49 research outputs found
Geant4 Maintainability Assessed with Respect to Software Engineering References
We report a methodology developed to quantitatively assess the
maintainability of Geant4 with respect to software engineering references. The
level of maintainability is determined by combining a set of metrics values
whose references are documented in literature.Comment: 5 pages, 2 figures, 4 tables, IEEE NSS/MIC 201
Scholarly literature and the press: scientific impact and social perception of physics computing
The broad coverage of the search for the Higgs boson in the mainstream media
is a relative novelty for high energy physics (HEP) research, whose
achievements have traditionally been limited to scholarly literature. This
paper illustrates the results of a scientometric analysis of HEP computing in
scientific literature, institutional media and the press, and a comparative
overview of similar metrics concerning representative particle physics
measurements. The picture emerging from these scientometric data documents the
scientific impact and social perception of HEP computing. The results of this
analysis suggest that improved communication of the scientific and social role
of HEP computing would be beneficial to the high energy physics community.Comment: To be published in the Proceedings of CHEP 2013 (Computing in High
Energy Physics
Quantitative Test of the Evolution of Geant4 Electron Backscattering Simulation
Evolutions of Geant4 code have affected the simulation of electron
backscattering with respect to previously published results. Their effects are
quantified by analyzing the compatibility of the simulated electron
backscattering fraction with a large collection of experimental data for a wide
set of physics configuration options available in Geant4. Special emphasis is
placed on two electron scattering implementations first released in Geant4
version 10.2: the Goudsmit-Saunderson multiple scattering model and a single
Coulomb scattering model based on Mott cross section calculation. The new
Goudsmit-Saunderson multiple scattering model appears to perform equally or
less accurately than the model implemented in previous Geant4 versions,
depending on the electron energy. The new Coulomb scattering model was flawed
from a physics point of view, but computationally fast in Geant4 version 10.2;
the physics correction released in Geant4 version 10.2p01 severely degrades its
computational performance. Evolutions in the Geant4 geometry domain have
addressed physics problems observed in electron backscattering simulation in
previous publications.Comment: To be published in IEEE Trans. Nucl. Sc
Validation Test of Geant4 Simulation of Electron Backscattering
Backscattering is a sensitive probe of the accuracy of electron scattering
algorithms implemented in Monte Carlo codes. The capability of the Geant4
toolkit to describe realistically the fraction of electrons backscattered from
a target volume is extensively and quantitatively evaluated in comparison with
experimental data retrieved from the literature. The validation test covers the
energy range between approximately 100 eV and 20 MeV, and concerns a wide set
of target elements. Multiple and single electron scattering models implemented
in Geant4, as well as preassembled selections of physics models distributed
within Geant4, are analyzed with statistical methods. The evaluations concern
Geant4 versions from 9.1 to 10.1. Significant evolutions are observed over the
range of Geant4 versions, not always in the direction of better compatibility
with experiment. Goodness-of-fit tests complemented by categorical analysis
tests identify a configuration based on Geant4 Urban multiple scattering model
in Geant4 version 9.1 and a configuration based on single Coulomb scattering in
Geant4 10.0 as the physics options best reproducing experimental data above a
few tens of keV. At lower energies only single scattering demonstrates some
capability to reproduce data down to a few keV. Recommended preassembled
physics configurations appear incapable of describing electron backscattering
compatible with experiment. With the support of statistical methods, a
correlation is established between the validation of Geant4-based simulation of
backscattering and of energy deposition
Investigation of Geant4 Simulation of Electron Backscattering
A test of Geant4 simulation of electron backscattering recently published in
this journal prompted further investigation into the causes of the observed
behaviour. An interplay between features of geometry and physics algorithms
implemented in Geant4 is found to significantly affect the accuracy of
backscattering simulation in some physics configurations
The impact of Monte Carlo simulation: a scientometric analysis of scholarly literature
A scientometric analysis of Monte Carlo simulation and Monte Carlo codes has
been performed over a set of representative scholarly journals related to
radiation physics. The results of this study are reported and discussed. They
document and quantitatively appraise the role of Monte Carlo methods and codes
in scientific research and engineering applications.Comment: 5 pages, to appear in proceedings of the Joint International
Conference on Supercomputing in Nuclear Applications and Monte Carlo 2010
(SNA + MC2010
Writing software or writing scientific articles?
An analysis of publications related to high energy physics computing in refereed journals is presented. The distribution of papers associated to various fields of computing relevant to high energy physics is critically analyzed. The relative publication rate of software papers is evaluated in comparison to other closely related physics disciplines, such as nuclear physics, radiation protection and medical physics, and to hardware publications. The results hint to the fact that, in spite of the significant effort invested in high energy physics computing and its fundamental role in the experiments, this research area is underrepresented in scientific literature; nevertheless the analysis of citations highlights the significant impact of software publications in experimental research
Geant4 Silver Anniversary: 25 years enabling scientific production
This paper summarizes Geant4 contribution to scientific research over the
past 25 years through a scientometric analysis of the results with which it has
been associated. The scientometric data collected from scholarly literature and
databases are evaluated with methods pertaining to econometrics and ecology to
quantify relevant traits, diversity and disparity in their scientific and
geographic distributions, and to identify statistically significant trends. The
analysis reviews the contribution of Geant4 to the field - experimental
particle physics - that originally motivated its development and highlights its
role in other research domains including nuclear physics and engineering,
astrophysics and space science, biomedical physics, archaeology and the
cultural heritage.Comment: Presented at the 16th Topical Seminar on Innovative Particle and
Radiation Detectors (IPRD23), Siena, Ital