10.5281/zenodo.3242715
https://zenodo.org/records/3242715
oai:zenodo.org:3242715
David L. Mobley
David L. Mobley
University of California, Irvine
Jeff Wagner
Jeff Wagner
@openforcefield
John Chodera
John Chodera
Memorial Sloan Kettering Cancer Center
Caitlin Bannan
Caitlin Bannan
Mobley Group, University of California, Irvine
Andrea Rizzi
Andrea Rizzi
@choderalab
Camila
Camila
Christopher Bayly
Christopher Bayly
OpenEye Scientific Software
SimonBoothroyd
SimonBoothroyd
Nathan M. Lim
Nathan M. Lim
@MobleyLab
Victoria Lim
Victoria Lim
@MobleyLab at UC Irvine
Yutong Zhao
Yutong Zhao
Relay Therapeutics
Lee-Ping
Lee-Ping
openforcefield/openforcefield: 0.4.0 Performance optimizations and support for SMIRNOFF 0.3 specification
Zenodo
2019
2019-06-10
https://github.com/openforcefield/openforcefield/tree/0.4.0
10.5281/zenodo.597754
0.4.0
Other (Open)
0.4.0
This update contains performance enhancements that significantly reduce the time to create OpenMM systems for topologies containing many molecules via ForceField.create_openmm_system.
This update also introduces the SMIRNOFF 0.3 specification. The spec update is the result of discussions about how to handle the evolution of data and parameter types as further functional forms are added to the SMIRNOFF spec.
We provide methods to convert SMIRNOFF 0.1 and 0.2 forcefields written with the XML serialization (.offxml) to the SMIRNOFF 0.3 specification. These methods are called automatically when loading a serialized SMIRNOFF data representation written in the 0.1 or 0.2 specification. This functionality allows the toolkit to continue to read files containing SMIRNOFF 0.2 spec force fields, and also implements backwards-compatibility for SMIRNOFF 0.1 spec force fields.
WARNING: The SMIRNOFF 0.1 spec did not contain fields for several energy-determining parameters that are exposed in later SMIRNOFF specs. Thus, when reading SMIRNOFF 0.1 spec data, the toolkit must make assumptions about the values that should be added for the newly-required fields. The values that are added include 1-2, 1-3 and 1-5 scaling factors, cutoffs, and long-range treatments for nonbonded interactions. Each assumption is printed as a warning during the conversion process. Please carefully review the warning messages to ensure that the conversion is providing your desired behavior.
SMIRNOFF 0.3 specification updates
The SMIRNOFF 0.3 spec introduces versioning for each individual parameter section, allowing asynchronous updates to the features of each parameter class. The top-level SMIRNOFF tag, containing information like aromaticity_model, Author, and Date, still has a version (currently 0.3). But, to allow for independent development of individual parameter types, each section (such as Bonds, Angles, etc) now has its own version as well (currently all 0.3).
All units are now stored in expressions with their corresponding values. For example, distances are now stored as 1.526*angstrom, instead of storing the unit separately in the section header.
The current allowed value of the potential field for ProperTorsions and ImproperTorsions tags is no longer charmm, but is rather k*(1+cos(periodicity*theta-phase)). It was pointed out to us that CHARMM-style torsions deviate from this formula when the periodicity of a torsion term is 0, and we do not intend to reproduce that behavior.
SMIRNOFF spec documentation has been updated with tables of keywords and their defaults for each parameter section and parameter type. These tables will track the allowed keywords and default behavior as updated versions of individual parameter sections are released.
Performance improvements and bugfixes
PR #329: Performance improvements when creating systems for topologies with many atoms.
PR #347: Fixes bug in charge assignment that occurs when charges are read from file, and reference and charge molecules have different atom orderings.
New features
PR #311: Several new experimental functions.
Adds convert_0_2_smirnoff_to_0_3, which takes a SMIRNOFF 0.2-spec data dict, and updates it to 0.3. This function is called automatically when creating a ForceField from a SMIRNOFF 0.2 spec OFFXML file.
Adds convert_0_1_smirnoff_to_0_2, which takes a SMIRNOFF 0.1-spec data dict, and updates it to 0.2. This function is called automatically when creating a ForceField from a SMIRNOFF 0.1 spec OFFXML file.
NOTE: The format of the "SMIRNOFF data dict" above is likely to change significantly in the future. Users that require a stable serialized ForceField object should use the output of ForceField.to_string('XML') instead.
Adds ParameterHandler and ParameterType add_cosmetic_attribute and delete_cosmetic_attribute functions. Once created, cosmetic attributes can be accessed and modified as attributes of the underlying object (eg. ParameterType.my_cosmetic_attrib = 'blue'). These functions are experimental, and we are interested in feedback on how cosmetic attribute handling could be improved. (See Issue #338). Note that if a new cosmetic attribute is added to an object without using these functions, it will not be recognized by the toolkit and will not be written out during serialization.
Values for the top-level Author and Date tags are now kept during SMIRNOFF data I/O. If multiple data sources containing these fields are read, the values are concatenated using "AND" as a separator.
API-breaking changes
ForceField.to_string and ForceField.to_file have had the default value of their discard_cosmetic_attributes kwarg set to False.
ParameterHandler and ParameterType constructors now expect the version kwarg (per the SMIRNOFF spec change above). This requirement can be skipped by providing the kwarg skip_version_check=True
ParameterHandler and ParameterType functions no longer handle X_unit attributes in SMIRNOFF data (per the SMIRNOFF spec change above).
The scripts in utilities/convert_frosst are now deprecated. This functionality is important for provenance and will be migrated to the openforcefield/smirnoff99Frosst repository in the coming weeks.
ParameterType._SMIRNOFF_ATTRIBS is now ParameterType ._REQUIRED_SPEC_ATTRIBS, to better parallel the structure of the ParameterHandler class.
ParameterType._OPTIONAL_ATTRIBS is now ParameterType ._OPTIONAL_SPEC_ATTRIBS, to better parallel the structure of the ParameterHandler class.
Added class-level dictionaries ParameterHandler._DEFAULT_SPEC_ATTRIBS and ParameterType._DEFAULT_SPEC_ATTRIBS.