No variable or dimension names are standardized by this convention. Instead we follow the lead of the NUG and standardize only the names of attributes and some of the values taken by those attributes. The overview provided in this section will be followed with more complete descriptions in following sections. Appendix A, Attributes contains a summary of all the attributes used in this convention.
We recommend that the NUG defined attribute
Conventions
be given the string value
"CF-1.1
"
"CF-1.2
"
to identify datasets that conform to these
conventions.
The general description of a file's contents
should be contained in the following attributes:
title
,
history
,
institution
,
source
,
comment
and
references
(Section 2.6.2, “Description of file contents”).
For backwards compatibility with COARDS none
of these attributes is required, but their
use is recommended to provide human readable
documentation of the file contents.
Each variable in a netCDF file has an associated
description which is provided by the attributes
units
,
long_name
, and
standard_name
. The
units
,
and long_name
attributes are defined in the NUG and the
standard_name
attribute is
defined in this document.
The
units
attribute is required for all variables
that represent dimensional quantities (except for
boundary variables defined in
Section 7.1, “Cell Boundaries”.
The values of the
units
attributes are character
strings that are recognized by UNIDATA's Udunits
package
[UDUNITS],
(with exceptions allowed as discussed in
Section 3.1, “Units”).
The
long_name
and
standard_name
attributes are
used to describe the content of each variable. For
backwards compatibility with COARDS neither
is required, but use of at least one of them
is strongly recommended. The use of standard
names will facilitate the exchange of climate
and forecast data by providing unambiguous
identification of variables most commonly
analyzed.
Four types of coordinates receive special treatment by these conventions: latitude, longitude, vertical, and time. Every variable must have associated metadata that allows identification of each such coordinate that is relevant. Two independent parts of the convention allow this to be done. There are conventions that identify the variables that contain the coordinate data, and there are conventions that identify the type of coordinate represented by that data.
There are two methods used to identify variables
that contain coordinate data. The first is to
use the NUG-defined "coordinate variables." The
use of coordinate variables is required for all
dimensions that correspond to one dimensional
space or time coordinates. In cases where
coordinate variables are not applicable,
the variables containing coordinate data are
identified by the
coordinates
attribute.
Once the variables containing coordinate data are
identified, further conventions are required to
determine the type of coordinate represented by
each of these variables. Latitude, longitude,
and time coordinates are identified solely by
the value of their
units
attribute. Vertical
coordinates with units of pressure may also
be identified by the
units
attribute. Other
vertical coordinates must use the attribute
positive
which determines whether the direction of
increasing coordinate value is up or down. Because
identification of a coordinate type by its units
involves the use of an external software package
[UDUNITS],
we provide the optional attribute
axis
for a direct identification of coordinates
that correspond to latitude, longitude, vertical,
or time axes.
Latitude, longitude, and time are defined
by internationally recognized standards,
and hence, identifying the coordinates of
these types is sufficient to locate data
values uniquely with respect to time and a
point on the earth's surface. On the other
hand identifying the vertical coordinate is
not necessarily sufficient to locate a data
value vertically with respect to the earth's
surface. In particular a model may output data
on the dimensionless vertical coordinate used
in its mathematical formulation. To achieve the
goal of being able to spatially locate all data
values, this convention includes the definitions
of common dimensionless vertical coordinates in
Appendix D, Dimensionless Vertical Coordinates.
These definitions provide a mapping
between the dimensionless coordinate values
and dimensional values that can be uniquely
located with respect to a point on the earth's
surface. The definitions are associated with
a coordinate variable via the
standard_name
and
formula_terms
attributes. For backwards
compatibility with COARDS use of these attributes
is not required, but is strongly recommended.
It is often the case that data values are not
representative of single points in time and/or
space, but rather of intervals or multidimensional
cells. This convention defines a
bounds
attribute
to specify the extent of intervals or cells. When
data that is representative of cells can be
described by simple statistical methods, those
methods can be indicated using the
cell_methods
attribute. An important application of this
attribute is to describe climatological and
diurnal statistics.
Methods for reducing the total volume of data
include both packing and compression. Packing
reduces the data volume by reducing the precision
of the stored numbers. It is implemented using
the attributes
add_offset
and
scale_factor
which
are defined in the NUG. Compression on the other
hand loses no precision, but reduces the volume by
not storing missing data. The attribute
compress
is defined for this purpose.