The analysis of High Energy Physics (HEP) data sets often takes place outside the realm of experiment frameworks and central computing workflows, using carefully selected “n-tuples” or Analysis Object Data (AOD) as a data source. Such n-tuples or AODs may comprise data from tens of millions of events and grow to hundred gigabytes or a few terabytes in size. They are typically small enough to be processed by an institute’s cluster or even by a single workstation. N-tuples and AODs are often stored in the ROOT file format, in an array of serialized C++ objects in columnar storage layout. In recent years, several new data formats emerged from the data analytics industry. We provide a quantitative comparison of ROOT and other popular data forma...
With the expected large increase in the amount of available data in LHC Run 3, now more than ever HE...
A proof of concept system is described for analyzing high energy physics (HEP) data using data base ...
ROOT is an object-oriented C++ framework conceived in the high-energy physics (HEP) community, des...
The HEP community is approaching an era were the excellent performances of the particle accelerators...
HEP-Frame is a new C++ package designed to efficiently perform analyses of datasets from a very larg...
The ATLAS Collaboration is releasing a new set of recorded and simulated data samples at a centre-of...
The ATLAS Collaboration is releasing a new set of recorded and simulated data samples at a centre-of...
We overview recent changes in the ROOT I/O system, increasing performance and enhancing it and impro...
In the domain of high-energy physics (HEP), query languages in general and SQL in particular have fo...
CERN measures computing systems’ performance based on typical usage patterns that happen “in real ...
Experimental Particle Physics has been at the forefront of analyzing the worlds largest datasets for...
The final step in a HEP data-processing chain is usually to reduce the data to a `tuple' form which ...
[EN] Data analysis workflows in High Energy Physics (HEP) read data written in the ROOT columnar for...
At high energy physics experiments, processing billions of records of structured numerical data from...
Scientific research has always been intertwined to a certain degree with Computing. Even more so ove...
With the expected large increase in the amount of available data in LHC Run 3, now more than ever HE...
A proof of concept system is described for analyzing high energy physics (HEP) data using data base ...
ROOT is an object-oriented C++ framework conceived in the high-energy physics (HEP) community, des...
The HEP community is approaching an era were the excellent performances of the particle accelerators...
HEP-Frame is a new C++ package designed to efficiently perform analyses of datasets from a very larg...
The ATLAS Collaboration is releasing a new set of recorded and simulated data samples at a centre-of...
The ATLAS Collaboration is releasing a new set of recorded and simulated data samples at a centre-of...
We overview recent changes in the ROOT I/O system, increasing performance and enhancing it and impro...
In the domain of high-energy physics (HEP), query languages in general and SQL in particular have fo...
CERN measures computing systems’ performance based on typical usage patterns that happen “in real ...
Experimental Particle Physics has been at the forefront of analyzing the worlds largest datasets for...
The final step in a HEP data-processing chain is usually to reduce the data to a `tuple' form which ...
[EN] Data analysis workflows in High Energy Physics (HEP) read data written in the ROOT columnar for...
At high energy physics experiments, processing billions of records of structured numerical data from...
Scientific research has always been intertwined to a certain degree with Computing. Even more so ove...
With the expected large increase in the amount of available data in LHC Run 3, now more than ever HE...
A proof of concept system is described for analyzing high energy physics (HEP) data using data base ...
ROOT is an object-oriented C++ framework conceived in the high-energy physics (HEP) community, des...