The ROOT TTree data format encodes hundreds of petabytes of High Energy and Nuclear Physics events. Its columnar layout drives rapid analyses, as only those parts (“branches”) that are really used in a given analysis need to be read from storage. Its unique feature is the seamless C++ integration, which allows users to directly store their event classes without explicitly defining data schemas. In this contribution, we present the status and plans of the future ROOT 7 event I/O. Along with the ROOT 7 interface modernization, we aim for robust, where possible compile-time safe C++ interfaces to read and write event data. On the performance side, we show first benchmarks using ROOT’s new experimental I/O subsystem that combines the best of TT...
ROOT is a data analysis framework broadly used in and outside of High Energy Physics (HEP). Since HE...
In this talk we will review the major additions and improvements made to the ROOT system in the last...
We detail recent changes to ROOT-based I/O within the ATLAS experiment. The ATLAS persistent event d...
The ROOT TTree data format encodes hundreds of petabytes of High Energy and Nuclear Physics events. ...
ROOT is an object-oriented C++ framework conceived in the high-energy physics (HEP) community, des...
ROOT is a C++ framework for data analysis provided with a Python interface (PyRoot). ROOT is used in...
Over the last two decades, ROOT TTree has been used for storing over one exabyte of High-Energy Phys...
ROOT is an object-oriented C++ framework conceived in the high-energy physics (HEP) community, desig...
We overview recent changes in the ROOT I/O system, increasing performance and enhancing it and impro...
Since version 3.05/02, the ROOT I/O System has gone through significant enhancements. In particular,...
When processing large amounts of data, the rate at which reading and writing can take place is a cri...
The ROOT framework is the main data analysis tool for High Energy Physics. One of its main features ...
[EN] Data analysis workflows in High Energy Physics (HEP) read data written in the ROOT columnar for...
The ASCII ENDF format for nuclear data has been used for four decades. It is practical for human ins...
Talk from the 2003 Computing in High Energy and Nuclear Physics (CHEP03), La Jolla, Ca, USA, March 2...
ROOT is a data analysis framework broadly used in and outside of High Energy Physics (HEP). Since HE...
In this talk we will review the major additions and improvements made to the ROOT system in the last...
We detail recent changes to ROOT-based I/O within the ATLAS experiment. The ATLAS persistent event d...
The ROOT TTree data format encodes hundreds of petabytes of High Energy and Nuclear Physics events. ...
ROOT is an object-oriented C++ framework conceived in the high-energy physics (HEP) community, des...
ROOT is a C++ framework for data analysis provided with a Python interface (PyRoot). ROOT is used in...
Over the last two decades, ROOT TTree has been used for storing over one exabyte of High-Energy Phys...
ROOT is an object-oriented C++ framework conceived in the high-energy physics (HEP) community, desig...
We overview recent changes in the ROOT I/O system, increasing performance and enhancing it and impro...
Since version 3.05/02, the ROOT I/O System has gone through significant enhancements. In particular,...
When processing large amounts of data, the rate at which reading and writing can take place is a cri...
The ROOT framework is the main data analysis tool for High Energy Physics. One of its main features ...
[EN] Data analysis workflows in High Energy Physics (HEP) read data written in the ROOT columnar for...
The ASCII ENDF format for nuclear data has been used for four decades. It is practical for human ins...
Talk from the 2003 Computing in High Energy and Nuclear Physics (CHEP03), La Jolla, Ca, USA, March 2...
ROOT is a data analysis framework broadly used in and outside of High Energy Physics (HEP). Since HE...
In this talk we will review the major additions and improvements made to the ROOT system in the last...
We detail recent changes to ROOT-based I/O within the ATLAS experiment. The ATLAS persistent event d...