
	17	"valid_max": "10.0",
	18	"valid_min": "1.0",
	19	"value": "2.",
	20	"z_bounds_factors": "",
	21	"z_factors": "",
	22	"bounds_values": "",
	23	"generic_level_name": ""
	24	},
	25	"latitude": {
	26	"standard_name": "latitude",
	27	"units": "degrees_north",
	28	"axis": "Y",
	29	"long_name": "Latitude",
	30	"climatology": "",
	31	"formula": "",
	32	"must_have_bounds": "yes",
	33	"out_name": "lat",
	34	"positive": "",
	35	"requested": "",
	36	"requested_bounds": "",
	37	"stored_direction": "increasing",
	38	"tolerance": "",
	39	"type": "double",
	40	"valid_max": "90.0",
	41	"valid_min": "-90.0",
	42	"value": "",
	43	"z_bounds_factors": "",
	44	"z_factors": "",
	45	"bounds_values": "",
	46	"generic_level_name": ""
	47	},
	48	"longitude": {
	49	"standard_name": "longitude",
	50	"units": "degrees_east",
	51	"axis": "X",
	52	"long_name": "Longitude",
	53	"climatology": "",
	54	"formula": "",
	55	"must_have_bounds": "yes",
	56	"out_name": "lon",
	57	"positive": "",
	58	"requested": "",
	59	"requested_bounds": "",
	60	"stored_direction": "increasing",
	61	"tolerance": "",
	62	"type": "double",
	63	"valid_max": "360.0",
	64	"valid_min": "0.0",
	65	"value": "",
	66	"z_bounds_factors": "",
	67	"z_factors": "",
	68	"bounds_values": "",
	69	"generic_level_name": ""
	70	},
	71	"time": {
	72	"standard_name": "time",
	73	"units": "days since ?",
	74	"axis": "T",
	75	"long_name": "time",
	76	"climatology": "",
	77	"formula": "",
	78	"must_have_bounds": "yes",
	79	"out_name": "time",
	80	"positive": "",
	81	"requested": "",
	82	"requested_bounds": "",
	83	"stored_direction": "increasing",
	84	"tolerance": "",
	85	"type": "double",
	86	"valid_max": "",
	87	"valid_min": "",
	88	"value": "",
	89	"z_bounds_factors": "",
	90	"z_factors": "",
	91	"bounds_values": "",
	92	"generic_level_name": ""
	93	},
	94	"time1": {
	95	"standard_name": "time",
	96	"units": "days since ?",
	97	"axis": "T",
	98	"long_name": "time",
	99	"climatology": "",
	100	"formula": "",
	101	"must_have_bounds": "no",
	102	"out_name": "time",
	103	"positive": "",
	104	"requested": "",
	105	"requested_bounds": "",
	106	"stored_direction": "increasing",
	107	"tolerance": "",
	108	"type": "double",
	109	"valid_max": "",
	110	"valid_min": "",
	111	"value": "",
	112	"z_bounds_factors": "",
	113	"z_factors": "",
	114	"bounds_values": "",
	115	"generic_level_name": ""
	116	},
	117	"time2": {
	118	"standard_name": "time",
	119	"units": "days since ?",
	120	"axis": "T",
	121	"long_name": "time",
	122	"climatology": "yes",
	123	"formula": "",
	124	"must_have_bounds": "yes",
	125	"out_name": "time",
	126	"positive": "",
	127	"requested": "",
	128	"requested_bounds": "",
	129	"stored_direction": "increasing",
	130	"tolerance": "",
	131	"type": "double",
	132	"valid_max": "",
	133	"valid_min": "",
	134	"value": "",
	135	"z_bounds_factors": "",
	136	"z_factors": "",
	137	"bounds_values": "",
	138	"generic_level_name": ""
	139	},
	140	"time3": {
	141	"standard_name": "time",
	142	"units": "days since ?",
	143	"axis": "T",
	144	"long_name": "time",
	145	"climatology": "yes",
	146	"formula": "",
	147	"must_have_bounds": "yes",
	148	"out_name": "time",
	149	"positive": "",
	150	"requested": "",
	151	"requested_bounds": "",
	152	"stored_direction": "increasing",
	153	"tolerance": "",
	154	"type": "double",
	155	"valid_max": "",
	156	"valid_min": "",
	157	"value": "",
	158	"z_bounds_factors": "",
	159	"z_factors": "",
	160	"bounds_values": "",
	161	"generic_level_name": ""
	162	},
	163	"reftime1": {
	164	"standard_name": "forecast_reference_time",
	165	"units": "days since ?",
	166	"axis": "T",
	167	"long_name": "start date of the forecast",
	168	"climatology": "",
	169	"formula": "",
	170	"must_have_bounds": "no",
	171	"out_name": "reftime",
	172	"positive": "",
	173	"requested": "",
	174	"requested_bounds": "",
	175	"stored_direction": "increasing",
	176	"tolerance": "",
	177	"type": "double",
	178	"valid_max": "",
	179	"valid_min": "",
	180	"value": "1.0",
	181	"z_bounds_factors": "",
	182	"z_factors": "",
	183	"bounds_values": "",
	184	"generic_level_name": "",
	185	"forecast": "reftime"
	186	},
	187	"leadtime": {
	188	"standard_name": "forecast_period",
	189	"units": "days",
	190	"axis": "T",
	191	"long_name": "Time elapsed since the start of the forecast",
	192	"climatology": "",
	193	"formula": "",
	194	"must_have_bounds": "no",
	195	"out_name": "leadtime",
	196	"positive": "",
	197	"requested": "",
	198	"requested_bounds": "",
	199	"stored_direction": "increasing",
	200	"tolerance": "",
	201	"type": "double",
	202	"valid_max": "",
	203	"valid_min": "",
	204	"value": "",
	205	"z_bounds_factors": "",
	206	"z_factors": "",
	207	"bounds_values": "",
	208	"generic_level_name": "",
	209	"forecast": "leadtime"
	210	}
	211	}
	212	}

+32

-10

configure less more

0	0	#! /bin/sh
1	1	# Guess values for system-dependent variables and create Makefiles.
2		# Generated by GNU Autoconf 2.69 for cmor 3.6.0.
	2	# Generated by GNU Autoconf 2.69 for cmor 3.7.0.
3	3	#
4	4	# Report bugs to <mauzey1@llnl.gov>.
5	5	#

579	579	# Identity of this package.
580	580	PACKAGE_NAME='cmor'
581	581	PACKAGE_TARNAME='cmor'
582		PACKAGE_VERSION='3.6.0'
583		PACKAGE_STRING='cmor 3.6.0'
	582	PACKAGE_VERSION='3.7.0'
	583	PACKAGE_STRING='cmor 3.7.0'
584	584	PACKAGE_BUGREPORT='mauzey1@llnl.gov'
585	585	PACKAGE_URL=''
586	586

1252	1252	# Omit some internal or obsolete options to make the list less imposing.
1253	1253	# This message is too long to be a string in the A/UX 3.1 sh.
1254	1254	cat <<_ACEOF
1255		\`configure' configures cmor 3.6.0 to adapt to many kinds of systems.
	1255	\`configure' configures cmor 3.7.0 to adapt to many kinds of systems.
1256	1256
1257	1257	Usage: $0 [OPTION]... [VAR=VALUE]...
1258	1258

1318	1318
1319	1319	if test -n "$ac_init_help"; then
1320	1320	case $ac_init_help in
1321		short \| recursive ) echo "Configuration of cmor 3.6.0:";;
	1321	short \| recursive ) echo "Configuration of cmor 3.7.0:";;
1322	1322	esac
1323	1323	cat <<\_ACEOF
1324	1324

1421	1421	test -n "$ac_init_help" && exit $ac_status
1422	1422	if $ac_init_version; then
1423	1423	cat <<\_ACEOF
1424		cmor configure 3.6.0
	1424	cmor configure 3.7.0
1425	1425	generated by GNU Autoconf 2.69
1426	1426
1427	1427	Copyright (C) 2012 Free Software Foundation, Inc.

1639	1639	This file contains any messages produced by compilers while
1640	1640	running configure, to aid debugging if configure makes a mistake.
1641	1641
1642		It was created by cmor $as_me 3.6.0, which was
	1642	It was created by cmor $as_me 3.7.0, which was
1643	1643	generated by GNU Autoconf 2.69. Invocation command line was
1644	1644
1645	1645	$ $0 $@

4169	4169
4170	4170	if test x${with_udunits2} != xyes ; then
4171	4171	if test x${with_udunits2} != xno ; then
4172		UDUNITS2FLAGS=" -I${with_udunits2}/include"
	4172	as_ac_File=`$as_echo "ac_cv_file_${with_udunits2}/include/udunits2/udunits2.h" \| $as_tr_sh`
	4173	{ $as_echo "$as_me:${as_lineno-$LINENO}: checking for ${with_udunits2}/include/udunits2/udunits2.h" >&5
	4174	$as_echo_n "checking for ${with_udunits2}/include/udunits2/udunits2.h... " >&6; }
	4175	if eval \${$as_ac_File+:} false; then :
	4176	$as_echo_n "(cached) " >&6
	4177	else
	4178	test "$cross_compiling" = yes &&
	4179	as_fn_error $? "cannot check for file existence when cross compiling" "$LINENO" 5
	4180	if test -r "${with_udunits2}/include/udunits2/udunits2.h"; then
	4181	eval "$as_ac_File=yes"
	4182	else
	4183	eval "$as_ac_File=no"
	4184	fi
	4185	fi
	4186	eval ac_res=\$$as_ac_File
	4187	{ $as_echo "$as_me:${as_lineno-$LINENO}: result: $ac_res" >&5
	4188	$as_echo "$ac_res" >&6; }
	4189	if eval test \"x\$"$as_ac_File"\" = x"yes"; then :
	4190	UDUNITS2FLAGS=" -I${with_udunits2}/include/udunits2"
	4191	else
	4192	UDUNITS2FLAGS=" -I${with_udunits2}/include"
	4193	fi
	4194
4173	4195	if test ${RTAG} != "none" ; then
4174	4196	UDUNITS2LDFLAGS=" -L${with_udunits2}/lib ${RTAG}${with_udunits2}/lib -ludunits2 -lexpat"
4175	4197	else

5044	5066	# report actual input values of CONFIG_FILES etc. instead of their
5045	5067	# values after options handling.
5046	5068	ac_log="
5047		This file was extended by cmor $as_me 3.6.0, which was
	5069	This file was extended by cmor $as_me 3.7.0, which was
5048	5070	generated by GNU Autoconf 2.69. Invocation command line was
5049	5071
5050	5072	CONFIG_FILES = $CONFIG_FILES

5097	5119	cat >>$CONFIG_STATUS <<_ACEOF \|\| ac_write_fail=1
5098	5120	ac_cs_config="`$as_echo "$ac_configure_args" \| sed 's/^ //; s/[\\""\`\$]/\\\\&/g'`"
5099	5121	ac_cs_version="\\
5100		cmor config.status 3.6.0
	5122	cmor config.status 3.7.0
5101	5123	configured by $0, generated by GNU Autoconf 2.69,
5102	5124	with options \\"\$ac_cs_config\\"
5103	5125

-2

configure.ac less more

1	1	dnl Process this file with autoconf to produce a configure script.
2	2
3	3	dnl AC_PREREQ(2.59)
4		AC_INIT(cmor, 3.6.0, mauzey1@llnl.gov)
	4	AC_INIT(cmor, 3.7.0, mauzey1@llnl.gov)
5	5
6	6	GIT_TAG=`cd $srcdir ; ./get_git_version.sh`
7	7

211	211	AC_ARG_WITH([udunits2],[AS_HELP_STRING([--with-udunits2],[enable support for udunits2 in none standard location])],[],[with_udunits2="no"])
212	212	if [ test x${with_udunits2} != xyes ] ; then
213	213	if [ test x${with_udunits2} != xno ] ; then
214		UDUNITS2FLAGS=" -I${with_udunits2}/include"
	214	AC_CHECK_FILE(${with_udunits2}/include/udunits2/udunits2.h,
	215	[UDUNITS2FLAGS=" -I${with_udunits2}/include/udunits2"],
	216	[UDUNITS2FLAGS=" -I${with_udunits2}/include"])
215	217	if [ test ${RTAG} != "none" ] ; then
216	218	UDUNITS2LDFLAGS=" -L${with_udunits2}/lib ${RTAG}${with_udunits2}/lib -ludunits2 -lexpat"
217	219	else

-0

debian/changelog less more

	0	cmor (3.7.0-1) unstable; urgency=medium
	1
	2	* New upstream release
	3	* Standards-Version: 4.6.1
	4
	5	-- Alastair McKinstry <mckinstry@debian.org> Thu, 25 Aug 2022 08:40:09 +0100
	6
0	7	cmor (3.6.1-1) unstable; urgency=medium
1	8
2	9	* New upstream release

-1

debian/control less more

20	20	krb5-multidev \| heimdal-multidev
21	21	Build-Conflicts: libcmor2,
22	22	python3-cmor
23		Standards-Version: 4.5.1
	23	Standards-Version: 4.6.1
24	24	Homepage: https://pcmdi.github.io/cmor-site/
25	25	Vcs-Browser: https://salsa.debian.org:/science-team/cmor.git
26	26	Vcs-Git: https://salsa.debian.org:/science-team/cmor.git

-8

debian/patches/cmor_ver.patch less more

2	2	Last-Updated: 2013-06-11
3	3	Forwarded: no
4	4
5		Index: cmor-3.6.0/cmor.ver
6		===================================================================
7	5	--- /dev/null
8		+++ cmor-3.6.0/cmor.ver
	6	+++ b/cmor.ver
9	7	@@ -0,0 +1,7 @@
10	8	+CMOR_2.0.0 {
11	9	+ global:

14	12	+ Cd*;
15	13	+ local: *;
16	14	+};
17		Index: cmor-3.6.0/configure.ac
18		===================================================================
19		--- cmor-3.6.0.orig/configure.ac
20		+++ cmor-3.6.0/configure.ac
21		@@ -23,7 +23,7 @@ esac
	15	--- a/configure.ac
	16	+++ b/configure.ac
	17	@@ -23,7 +23,7 @@
22	18	CMOR_VERSION=${PACKAGE_VERSION}" (commit: ${GIT_TAG})"
23	19
24	20	AC_PREFIX_DEFAULT([/usr/local/cmor])

-14

debian/patches/destdir.patch less more

2	2	Last-Updated: 2013-06-11
3	3	Forwarded: no
4	4
5		Index: cmor-3.6.0/Makefile.in
6		===================================================================
7		--- cmor-3.6.0.orig/Makefile.in
8		+++ cmor-3.6.0/Makefile.in
9		@@ -126,17 +126,17 @@ distclean: clean
	5	--- a/Makefile.in
	6	+++ b/Makefile.in
	7	@@ -126,17 +126,17 @@
10	8	@echo "Completely cleaning [$(WHEREAMI)]..."
11	9	@rm -f $(DISTFILES)
12	10	install: cmor

34	32	backup: clean
35	33	@echo "Creating full backup tar file..."
36	34	@(cd ..; \
37		@@ -167,7 +167,7 @@ endif
38		python:
39		@echo "Building Python interface"
40		#if [ ! -d "${DIR}" ]; then mkdir -p ${DIR}; fi
41		- LDSHARED=${LDSHARED} ${PYTHONEXEC} setup.py install @CDATPREFIX@
42		+ LDSHARED=${LDSHARED} ${PYTHONEXEC} setup.py install --prefix=${DESTDIR}${PREFIX}
43		test_a_python:
44		@echo "${OK_COLOR}Testing ${TEST_NAME} ${NO_COLOR}"
45		${PYTHONEXEC} ${TEST_NAME} ${VERB}

-5

debian/patches/disable_tests.patch less more

2	2	Last-Updated: 2016-12-19
3	3	Forwarded: no
4	4
5		Index: cmor-3.6.0/Makefile.in
6		===================================================================
7		--- cmor-3.6.0.orig/Makefile.in
8		+++ cmor-3.6.0/Makefile.in
9		@@ -284,7 +284,7 @@ test_fortran: cmor
	5	--- a/Makefile.in
	6	+++ b/Makefile.in
	7	@@ -283,7 +283,7 @@
10	8	env TEST_NAME="test_station_data" INPUT_FILE="Test/noinput" make test_case
11	9	env TEST_NAME="test_cmor_grid_alejandro" INPUT_FILE="Test/alejandro.txt" make test_case
12	10	env TEST_NAME="test_cmor_grid_alejandro" INPUT_FILE="Test/alejandro_1.txt" make test_case

-9

debian/patches/kfreebsd_hurd_support.patch less more

3	3	Last-Updated: 2018-07-02
4	4	Forwarded: no
5	5
6		Index: cmor-3.6.0/include/cdTime/cfortran.h
7		===================================================================
8		--- cmor-3.6.0.orig/include/cdTime/cfortran.h
9		+++ cmor-3.6.0/include/cdTime/cfortran.h
10		@@ -206,7 +206,7 @@ only C calling FORTRAN subroutines will
	6	--- a/include/cdTime/cfortran.h
	7	+++ b/include/cdTime/cfortran.h
	8	@@ -206,7 +206,7 @@
11	9	#define f2cFortran
12	10	#define gFortran /* 8/26/08 (KMCCARTY) */
13	11	#endif

16	14	#define f2cFortran
17	15	#define gFortran /* 8/26/08 (KMCCARTY) */
18	16	#endif
19		Index: cmor-3.6.0/Src/cmor.c
20		===================================================================
21		--- cmor-3.6.0.orig/Src/cmor.c
22		+++ cmor-3.6.0/Src/cmor.c
	17	--- a/Src/cmor.c
	18	+++ b/Src/cmor.c
23	19	@@ -22,6 +22,10 @@
24	20	#include <fcntl.h>
25	21	#include <unistd.h>

-8

debian/patches/pkgconfig.patch less more

2	2	Last-Updated: 2013-06-10
3	3	Forwarded: no
4	4
5		Index: cmor-3.6.0/cmor.pc.in
6		===================================================================
7	5	--- /dev/null
8		+++ cmor-3.6.0/cmor.pc.in
	6	+++ b/cmor.pc.in
9	7	@@ -0,0 +1,13 @@
10	8	+prefix=@prefix@
11	9	+exec_prefix=${prefix}

20	18	+CFlags: -I${prefix}/include
21	19	+CFlags: -I${includedir} -I${includedir}/cdTime
22	20	+Requires: udunits netcdf ossp-uuid
23		Index: cmor-3.6.0/configure.ac
24		===================================================================
25		--- cmor-3.6.0.orig/configure.ac
26		+++ cmor-3.6.0/configure.ac
27		@@ -203,7 +203,7 @@ if [ test x${with_uuid} != xyes ] ; then
	21	--- a/configure.ac
	22	+++ b/configure.ac
	23	@@ -203,7 +203,7 @@
28	24	UUIDFLAGS=""
29	25	fi
30	26	else

-2

include/cmor.h less more

1	1	#define CMOR_H
2	2
3	3	#define CMOR_VERSION_MAJOR 3
4		#define CMOR_VERSION_MINOR 6
	4	#define CMOR_VERSION_MINOR 7
5	5	#define CMOR_VERSION_PATCH 0
6	6
7	7	#define CMOR_CF_VERSION_MAJOR 1
8		#define CMOR_CF_VERSION_MINOR 6
	8	#define CMOR_CF_VERSION_MINOR 7
9	9
10	10	#define CMOR_MAX_STRING 1024
11	11	#define CMOR_DEF_ATT_STR_LEN 256

69	69	#define AXIS_ATT_STOREDDIRECTION "stored_direction"
70	70	#define AXIS_ATT_POSITIVE "positive"
71	71	#define AXIS_ATT_GEN_LEVEL_NAME "generic_level_name"
	72	#define AXIS_ATT_FORECAST "forecast"
72	73	#define AXIS_ATT_AXIS "axis"
73	74	#define AXIS_ATT_INDEXONLY "index_only"
74	75	#define AXIS_ATT_MUSTBOUNDS "must_have_bounds"

85	86	#define AXIS_ATT_REQUESTEDBOUNDS "requested_bounds"
86	87	#define AXIS_ATT_REQUESTED "requested"
87	88	#define AXIS_FORECAST_TIME "reftime"
	89	#define AXIS_FORECAST_LEADTIME "leadtime"
88	90
89	91	#define TABLE_CONTROL_FILENAME "CMIP6_CV.json"
90	92	#define TABLE_FOUND -1

343	345	int must_have_bounds;
344	346	int must_call_cmor_grid;
345	347	char generic_level_name[CMOR_MAX_STRING];
	348	char forecast[CMOR_MAX_STRING];
346	349	} cmor_axis_def_t;
347	350
348	351	enum CV_type {

408	411	char comment[CMOR_MAX_STRING];
409	412	int ndims;
410	413	int dimensions[CMOR_MAX_DIMENSIONS];
	414	char dimensions_str[CMOR_MAX_STRING];
411	415	char type;
412	416	float valid_min;
413	417	float valid_max;

-2

include/cmor_func_def.h less more

80	80	int *preserve );
81	81	extern int cmor_close( void );
82	82
	83	extern int cmor_setDefaultGblAttr( int );
83	84	extern int cmor_writeGblAttr(int var_id, int ncid, int ncafid);
84	85	extern int cmor_setGblAttr( int );
85	86

106	107
107	108	extern void create_singleton_dimensions(int var_id, int ncid,
108	109	int nc_singletons, int nc_singletons_bnds, int *dim_bnds);
109
110
111	110
112	111	extern int copyfile(const char source, const char dest);
113	112

-1

recipes/cmor/conda_build_config.yaml less more

0	0	python:
1		- 2.7
2	1	- 3.6
3	2	- 3.7
	3	- 3.8⏎

-1

recipes/cmor/meta.yaml.in less more

26	26	- json-c
27	27	- hdf5
28	28	- openblas 0.3.6
29		- libnetcdf
	29	- libnetcdf * nompi_*
30	30	- netcdf4
31	31	- numpy >=1.14.6
32	32	- setuptools

+52

-0

recipes/conda-envs/cmor-3.6.0.yaml less more

	0	name: cmor-3.6.0
	1	channels:
	2	- conda-forge
	3	- defaults
	4	dependencies:
	5	- _libgcc_mutex=0.1=conda_forge
	6	- _openmp_mutex=4.5=0_gnu
	7	- bzip2=1.0.8=h516909a_2
	8	- ca-certificates=2020.4.5.1=hecc5488_0
	9	- certifi=2020.4.5.1=py38h32f6830_0
	10	- cftime=1.1.3=py38h8790de6_0
	11	- cmor=3.6.0=py38hb1d3a69_0
	12	- curl=7.69.1=h33f0ec9_0
	13	- expat=2.2.9=he1b5a44_2
	14	- hdf4=4.2.13=hf30be14_1003
	15	- hdf5=1.10.5=nompi_h3c11f04_1104
	16	- jpeg=9c=h14c3975_1001
	17	- json-c=0.13.1=hbfbb72e_1002
	18	- krb5=1.17.1=h2fd8d38_0
	19	- ld_impl_linux-64=2.34=h53a641e_0
	20	- libblas=3.8.0=11_openblas
	21	- libcblas=3.8.0=11_openblas
	22	- libcurl=7.69.1=hf7181ac_0
	23	- libedit=3.1.20170329=hf8c457e_1001
	24	- libffi=3.2.1=he1b5a44_1007
	25	- libgcc-ng=9.2.0=h24d8f2e_2
	26	- libgfortran-ng=7.5.0=hdf63c60_6
	27	- libgomp=9.2.0=h24d8f2e_2
	28	- liblapack=3.8.0=11_openblas
	29	- libnetcdf=4.7.4=nompi_h9f9fd6a_101
	30	- libopenblas=0.3.6=h6e990d7_6
	31	- libssh2=1.9.0=hab1572f_2
	32	- libstdcxx-ng=9.2.0=hdf63c60_2
	33	- libuuid=2.32.1=h14c3975_1000
	34	- ncurses=6.1=hf484d3e_1002
	35	- netcdf4=1.5.3=nompi_py38heb6102f_103
	36	- numpy=1.18.4=py38h8854b6b_0
	37	- openblas=0.3.6=h6e990d7_6
	38	- openssl=1.1.1g=h516909a_0
	39	- pip=20.1.1=pyh9f0ad1d_0
	40	- python=3.8.2=he5300dc_7_cpython
	41	- python_abi=3.8=1_cp38
	42	- readline=8.0=hf8c457e_0
	43	- setuptools=46.4.0=py38h32f6830_0
	44	- six=1.14.0=py_1
	45	- sqlite=3.30.1=hcee41ef_0
	46	- tk=8.6.10=hed695b0_0
	47	- udunits2=2.2.27.6=h4e0c4b3_1001
	48	- wheel=0.34.2=py_1
	49	- xz=5.2.5=h516909a_0
	50	- zlib=1.2.11=h516909a_1006
	51

+58

-0

recipes/conda-envs/cmor-3.6.1.yaml less more

	0	name: cmor-3.6.1
	1	channels:
	2	- conda-forge
	3	- defaults
	4	dependencies:
	5	- _libgcc_mutex=0.1=conda_forge
	6	- _openmp_mutex=4.5=1_llvm
	7	- blas=1.0=mkl
	8	- bzip2=1.0.8=h7f98852_4
	9	- c-ares=1.17.1=h36c2ea0_0
	10	- ca-certificates=2020.12.5=ha878542_0
	11	- certifi=2020.12.5=py38h578d9bd_0
	12	- cftime=1.3.0=py38h0b5ebd8_0
	13	- cmor=3.6.1=py38h17bfc8e_0
	14	- curl=7.71.1=he644dc0_8
	15	- expat=2.2.9=he1b5a44_2
	16	- hdf4=4.2.13=h10796ff_1004
	17	- hdf5=1.10.6=nompi_h6a2412b_1112
	18	- jpeg=9d=h36c2ea0_0
	19	- json-c=0.13.1=hbfbb72e_1002
	20	- krb5=1.17.2=h926e7f8_0
	21	- ld_impl_linux-64=2.35.1=hea4e1c9_1
	22	- libcurl=7.71.1=hcdd3856_8
	23	- libedit=3.1.20191231=he28a2e2_2
	24	- libev=4.33=h516909a_1
	25	- libffi=3.3=h58526e2_2
	26	- libgcc-ng=9.3.0=h5dbcf3e_17
	27	- libgfortran-ng=9.3.0=he4bcb1c_17
	28	- libgfortran5=9.3.0=he4bcb1c_17
	29	- libnetcdf=4.7.4=nompi_h56d31a8_107
	30	- libnghttp2=1.41.0=h8cfc5f6_2
	31	- libopenblas=0.3.13=pthreads_h8fe5266_0
	32	- libssh2=1.9.0=hab1572f_5
	33	- libstdcxx-ng=9.3.0=h2ae2ef3_17
	34	- libuuid=2.32.1=h7f98852_1000
	35	- llvm-openmp=11.0.0=hfc4b9b4_1
	36	- mkl=2020.4=h726a3e6_304
	37	- mkl-service=2.3.0=py38h1e0a361_2
	38	- mkl_fft=1.2.0=py38hab2c0dc_1
	39	- mkl_random=1.2.0=py38hc5bc63f_1
	40	- ncurses=6.2=h58526e2_4
	41	- netcdf4=1.5.5=nompi_py38h1cdf482_100
	42	- numpy=1.19.2=py38h54aff64_0
	43	- numpy-base=1.19.2=py38hfa32c7d_0
	44	- openblas=0.3.13=pthreads_h4748800_0
	45	- openssl=1.1.1i=h7f98852_0
	46	- pip=20.3.3=pyhd8ed1ab_0
	47	- python=3.8.6=hffdb5ce_1_cpython
	48	- python_abi=3.8=1_cp38
	49	- readline=8.0=he28a2e2_2
	50	- setuptools=49.6.0=py38h924ce5b_2
	51	- six=1.15.0=pyh9f0ad1d_0
	52	- sqlite=3.34.0=h74cdb3f_0
	53	- tk=8.6.10=h21135ba_1
	54	- udunits2=2.2.27.6=h4e0c4b3_1001
	55	- wheel=0.36.2=pyhd3deb0d_0
	56	- xz=5.2.5=h516909a_1
	57	- zlib=1.2.11=h516909a_1010

-5

scripts/conda_upload.sh less more

5	5	OS=linux-64
6	6	echo "Linux OS"
7	7	yum install -y wget git gcc
8		if [ $CMOR_PYTHON_VERSION == '2.7' ]; then
9		echo "Using Python $CMOR_PYTHON_VERSION"
10		wget --no-check https://repo.continuum.io/miniconda/Miniconda2-latest-Linux-x86_64.sh -O miniconda2.sh
11		bash miniconda2.sh -b -p ${HOME}/miniconda
12		elif [ $CMOR_PYTHON_VERSION == '3.6' ] \|\| [ $CMOR_PYTHON_VERSION == '3.7' ]; then
	8	if [ $CMOR_PYTHON_VERSION == '3.6' ] \|\| [ $CMOR_PYTHON_VERSION == '3.7' ] \|\| [ $CMOR_PYTHON_VERSION == '3.8' ]; then
13	9	echo "Using Python $CMOR_PYTHON_VERSION"
14	10	wget --no-check https://repo.continuum.io/miniconda/Miniconda3-latest-Linux-x86_64.sh -O miniconda3.sh
15	11	bash miniconda3.sh -b -p ${HOME}/miniconda

-6

setup.py.in less more

0	0	from __future__ import print_function
1	1	import numpy
2		# do not push to master
3		from numpy.distutils.core import setup, Extension
4		#from numpy.distutils.ccompiler import CCompiler
5		import os,sys,string
	2	import os
6	3	from setuptools import setup, Extension
7	4
8	5	include_dirs = [numpy.lib.utils.get_include(),"include","include/cdTime"]

54	51	print('macros:',macros)
55	52
56	53	setup (name = "CMOR",
57		version='3.6.0',
58		author='Denis Nadeau, AIMS',
	54	version='3.7.0',
	55	author='Chris Mauzey, AIMS',
59	56	description = "Python Interface to CMOR output library",
60	57	url = "http://cmor.llnl.gov/",
61	58	zip_safe=False,