When processing large amounts of data, the rate at which reading and writing can take place is a critical factor. High energy physics data processing relying on ROOT is no exception. The recent parallelisation of LHC experiments' software frameworks and the analysis of the ever increasing amount of collision data collected by experiments further emphasized this issue underlying the need of increasing the implicit parallelism expressed within the ROOT I/O. In this contribution we highlight the improvements of the ROOT I/O subsystem which targeted a satisfactory scaling behaviour in a multithreaded context. The effect of parallelism on the individual steps which are chained by ROOT to read and write data, namely (de)compression, (de)serialisa...
In this qualtitative study an arbitrary physics analysis of the LHCb experiment is simulated. In suc...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
The Large Hadron Collider (LHC) is generating Physics data at an unprecedented rate that is expected...
We overview recent changes in the ROOT I/O system, increasing performance and enhancing it and impro...
In the coming years, HEP data processing will need to exploit parallelism on present and future hard...
We overview recent changes in the ROOT I/O system, enhancing it by improving its performance and int...
In the coming years, HEP data processing will need to exploit parallelism on present and future hard...
HPC systems are becoming ever more important as a data processing resource for the LHC experiments. ...
[EN] Data analysis workflows in High Energy Physics (HEP) read data written in the ROOT columnar for...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
In the past, the increasing demands for HEP processing resources could be fulfilled by the ever incr...
The Physics programmes of LHC Run III and HL-LHC challenge the HEP community. The volume of data to ...
Experiments at the Large Hadron Collider (LHC) produce tens of petabytes of new data in ROOT format ...
The Physics programmes of LHC Run III and HL-LHC challenge the HEP community. The volume of data to ...
In this qualtitative study an arbitrary physics analysis of the LHCb experiment is simulated. In suc...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
The Large Hadron Collider (LHC) is generating Physics data at an unprecedented rate that is expected...
We overview recent changes in the ROOT I/O system, increasing performance and enhancing it and impro...
In the coming years, HEP data processing will need to exploit parallelism on present and future hard...
We overview recent changes in the ROOT I/O system, enhancing it by improving its performance and int...
In the coming years, HEP data processing will need to exploit parallelism on present and future hard...
HPC systems are becoming ever more important as a data processing resource for the LHC experiments. ...
[EN] Data analysis workflows in High Energy Physics (HEP) read data written in the ROOT columnar for...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...
In the past, the increasing demands for HEP processing resources could be fulfilled by the ever incr...
The Physics programmes of LHC Run III and HL-LHC challenge the HEP community. The volume of data to ...
Experiments at the Large Hadron Collider (LHC) produce tens of petabytes of new data in ROOT format ...
The Physics programmes of LHC Run III and HL-LHC challenge the HEP community. The volume of data to ...
In this qualtitative study an arbitrary physics analysis of the LHCb experiment is simulated. In suc...
High performance computing (HPC) is changing the way science is performed in the 21st Century; exper...
Input/Output (I/O) operations can represent a significant proportion of the run-time of parallel sci...