Cohesive energy and equilibrium lattice constant of graphene v002

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LatticeConstant2DHexagonalEnergy_graphene_C__TE_638394465817_002

Title A single sentence description.	Cohesive energy and equilibrium lattice constant of graphene v002
Description	This Test uses LAMMPS to compute the cohesive energy and lattice constant of graphene using conjugate gradient minimization with an initial guess of 2.5 Angstroms for the equilibrium lattice constant.
Species The supported atomic species.	C
Disclaimer A statement of applicability provided by the contributor, informing users of the intended use of this KIM Item.	None

Contributor	I Nikiforov
Maintainer	I Nikiforov
Published on KIM	2019
How to Cite	This Test is archived in OpenKIM [1-4]. [1] Nikiforov I. Cohesive energy and equilibrium lattice constant of graphene v002 [Internet]. OpenKIM; 2019. Available from: https://openkim.org/cite/TE_638394465817_002 [2] Nikiforov I. Cohesive energy and equilibrium lattice constant of hexagonal 2D crystalline layers v002. OpenKIM; 2019. doi:10.25950/dd36239b [3] Tadmor EB, Elliott RS, Sethna JP, Miller RE, Becker CA. The potential of atomistic simulations and the Knowledgebase of Interatomic Models. JOM. 2011;63(7):17. doi:10.1007/s11837-011-0102-6 [4] Elliott RS, Tadmor EB. Knowledgebase of Interatomic Models (KIM) Application Programming Interface (API). OpenKIM; 2011. doi:10.25950/ff8f563a Click here to download the above citation in BibTeX format.
Funding	Not available

Short KIM ID The unique KIM identifier code.	TE_638394465817_002
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.	LatticeConstant2DHexagonalEnergy_graphene_C__TE_638394465817_002
Citable Link	https://openkim.org/cite/TE_638394465817_002
KIM Item Type	Test
Driver	LatticeConstant2DHexagonalEnergy__TD_034540307932_002
Properties Properties as defined in kimspec.edn. These properties are inhereted from the Test Driver.	tag:staff@noreply.openkim.org,2015-05-26:property/cohesive-potential-energy-2d-hexagonal-crystal tag:staff@noreply.openkim.org,2015-05-26:property/structure-2d-hexagonal-crystal-npt
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	LatticeConstant2DHexagonalEnergy_graphene_C__TE_638394465817_001

Models

EDIP_LAMMPS__MD_783584031339_000

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)
EDIP_LAMMPS_JiangMorganSzlufarska_2012_SiC__MO_667792548433_000	view	875
EDIP_LAMMPS_LucasBertolusPizzagalli_2009_SiC__MO_634310164305_000	view	786
EDIP_LAMMPS_Marks_2000_C__MO_374144505645_000	view	895

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	1408

MEAM_LAMMPS__MD_249792265679_002

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_AgrawalMirzaeifar_2021_CuC__MO_028979335952_002	view	810
MEAM_LAMMPS_AslamBaskesDickel_2019_FeMnSiC__MO_427873955970_002	view	1850
MEAM_LAMMPS_JeongLee_2020_PdC__MO_068985622065_002	view	776
MEAM_LAMMPS_JeongLee_2020_PtC__MO_716623333967_002	view	736
MEAM_LAMMPS_KangEunJun_2014_SiC__MO_477506997611_002	view	786
MEAM_LAMMPS_KimJungLee_2009_FeTiC__MO_110119204723_002	view	1031
MEAM_LAMMPS_KimJungLee_2010_FeNbC__MO_072689718616_002	view	1402
MEAM_LAMMPS_KimLee_2008_TiC__MO_134206624109_002	view	935
MEAM_LAMMPS_Lee_2006_FeC__MO_856956178669_002	view	883
MEAM_LAMMPS_LeeLee_2005_C__MO_996970420049_001	view	736
MEAM_LAMMPS_LiyanageKimHouze_2014_FeC__MO_075279800195_002	view	965
MEAM_LAMMPS_NouranianTschoppGwaltney_2014_CH__MO_354152387712_002	view	746
MEAM_LAMMPS_Wagner_2007_SiC__MO_430846853065_002	view	1591

Tersoff_LAMMPS__MD_077075034781_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)
Tersoff_LAMMPS_AlbeNordlundAverback_2002_PtC__MO_500121566391_004	view	596
Tersoff_LAMMPS_ErhartAlbe_2005_SiC__MO_903987585848_005	view	634
Tersoff_LAMMPS_KinaciHaskinsSevik_2012_BNC__MO_105008013807_000	view	559
Tersoff_LAMMPS_PlummerRathodSrivastava_2021_TiAlC__MO_992900971352_000	view	820
Tersoff_LAMMPS_PlummerTucker_2019_TiAlC__MO_736419017411_000	view	1006
Tersoff_LAMMPS_PlummerTucker_2019_TiSiC__MO_751442731010_000	view	857
Tersoff_LAMMPS_Tersoff_1988_C__MO_579868029681_004	view	766
Tersoff_LAMMPS_Tersoff_1989_SiC__MO_171585019474_004	view	596
Tersoff_LAMMPS_Tersoff_1994_SiC__MO_794973922560_000	view	932

ThreeBodyBondOrder_KDS__MD_697985444380_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)
ThreeBodyBondOrder_KDS_KhorDasSarma_1988_C__MO_454320668790_000		view	1056

hNN__MD_435082866799_001

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)
hNN_WenTadmor_2019Grx_C__MO_421038499185_001		view	597

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_AIREBO_LJ_StuartTuteinHarrison_2000_CH__SM_069621990420_000	view	2719
Sim_LAMMPS_AIREBO_Morse_OConnorAndzelmRobbins_2015_CH__SM_460187474631_000	view	2783
Sim_LAMMPS_BOP_ZhouWardFoster_2015_CCu__SM_784926969362_000	view	2527
Sim_LAMMPS_EDIP_JiangMorganSzlufarska_2012_SiC__SM_435704953434_000	view	2303
Sim_LAMMPS_GW_GaoWeber_2002_SiC__SM_606253546840_000	view	2303
Sim_LAMMPS_GWZBL_Samolyuk_2016_SiC__SM_720598599889_000	view	2239
Sim_LAMMPS_LCBOP_LosFasolino_2003_C__SM_469631949122_000	view	2431
Sim_LAMMPS_MEAM_KimJungLee_2009_FeTiC__SM_531038274471_000	view	2943
Sim_LAMMPS_MEAM_LiyanageSeongGonHouze_2014_FeC__SM_652425777808_000	view	2879
Sim_LAMMPS_MEAM_Wagner_2007_SiC__SM_264944083668_000	view	2975
Sim_LAMMPS_ReaxFF_AnGoddard_2015_BC__SM_389039364091_000	view	1104
Sim_LAMMPS_ReaxFF_ChenowethVanDuinGoddard_2008_CHO__SM_584143153761_001	view	352
Sim_LAMMPS_ReaxFF_ChenowethVanDuinPersson_2008_CHOV__SM_429148913211_001	view	448
Sim_LAMMPS_reaxFF_FthenakisPetsalakisTozzini_2022_CHON__SM_198543900691_000	view	1472
Sim_LAMMPS_ReaxFF_SinghSrinivasanNeekAmal_2013_CFH__SM_306840588959_000	view	3263
Sim_LAMMPS_ReaxFF_StrachanVanDuinChakraborty_2003_CHNO__SM_107643900657_001	view	639
Sim_LAMMPS_ReaxFF_XiaoShiHao_2017_PHOC__SM_424780295507_000	view	345
Sim_LAMMPS_TersoffZBL_DevanathanDiazdelaRubiaWeber_1998_SiC__SM_578912636995_000	view	2399
Sim_LAMMPS_TersoffZBL_HenrikssonBjorkasNordlund_2013_FeC__SM_473463498269_000	view	1951
Sim_LAMMPS_Vashishta_VashishtaKaliaNakano_2007_SiC__SM_196548226654_000	view	2847
Tersoff_LAMMPS_ErhartAlbe_2005SiII_SiC__MO_408791041969_004	view	596

Errors

EAM_Dynamo__MD_120291908751_005

Model	Error Categories	Link to Error page
EAM_Dynamo_HepburnAckland_2008_FeC__MO_143977152728_005	other	view

Tersoff_LAMMPS__MD_077075034781_005

Model	Error Categories	Link to Error page
Tersoff_LAMMPS_Tersoff_1990_SiC__MO_444207127575_000	other	view

No Driver

Model	Error Categories	Link to Error page
Sim_LAMMPS_MEAM_LiyanageKimHouze_2014_FeC__SM_652425777808_001	other	view

Files

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

Download

LatticeConstant2DHexagonalEnergy_graphene_C__TE_638394465817_002.txz	Tar+XZ	Linux and OS X archive
LatticeConstant2DHexagonalEnergy_graphene_C__TE_638394465817_002.zip	Zip	Windows archive

Download Dependency

This Test requires a Test Driver. Archives for the Test Driver LatticeConstant2DHexagonalEnergy__TD_034540307932_002 appear below.

LatticeConstant2DHexagonalEnergy__TD_034540307932_002.txz	Tar+XZ	Linux and OS X archive
LatticeConstant2DHexagonalEnergy__TD_034540307932_002.zip	Zip	Windows archive

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