Wiki » History » Version 68
Christoph Freysoldt, 03/13/2020 04:34 PM
1 | 62 | Christoph Freysoldt | h1. Welcome to the SPHInX repository. |
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2 | 1 | Anonymous | |
3 | 63 | Christoph Freysoldt | !>{width: 70px; align: bottom;}SPHInX.png! S/PHI/nX is a *C++ library* for materials simulation, mostly electronic-structure theory. It also is a program (sphinx) to perform such simulations using *density-functional theory*, and *k.p theory*. In addition, the package offers dozens of specialized programs (add-ons) for smaller tasks related to setup, analysis, post-processing, and other types of simulations. |
4 | 1 | Anonymous | |
5 | 66 | Redmine Admin | !<{width: 70px;}sxaccelerate.jpg! In 2009, the base classes of SPHInX relating to *fundamental programming concepts* (memory handling, string handling, math, io, ...) have been separated from the physics part, and evolved into the "SxAccelerate":https://gitlab.com/sphinxlib/sxaccelerate library. This powerful library is now used for system administration software, "computer games":https://www.rockitlaunched.com/, and more ... There is more about the [[History|history of SPHInX]]. |
6 | 1 | Anonymous | |
7 | 64 | Christoph Freysoldt | SPHInX is natively supported by "*pyiron*":http://pyiron.org/, an Integrated Development Environment for Computational Materials Science. !{height: 40px; }pyiron-logo.png! |
8 | 1 | Anonymous | |
9 | h1. Features |
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11 | As a library, SPHInX offers features in multiple areas: |
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12 | 50 | Redmine Admin | |
13 | 61 | Christoph Freysoldt | h2. Charged defect corrections !>{width: 300px; }GaAs-vacGa-3-formEnergy.png! |
14 | 1 | Anonymous | |
15 | 67 | Christoph Freysoldt | * sxdefectalign ("executable":https://sxrepo.mpie.de/attachments/download/20/sxdefectalign.bz2 "manual":https://sxrepo.mpie.de/attachments/download/36/sxdefectalign-manual.pdf) for point defects in *bulk*, see "PRL *102*, 016402 (2009).":https://doi.org/10.1103/PhysRevLett.102.016402 |
16 | 68 | Christoph Freysoldt | * sxdefectalign2d ("executable":https://sxrepo.mpie.de/attachments/download/51/sxdefectalign2d.bz2 "manual":https://sxrepo.mpie.de/attachments/download/52/sxdefectalign2d-manual.pdf) for point defects at *surfaces, interfaces*, and *2D materials*, see "Phys. Rev. B *97*, 205425 (2018).":https://doi.org/10.1103/PhysRevB.97.205425 |
17 | 50 | Redmine Admin | |
18 | 59 | Christoph Freysoldt | h2. Geometry optimization |
19 | 50 | Redmine Admin | |
20 | 68 | Christoph Freysoldt | * on-the-fly parameterized BFGS quasi-Newton (ricQN) ("sxextopt executable":https://sxrepo.mpie.de/attachments/download/53/sxextopt.bz2 "manual":https://sxrepo.mpie.de/attachments/download/12/sxextopt-manual.pdf), see "Comp. Mat. Sci. *133*, 71 (2017).":https://dx.doi.org/10.1016/j.commatsci.2017.03.001 |
21 | 50 | Redmine Admin | * standard BFGS quasi-Newton |
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23 | 60 | Christoph Freysoldt | h2. k · p |
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25 | 59 | Christoph Freysoldt | Oliver Marquardt, Stefan Schulz, Christoph Freysoldt, Sixten Boeck, Tilmann Hickel, Eoin P. O’Reilly, Jörg Neugebauer |
26 | 60 | Christoph Freysoldt | _A flexible, plane-wave based *k* · *p* multiband model_ |
27 | 59 | Christoph Freysoldt | "Optical and Quantum Electronics *44*, 183 (2012).":https://doi.org/10.1007/s11082-011-9506-3 |
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29 | 1 | Anonymous | * plane-wave basis set (i.e., periodic-boundary conditions) |
30 | * flexible N-band model Hamiltonians configurable via input file |
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31 | * fully flexible system geometry via material maps |
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32 | * linear and non-linear interpolation of material parameters |
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33 | * very efficient preconditioner for minimizer |
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34 | * strain calculation |
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36 | 61 | Christoph Freysoldt | h2. Add-ons !>{width: 300px; }quamolResidue.jpg! |
37 | 50 | Redmine Admin | |
38 | * powerful atomic-structure handling for generating and manipulating atomic geometries (rotating, non-trivial multiplying, diffs, patching) |
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39 | * generate slabs, dislocations, random structure |
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40 | * Freysoldt-van-de-Walle-Neugebauer charged defect correction scheme (sxdefectalign) in 3D and 2D |
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41 | * phonons from forces |
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42 | 21 | Anonymous | * electronic-structure post-processing: partial densities (also Tersoff-Hamann STM), total & projected DOS, dipole oscillator strengthes, ELNES, MIES |
43 | 59 | Christoph Freysoldt | * optimized atomic orbitals (quamols), see "Phys Rev B *84*, 1 (2011).":https://dx.doi.org/10.1103/PhysRevB.84.085101 |
44 | 68 | Christoph Freysoldt | * external structure optimizer ("sxextopt executable":https://sxrepo.mpie.de/attachments/download/53/sxextopt.bz2 "manual":https://sxrepo.mpie.de/attachments/download/12/sxextopt-manual.pdf) |
45 | 50 | Redmine Admin | * interface to the York GW space-time code |
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47 | 59 | Christoph Freysoldt | h2. DFT |
48 | 50 | Redmine Admin | |
49 | _The object-oriented DFT program library S/PHI/nX_ |
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50 | S. Boeck, C. Freysoldt, A. Dick, L. Ismer, J. Neugebauer "Comp. Phys. Comm. (182), 2011, 543-554":http://www.sciencedirect.com/science/article/pii/S0010465510003619 |
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51 | 59 | Christoph Freysoldt | |
52 | * plane-wave basis sets |
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53 | * norm-conserving pseudopotentials or |
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54 | * PAW formalism (reads Bloechl's cppaw, VASP, abinit PAW setups) |
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55 | * LDA, GGA-PBE functionals (PBE0 and HSE hybrids as an experimental feature) |
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56 | * very robust and fast minimizers |
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57 | * atomic spin constraints |
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58 | * DFT+U for molecular orbitals |
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59 | 1 | Anonymous | * generalized dipole correction for charged slabs |
60 | 59 | Christoph Freysoldt | |
61 | h2. "SxAccelerate":https://gitlab.com/sphinxlib/sxaccelerate |
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62 | 62 | Christoph Freysoldt | !<{width: 70px;}sxaccelerate.jpg! |
63 | 59 | Christoph Freysoldt | |
64 | * base libraries for "C++ simple & powerful" |
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65 | * easy to learn thanks to limiting complexity to the 95% daily-use case |
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66 | * templates for the REALLY useful containers: contiguous arrays, doubly-linked lists, stacks, (math) vectors |
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67 | * simple & powerful string class |
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68 | * powerful io format |
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69 | * timers made simple: define locally, but get numbers in the global output |
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70 | * math support via linking to FFT & linear algebra libraries, but much simplified interface |
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71 | * simple macro language for MPI-based loop parallelization |
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73 | h1. About Us |
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74 | 1 | Anonymous | |
75 | 50 | Redmine Admin | [[et al|List of Authors]] |
76 | 39 | Anonymous | |
77 | 34 | Anonymous | h2. Contributing Partners |
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79 | 39 | Anonymous | * Defect Chemistry and Spectroscopy group |
80 | 34 | Anonymous | "Computational Materials Design Dept.":http://www.mpie.de/2702079/computational_materials_design |
81 | 50 | Redmine Admin | Max-Planck-Institut für Eisenforschung |
82 | Düsseldorf, Germany |
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83 | 39 | Anonymous | |
84 | 34 | Anonymous | * "Gemmantics IT-Consulting":http://www.gemmantics.com |
85 | 1 | Anonymous | Erkrath, Germany |
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87 | * "Photonics Theory Group":http://www.tyndall.ie/content/photonics-0 |
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88 | Tyndall National Institute, |
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89 | Cork, Ireland |
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91 | 52 | Redmine Admin | * " Max Planck Computing and Data Facility (MPCDF)":https://www.mpcdf.mpg.de/ |
92 | 1 | Anonymous | Garching, Germany |