1,817 Works

Lattice QCD gauge ensemble: USQCD/MILC/asqtad/2064f21b676m010m050

Christopher Aubin, Claude Bernard, Tommy Burch, Saumen Datta, Thomas DeGrand, Carleton DeTar, Steven Gottlieb, Eric Gregory, Urs Heller, James Hetrick, Kostas Orginos, James Osborn, W. Toussaint & Robert Sugar
MILC asqtad QCD SU(3) gauge ensemble; series=a; a=0.11fm; Ls=2.2fm; Nf=2+1; u0.m0=(0.010,0.050)

Chordly

Robert Engelhardt & Andrew Steele
Chordly is a JavaScript library that lets you detect and act upon user keyboard input. This is accomplished by wiring Chordly up to listen for key sequences, known as chords, entered by a user. Sandia National Laboratories is a multimission laboratory managed and operated by National Technology & Engineering Solutions of Sandia, LLC, a wholly owned subsidiary of Honeywell International Inc., for the U.S. Department of Energy's National Nuclear Security Administration under contract DE-NA0003525. SAND2019-11084...

cuOrbit

Garrett Wright
CUDA C Orbit Model Numerical guiding center code for toroidally confined plasma.

cubacpp

Marc Paterno, Chris Green, Jackson O'Donnell & James Amundson
cubacpp provides a C++ binding for the excellent CUBA library, and to a lesser extent, to the GSL integration library GSL. cubacpp provides no new integration facilities. It merely provides a more convenient syntax for use of the CUBA (and GSL) integration routines, made possible by the features of the C++ programming language.

MHKiT (Marine and Hydrokinetic Toolkit) - Python

Chitra Sivaraman, Fredrick Driscoll, Budi Gunawan, Carina Lansing, Matt macduff, Tonya Martin, Katherine Klise, Kelley Ruehl, Sterling Olson, Timothy Shippert, Zachary Morrel & Sarah Bredin
The MHKiT Code Hub is a collection of open-source marine renewable energy (MRE) software. The MHKiT code, developed in Python and MATLAB, includes modules for ingesting, quality controlling, processing, visualizing, and managing data. MHKiT-Python and MHKiT-MATLAB provide robust and verified functions in both Python and MATLAB that are needed by the MRE community to standardize data processing. Calculations and visualizations adhere to IEC technical specifications and other guidelines. Current functionality includes power performance, power quality,...

MHKiT (Marine and Hydrokinetic Toolkit) - MATLAB

Carina Lansing, Chitra Sivaraman, Matt Macduff, Kelley Ruehl, Katherine Klise, Frederick Driscoll, Rebecca Pauly, Timothy Shippert, Sterling Olson, Budi Gunawan, Zachary Morrell & Sarah Bredin
The MHKiT Code Hub is a collection of open-source marine renewable energy (MRE) software. The MHKiT code, developed in Python and MATLAB, includes modules for ingesting, quality controlling, processing, visualizing, and managing data. MHKiT-Python and MHKiT-MATLAB provide robust and verified functions in both Python and MATLAB that are needed by the MRE community to standardize data processing. Calculations and visualizations adhere to IEC technical specifications and other guidelines. Current functionality includes power performance, power quality,...

miniGhost Mantevo miniapp

None None
MiniGhost is a miniapp in the Mantevo project. Using a finite difference method, it mimics the inter-process communication requirements commonly found in applications of this sort. Random values are inserts into the grid, and therefore no "real problem" is solved.

NREL Wind Energy Cost and Scaling Model

George Scott & Katherine Dykes
NREL_CSM is a set of models that provide an overall cost of energy analysis for the wind plant.

32 TeV pgun collisions, Double particles type, PARTICLE GUN generator: pgun_2pions8tev_pi

S. Chekanov
Particle gun for detector studies: A particle gun for two pions separated by PI in Phi (i.e. back-to-back). The eta is set to 0. Production at (x,y,z,t)=(0,0,0,0). Charge is alternated. Uniform distribution in Phi between -PI and PI. Particle momentum is 8192 GeV. The sample was designed for detector studies.

GridLab-D

J. McCall, L. Connell, N. Tenney, B. Carpenter, Z. Taylor, K. Gowri, L. Kiesling, R. Pratt, T. Carlon, D. Chassin, S. Katipamula, N. Lu, K. Schneider, C. Gerkensmeyer, S. Lu, B. Yang, M. Hauer, S. Walton & Y. Chen
A power system simulation that runs on all major platforms, provides open access to all functionality, and supports extended modeling of non-traditional components of the electric power system, such as buildings, distributed resources, and markets.

13 TeV pp collisions, Exotics type, PYTHIA8 generator: tev13pp_pythia8_Ggamma_2tev

S. Chekanov
Graviton production: f fbar to G gamma LHAPDF6:MSTW2008lo68cl.LHgrid. Tune:pp=5 ExtraDimensionsLED:ffbar2Ggamma = on ExtraDimensionsLED:CutOffmode = 1 ExtraDimensionsLED:t = 0.5 ExtraDimensionsLED:n = 6 ExtraDimensionsLED:MD = 1000. ExtraDimensionsLED:LambdaT = 1000. 5000039:m0 = 2000. 5000039:mWidth = 500. 5000039:mMin = 1. 5000039:mMax = 14990. PhaseSpace:pTHatMin = 100.

Test DOI: No longer exists

DataCite
This does was a test DOI and no longer exists.

100 TeV pp collisions, SM type, PYTHIA8 generator: tev100pp_wzdouble_pythia8

S. Chekanov
WW,ZZ and WZ production for pT>1 TeV. All decays are allowed. 10,000 events per file. Other details are in the log files attached to the files.

GJOIN

G. Sjaardema & A. Gilkey
GJOIN is a two- or three-dimensional mesh combination program. GJOIN combines two or more meshes written in the GENESIS mesh database format into a single GENESIS mesh. Selected nodes in the two meshes that are closer than a specified distance can be combined. The geometry of the mesh databases can be modified by scaling, offsetting, revolving, nd mirroring. The combined meshes can be further modified by deleting, renaming, or combining material blocks, sideset identifications, or...

Solar System Initial Abundnace Reader

Reto Trappitsch
This code is a simply python module that allows the user to read in the solar system value from a provided database. It simply reads in the database, and calculates ratios with various values. Currently, the solar system values from Lodders et al. (2009) are solely included. The tool is designed to assist a astrophysics / cosmochemist user in their daily life of calculating those ratios for programs and was written by the author to...

Varity

Ignacio Peralta
Brief Description for Public Release: Varity is a framework to identify variations in floating-point programs through randomized differential testing. Varity generates random tests that include floating-point operations and compile these tests with different compilers in a system. It also generates random floating-point inputs for the tests. When tests are executed, the results are compared to identify variations in the results. Varity helps users of a system to identify the compilers that produce the most similar...

Remote Sensor Design for Visual Recognition with Convolutional Neural Networks

michael Zelinski & Lucas Jaffe
While deep learning technologies for computer vision have developed rapidly since 2012, modeling of remote sensing systems has remained focused around human vision. In particular, remote sensing systems are usually constructed to optimize sensing cost-quality trade-offs with respect to human image interpretability. While some recent studies have explored remote sensing system design as a function of simple computer vision algorithm performance, there has been little work relating this design to the state-of-the-art in computer vision:...

climextremes v0.2.1

Harinarayan Krishnan & Christopher Paciorek
Software package for R and Python for analysis of extremes in climate data. Functions for fitting GEV and POT (via point process fitting) models for extremes in climate data, providing return values, return probabilities, and return periods for stationary and nonstationary models. Also provides differences in return values and differences in log return probabilities for contrasts of covariate values. Functions for estimating risk ratios for event attribution analyses, including uncertainty. Under the hood, many of...

Bifacial_Radiance

Chris Deline & Silvana Ayala
bifacial_radiance contains a series of Python wrapper functions to make working with RADIANCE easier, particularly for the PV researcher interested in bifacial PV performance. Users can configure site details such as latitude / longitude, and ground albedo. A bifacial PV system is created with a number of PV modules in rows. The user can specify ground clearance height, row spacing, tilt and azimuth angle, etc. The scene is created, and annual or hourly irradiance profiles...

Modelica Buildings Library Extension for AC and DC Building Comparison (Modelica DC Buildings) v1

Daniel Gerber
This software simulates and compares the losses in AC and DC buildings. It uses formatted load profile data from EnergyPlus, PV generation data from PVWatts, realistic converter efficiency curves based on product data, a battery controller based on excess PV, and a realistic wire model. The software includes Modelica code, which is an extension of the Buildings Library Electrical models. It also includes Python code, which manages the Modelica parametric simulations and plots results.

DiHydrogen

Naoya Maruyama, Brian Essen, Nikoli Dryden, Thomas Benson, Timothy Moon & Yosuke Oyama
DiHydrogen is the second version of the Hydrogen fork of the well-known distributed linear algebra library, Elemental. DiHydrogen is a GPU-accelerated distributed multilinear algebra interface with a particular emphasis on the needs of the scalable distributed deep learning training and inference. DiHydrogen is part of the Livermore Big Artificial Neural Network (LBANN) software stack.

13 TeV pp collisions, SM type, PYTHIA8 generator: tev13pp_pythia8_ttbarwz_wgt

S. Chekanov
2->2 events with all W+jet, Z+jet, top, single top and SM Higgs proceses at LO+PS+hadronization. PhaseSpace:pTHatMin=100 GeV. 20,000 events per file. PDF: LHAPDF6:NNPDF23_lo_as_0130_qed. The sample was created using the Pythia8 tune Tune:pp = 14, similar to ATLAS. THis sample was created for ATLAS studies of dijet+lepton event topologies.

13 TeV pp collisions, Exotics type, MADGRAPH/PY8 generator: tev13pp_mg5_dm_a_boson

Henry Meng
Madgraph5 simulation of a simplified model of Zprime with dijets and lepton decays of W/Z. Interference effects are included. Pythia8 was used to shower events. LHAPDF6:NNPDF23_lo_as_0130_qed. The sample was created using the Pythia8 tune Tune:pp = 14 similar to ATLAS.

13 TeV pp collisions, Exotics type, MADGRAPH/PY8 generator: tev13pp_mg5_dm_boson

Henry Meng
Madgraph5 simulation of Zprime in dijet+W/Z events. Zprime is a massive particle decaying to two jets and an associated W/Z (leptonic decays). Pythia8 was used to shower events. LHAPDF6:NNPDF23_lo_as_0130_qed. The sample was created using the Pythia8 tune Tune:pp = 14 similar to ATLAS.

13 TeV pp collisions, SM type, PYTHIA8 generator: tev13pp_qcd_pythia8_proio

S. Chekanov & D. Blyth
This sample is for testing the ProIO file format. Please do not use it for physics. This sample corresponds to a small fraction of tev13pp_qcd_pythia8_weighted sample. Inclusive dijet events for pT>50 GeV. (PhaseSpace:pTHatMin=50 GeV). 20,000 events per file. PDF: LHAPDF6:NNPDF23_lo_as_0130_qed. The sample was created using the Pythia8 tune Tune:pp = 14, similar to ATLAS.

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