tag:joss.theoj.org,2005:/papers/tagged/BuildingJournal of Open Source Software2024-01-24T17:19:02ZJournal of Open Source Softwarehttps://joss.theoj.orgtag:joss.theoj.org,2005:Paper/49472024-01-24T17:19:02Z2024-02-25T07:02:22ZViash: A meta-framework for building reusable workflow modulesaccepted0.8.12023-11-21 12:26:06 UTC932024-01-24 17:19:02 UTC920246089RobrechtCannoodtData Intuitive, Lebbeke, Belgium, Data Mining and Modelling for Biomedicine group, VIB Center for Inflammation Research, Ghent, Belgium, Department of Applied Mathematics, Computer Science, and Statistics, Ghent University, Ghent, Belgium0000-0003-3641-729XHendrikCannoodtData Intuitive, Lebbeke, Belgium0000-0002-0032-6719DriesSchaumontData Intuitive, Lebbeke, Belgium0000-0002-4389-0440KaiWaldrantData Intuitive, Lebbeke, Belgium0009-0003-8555-1361EricVan de KerckhoveData Intuitive, Lebbeke, BelgiumAndyBoschmansData Intuitive, Lebbeke, Belgium0009-0008-8793-4661DriesDe MaeyerDiscovery Technology and Molecular Pharmacology, Janssen Research & Development, Pharmaceutical Companies of Johnson & Johnson, Beerse, Belgium0000-0002-1314-3348ToniVerbeirenData Intuitive, Lebbeke, Belgium0000-0002-7007-686610.21105/joss.06089https://doi.org/10.5281/zenodo.10563479Scala, Nextflowhttps://joss.theoj.org/papers/10.21105/joss.06089.pdfBioinformatics, Workflows, Software development, Reproducibility, Cloud computing, Dockertag:joss.theoj.org,2005:Paper/48252024-01-19T21:37:47Z2024-01-20T00:00:44Zpymatgen-analysis-defects: A Python package for analyzing point defects in crystalline materialsacceptedv2023.08.222023-10-02 01:54:09 UTC932024-01-19 21:37:47 UTC920245941Jimmy-XuanShenLawrence Livermore National Laboratory, Livermore, California 94550, United States0000-0002-2743-7531JoelVarleyLawrence Livermore National Laboratory, Livermore, California 94550, United States0000-0002-5384-524810.21105/joss.05941https://doi.org/10.5281/zenodo.6994437Python, Jupyter Notebookhttps://joss.theoj.org/papers/10.21105/joss.05941.pdfpython, materials science, point defects, finite-size corrections, database buildingtag:joss.theoj.org,2005:Paper/45812023-09-14T00:56:46Z2023-09-15T00:01:17ZCMakePPLang: An object-oriented extension to CMakeacceptedv1.0.02023-07-06 19:51:31 UTC892023-09-14 00:56:46 UTC820235711ZacheryCrandallDepartment of Chemistry, Iowa State University, USA, Chemical and Biological Sciences, Ames National Laboratory, USA0000-0003-3161-9378BlakeMulnixDepartment of Chemistry, Iowa State University, USA, Chemical and Biological Sciences, Ames National Laboratory, USABrandenButlerDepartment of Chemistry, Iowa State University, USA, Chemical and Biological Sciences, Ames National Laboratory, USATheresaL.WindusDepartment of Chemistry, Iowa State University, USA, Chemical and Biological Sciences, Ames National Laboratory, USA0000-0001-6065-3167RyanM.RichardDepartment of Chemistry, Iowa State University, USA, Chemical and Biological Sciences, Ames National Laboratory, USA0000-0003-4235-517910.21105/joss.05711https://doi.org/10.5281/zenodo.8339121https://joss.theoj.org/papers/10.21105/joss.05711.pdfCMake, build tools, cross-platform, C++tag:joss.theoj.org,2005:Paper/42192023-05-15T11:55:06Z2023-05-16T00:01:31Zrepytah: An Open-Source Python Package for Building Aligned Hierarchies for Sequential Dataacceptedv0.1.02023-02-17 17:12:42 UTC852023-05-15 11:55:06 UTC820235213ChenhuiJiaSmith College, USALizetteCarpenterSmith College, USAThuTranSmith College, USAAmandaY.LiuSmith College, USASashaYeutseyevaSmith College, USAMariumTapalSmith College, USA0000-0001-5093-6462YingkeWangColumbia University, USAZoieKexinZhaoSmith College, USAJordanMoodySmith College, USADeniseNavaSmith College, USAEleanorDonaherSmith College, USALillianYushuJiangSmith College, USABenBruncatiSmith College, USAKatherineM.KinnairdSmith College, USA0000-0002-0435-899610.21105/joss.05213https://doi.org/10.5281/zenodo.7931423Pythonhttps://joss.theoj.org/papers/10.21105/joss.05213.pdfMusic Information Retrieval, Structure representations, Aligned Hierarchies, Music Structure Analysistag:joss.theoj.org,2005:Paper/39572023-03-28T17:44:39Z2023-03-29T00:02:32Zronswanson: Building Table Models for 3MLacceptedv0.2.62022-10-14 08:03:23 UTC832023-03-28 17:44:39 UTC820234969J.MichaelBurgessMax Planck Institute for Extraterrestrial Physics, Giessenbachstrasse, 85748 Garching, Germany0000-0003-3345-951510.21105/joss.04969https://doi.org/10.5281/zenodo.7778865Pythonhttps://joss.theoj.org/papers/10.21105/joss.04969.pdfastronomy, spectral fitting, interpolationtag:joss.theoj.org,2005:Paper/39292023-03-07T15:19:21Z2023-03-08T00:04:22ZHydroMT: Automated and reproducible model building and analysisacceptedv0.5.02022-09-28 08:56:15 UTC832023-03-07 15:19:21 UTC820234897DirkEilanderDeltares, The Netherlands, Institution for Environmental Studies (IVM), Vrije Universiteit Amsterdam, The Netherlands0000-0002-0951-8418HélèneBoisgontierDeltares, The NetherlandsLaurèneJ. e.BouazizDeltares, The Netherlands0000-0003-0597-8051JoostBuitinkDeltares, The NetherlandsAnaïsCouasnonDeltares, The Netherlands, Institution for Environmental Studies (IVM), Vrije Universiteit Amsterdam, The Netherlands0000-0001-9372-841XBrendanDalmijnDeltares, The NetherlandsMarkHegnauerDeltares, The NetherlandsTjallingde JongDeltares, The NetherlandsSibrenLoosDeltares, The NetherlandsIndraMarthDeltares, The NetherlandsWillemvan VerseveldDeltares, The Netherlands0000-0003-3311-738X10.21105/joss.04897https://doi.org/10.5281/zenodo.7663065Pythonhttps://joss.theoj.org/papers/10.21105/joss.04897.pdfreproducible model building, model analysis, hydrology, hydrodynamics, gistag:joss.theoj.org,2005:Paper/39422023-02-28T14:56:58Z2023-03-01T00:04:45ZCopper: a performance curve generator for building energy simulationaccepted0.1.52022-10-05 05:35:20 UTC822023-02-28 14:56:58 UTC820234876JérémyLerondPacific Northwest National Laboratory, Richland, WA, USA0000-0002-1630-6886AowabinRahmanPacific Northwest National Laboratory, Richland, WA, USA0000-0003-2543-5126JianZhangPacific Northwest National Laboratory, Richland, WA, USA0000-0001-6125-0407MichaelRosenbergPacific Northwest National Laboratory, Richland, WA, USA0000-0003-1490-311510.21105/joss.04876https://doi.org/10.5281/zenodo.7644215Pythonhttps://joss.theoj.org/papers/10.21105/joss.04876.pdfpython, energy, building, simulation, hvactag:joss.theoj.org,2005:Paper/38012022-12-15T15:15:03Z2022-12-16T00:00:59ZQuantNBody: a Python package for quantum chemistry and physics to build and manipulate many-body operators and wave functions.acceptedv 1.0.02022-08-05 22:18:57 UTC802022-12-15 15:15:03 UTC720224759SaadYalouzLaboratoire de Chimie Quantique, Institut de Chimie, CNRS/Université de Strasbourg, 4 rue Blaise Pascal, 67000 Strasbourg, France0000-0002-8818-3379MartinRafaelGullinLaboratoire de Chimie Quantique, Institut de Chimie, CNRS/Université de Strasbourg, 4 rue Blaise Pascal, 67000 Strasbourg, FranceSajanthanSekaranLaboratoire de Chimie Quantique, Institut de Chimie, CNRS/Université de Strasbourg, 4 rue Blaise Pascal, 67000 Strasbourg, France10.21105/joss.04759https://doi.org/10.5281/zenodo.7440993Python, Jupyter Notebookhttps://joss.theoj.org/papers/10.21105/joss.04759.pdfquantum physics and chemistry, quantum many-body systems, exact diagonalizationtag:joss.theoj.org,2005:Paper/34112022-10-14T15:45:52Z2022-10-15T00:00:41ZCESAR-P: A dynamic urban building energy simulation toolacceptedV2.0.12022-03-06 11:49:02 UTC782022-10-14 15:45:52 UTC720224261KristinaOrehounigUrban Energy Systems Laboratory, Empa, Duebendorf, Switzerland0000-0001-6491-7641LeonieFierzUrban Energy Systems Laboratory, Empa, Duebendorf, Switzerland0000-0002-1457-537XJamesAllanUrban Energy Systems Laboratory, Empa, Duebendorf, SwitzerlandSvenEggimannUrban Energy Systems Laboratory, Empa, Duebendorf, Switzerland0000-0003-3655-2328NatasaVulicUrban Energy Systems Laboratory, Empa, Duebendorf, SwitzerlandAaronBojarskiUrban Energy Systems Laboratory, Empa, Duebendorf, Switzerland10.21105/joss.04261https://doi.org/10.5281/zenodo.7150137Pythonhttps://joss.theoj.org/papers/10.21105/joss.04261.pdfbuildings, energy consumption, cities, retrofitting solutions, costs and emissionstag:joss.theoj.org,2005:Paper/36402022-08-22T09:30:59Z2022-12-09T11:06:29ZMat-dp: An open-source Python model for analysing material demand projections and their environmental implications, which result from building low-carbon systems.acceptedv1.0.02022-06-02 14:15:48 UTC762022-08-22 09:30:59 UTC720224460KarlaCervantes BarronUniversity of Cambridge0000-0001-9185-3022JonathanM.CullenUniversity of Cambridge0000-0001-9367-179110.21105/joss.04460https://doi.org/10.5281/zenodo.7002733Pythonhttps://joss.theoj.org/papers/10.21105/joss.04460.pdfmaterials, python, low carbon, material efficiency, material demand, environmental implications, embodied emissions