The need for good software training is essential in the HEP community. Unfortunately, current training is non-homogeneous and the definition of a common baseline is unclear, making it difficult for newcomers to proficiently join large collaborations such as ALICE or LHCb. In the last years, both collaborations have started separate efforts to tackle this issue through training workshops, via Analysis Tutorials (organized by the ALICE Juniors since 2014) and the Starterkit (organized by LHCb students since 2015). In 2017, ALICE and LHCb have for the first time joined efforts to provide combined training by identifying common topics, such as version control systems (Git) and programming languages (e.g. Python). Given the positive experience a...
The computer-based curriculum for undergraduate physics students before 2019 struggled to stay curre...
Heavy-ion physics is present within the "International MasterClasses" for almost ten years. New deve...
The diversity of the scientific goals across HEP experiments necessitates unique bodies of software ...
The need for good software training is essential in the HEP community. Unfortunately, current traini...
The vast majority of high-energy physicists use and produce software every day. Software skills are ...
The vast majority of high-energy physicists use and produce software every day. Software skills are ...
Among the upgrades in current high energy physics (HEP) experiments and the new facilities coming on...
International audienceThe long-term sustainability of the high-energy physics (HEP) research softwar...
Providing computing training to the next generation of physicists is the principal driver for a bian...
In this paper we document the current analysis software training and onboarding activities in severa...
Developing, maintaining, and evolving the algorithms and software implementations for HEP experim...
The rapid evolution of technology and the parallel increasing complexity of algorithmic analysis in ...
With thousands of new members joining the HEP community every year, it is of paramount importance to...
<p>A large number of computational scientific research projects make use of open source software pac...
The computer-based curriculum for undergraduate physics students before 2019 struggled to stay curre...
Heavy-ion physics is present within the "International MasterClasses" for almost ten years. New deve...
The diversity of the scientific goals across HEP experiments necessitates unique bodies of software ...
The need for good software training is essential in the HEP community. Unfortunately, current traini...
The vast majority of high-energy physicists use and produce software every day. Software skills are ...
The vast majority of high-energy physicists use and produce software every day. Software skills are ...
Among the upgrades in current high energy physics (HEP) experiments and the new facilities coming on...
International audienceThe long-term sustainability of the high-energy physics (HEP) research softwar...
Providing computing training to the next generation of physicists is the principal driver for a bian...
In this paper we document the current analysis software training and onboarding activities in severa...
Developing, maintaining, and evolving the algorithms and software implementations for HEP experim...
The rapid evolution of technology and the parallel increasing complexity of algorithmic analysis in ...
With thousands of new members joining the HEP community every year, it is of paramount importance to...
<p>A large number of computational scientific research projects make use of open source software pac...
The computer-based curriculum for undergraduate physics students before 2019 struggled to stay curre...
Heavy-ion physics is present within the "International MasterClasses" for almost ten years. New deve...
The diversity of the scientific goals across HEP experiments necessitates unique bodies of software ...