Cohesive energy versus lattice constant curve for bcc W v003

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CohesiveEnergyVsLatticeConstant_bcc_W__TE_726637192481_003

There is a newer version of this item. See CohesiveEnergyVsLatticeConstant_bcc_W__TE_726637192481_004

Title A single sentence description.	Cohesive energy versus lattice constant curve for bcc W v003
Description	This Test computes an energy vs. lattice constant curve for bcc W. The curve is computed for lattice constants ranging from 0.8a_0 to 1.5a_0, where a_0 represents the equilibrium lattice constant. The value for a_0 is obtained by querying the KIM database for the results of LatticeConstantCubicEnergy_bcc_W when paired against the Model being used.
Species The supported atomic species.	W
Disclaimer A statement of applicability provided by the contributor, informing users of the intended use of this KIM Item.	None

Contributor	Daniel S. Karls
Maintainer	Daniel S. Karls
Published on KIM	2019
How to Cite	Click here to download this citation in BibTeX format.
Funding	Not available

Short KIM ID The unique KIM identifier code.	TE_726637192481_003
Extended KIM ID The long form of the KIM ID including a human readable prefix (100 characters max), two underscores, and the Short KIM ID. Extended KIM IDs can only contain alpha-numeric characters (letters and digits) and underscores and must begin with a letter.	CohesiveEnergyVsLatticeConstant_bcc_W__TE_726637192481_003
Citable Link	https://openkim.org/cite/TE_726637192481_003
KIM Item Type	Test
Driver	CohesiveEnergyVsLatticeConstant__TD_554653289799_003
Properties Properties as defined in kimspec.edn. These properties are inhereted from the Test Driver.	tag:staff@noreply.openkim.org,2014-04-15:property/cohesive-energy-relation-cubic-crystal
KIM API Version	2.0
Simulator Name The name of the simulator as defined in kimspec.edn. This Simulator Name is inhereted from the Test Driver.	LAMMPS
Programming Language(s) The programming languages used in the code and the percentage of the code written in each one.	100.00% Python

Previous Version	CohesiveEnergyVsLatticeConstant_bcc_W__TE_726637192481_002

Models

EAM_Dynamo__MD_120291908751_005

Model	Link to Test Results page	Benchmark time Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run. Measured in Millions of Whetstone Instructions (MWI)
EAM_Dynamo_Ackland_2003_W__MO_141627196590_005	view	3071
EAM_Dynamo_BonnyCastinBullens_2013_FeW__MO_737567242631_000	view	3199
EAM_Dynamo_BonnyGrigorev1Terentyev_2017_W__MO_234187151804_000	view	2943
EAM_Dynamo_BonnyTerentyev_2014EAM1_W__MO_292520929154_000	view	3263
EAM_Dynamo_BonnyTerentyev_2014EAM2_W__MO_626183701337_000	view	3583
EAM_Dynamo_ChenFangLiu_2019_WTa__MO_645806019892_000	view	11219
EAM_Dynamo_HanZepedaAckland_2003_W__MO_286137913440_000	view	2943
EAM_Dynamo_MarinicaVentelonGilbert_2013EAM2_W__MO_204305659515_000	view	13211
EAM_Dynamo_MarinicaVentelonGilbert_2013EAM3_W__MO_706622909913_000	view	13147
EAM_Dynamo_MarinicaVentelonGilbert_2013EAM4__MO_046576227003_000	view	13115
EAM_Dynamo_MasonNguyenManhBecquart_2017_W__MO_268730733493_000	view	8163
EAM_Dynamo_Olsson_2009_W__MO_670013535154_000	view	14573
EAM_Dynamo_SetyawanGaoKurtz_2018_ReW__MO_680820064987_000	view	16251
EAM_Dynamo_ZhouJohnsonWadley_2004_W__MO_524392058194_005	view	2495
EAM_Dynamo_ZhouWadleyJohnson_2001_W__MO_621445647666_000	view	3519
EAM_Dynamo_ZhouWadleyJohnson_2001NISTretabulation_W__MO_914556822329_000	view	2399

EAM_MagneticCubic__MD_620624592962_002

Model	Test Results	Link to Test Results page	Benchmark time Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run. Measured in Millions of Whetstone Instructions (MWI)
EAM_MagneticCubic_DerletNguyenDudarev_2007_W__MO_195478838873_002		view	2175

LJ__MD_414112407348_003

Model	Test Results	Link to Test Results page	Benchmark time Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run. Measured in Millions of Whetstone Instructions (MWI)
LJ_ElliottAkerson_2015_Universal__MO_959249795837_003 This Model has a disclaimer This model was automatically fit using Lorentz-Berthelot mixing rules. It reproduces the dimer equilibrium separation (covalent radii) and the bond dissociation energies. It has not been fitted to other physical properties and its ability to model structures other than dimers is unknown.		view	2591

MEAM_LAMMPS__MD_249792265679_000

Model	Test Results	Link to Test Results page	Benchmark time Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run. Measured in Millions of Whetstone Instructions (MWI)
MEAM_LAMMPS_Lenosky_2017_W__MO_999198119251_000		view	1453

MEAM_LAMMPS__MD_249792265679_001

Model	Link to Test Results page	Benchmark time Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run. Measured in Millions of Whetstone Instructions (MWI)
MEAM_LAMMPS_HiremathMelinBitzek_2022_W__MO_943864507178_000	view	4903
MEAM_LAMMPS_LeeBaskesKim_2001_W__MO_227263111062_000	view	4435
MEAM_LAMMPS_ParkFellingerLenosky_2012_W__MO_560940542741_001	view	1959
MEAM_LAMMPS_ShimParkCho_2003_NiW__MO_500937681860_001	view	9061

Morse_Shifted__MD_552566534109_004

Model	Link to Test Results page	Benchmark time Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run. Measured in Millions of Whetstone Instructions (MWI)
Morse_Shifted_GirifalcoWeizer_1959HighCutoff_W__MO_646516726498_004	view	1119
Morse_Shifted_GirifalcoWeizer_1959LowCutoff_W__MO_489351836217_004	view	1279
Morse_Shifted_GirifalcoWeizer_1959MedCutoff_W__MO_390128289865_004	view	1215

SNAP__MD_536750310735_000

Model	Test Results	Link to Test Results page	Benchmark time Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run. Measured in Millions of Whetstone Instructions (MWI)
SNAP_LiChenZheng_2019_NbTaWMo__MO_560387080449_000 This Model has a disclaimer This potential is designed for Nb-Mo-Ta-W chemistries, including the elementary, binary, ternary and quaternary systems. The potential was trained using LAMMPS version 17Nov2016. Newer LAMMPS may see energy differences, but the relative values should remain to be the same.		view	407

No Driver

Model	Link to Test Results page	Benchmark time Usertime multiplied by the Whetstone Benchmark. This number can be used (approximately) to compare the performance of different models independently of the architecture on which the test was run. Measured in Millions of Whetstone Instructions (MWI)
Sim_LAMMPS_EAM_BonnyCastinBullens_2013_FeCrW__SM_699257350704_001	view	67686
Sim_LAMMPS_MEAM_Lenosky_2017_W__SM_631352869360_000	view	1791
Sim_LAMMPS_MEAM_ParkFellingerLenosky_2012_W__SM_163270462402_000	view	1535

Errors

No Errors associated with this Test

Files

LICENSE.CDDL
Makefile
README.txt
dependencies.edn
kimprovenance.edn
kimspec.edn
pipeline.stdin.tpl
runner

Download

CohesiveEnergyVsLatticeConstant_bcc_W__TE_726637192481_003.txz	Tar+XZ	Linux and OS X archive
CohesiveEnergyVsLatticeConstant_bcc_W__TE_726637192481_003.zip	Zip	Windows archive

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This Test requires a Test Driver. Archives for the Test Driver CohesiveEnergyVsLatticeConstant__TD_554653289799_003 appear below.

CohesiveEnergyVsLatticeConstant__TD_554653289799_003.txz	Tar+XZ	Linux and OS X archive
CohesiveEnergyVsLatticeConstant__TD_554653289799_003.zip	Zip	Windows archive

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