ROOT is the LHC physicists' common tool for data analysis; almost all data is stored using ROOT's I/O system. This system benefits from a custom description of types (a so-called dictionary) that is optimised for the I/O. Until now, the dictionary cannot be provided at run-time; it needs to be prepared in a separate prerequisite step. This project will move the generation of the dictionary to run-time, making use of ROOT 6's new just-in-time compiler. It allows a more dynamic and natural access to ROOT's I/O features especially for user code
The Gaudi framework, at the core of LHCb applications, relies on many features of ROOT, from the Mat...
Since version 3.05/02, the ROOT I/O System has gone through significant enhancements. In particular,...
What makes a dictionary exploitable in Natural Language Processing (NLP)? We examine two requirement...
The online system in the LHCb experiment uses ROOT in various areas. ROOT is used in all processes p...
Introduction to the ROOT data handling system. ROOT is used in some for or another by all LHC experi...
Since almost two decades, ROOT has established itself as the framework for HENP data processing and ...
The ROOT TTree data format encodes hundreds of petabytes of High Energy and Nuclear Physics events. ...
The sixth release cycle of ROOT is characterised by a radical modernisation in the core software tec...
Dictionary code compression is a technique where long instructions in the memory are replaced with s...
This is a development release. We created it to expose to users part of the enourmous amount of new ...
We propose a novel instruction compression scheme based on fine-grained programmable dictionaries. I...
The implementation of persistency in the Compact Muon Solenoid (CMS) Software Framework uses the cor...
ROOT is a C++ framework for data analysis provided with a Python interface (PyRoot). ROOT is used in...
We are building an operating system in which an integral run-time code generator constantly strives ...
We overview recent changes in the ROOT I/O system, increasing performance and enhancing it and impro...
The Gaudi framework, at the core of LHCb applications, relies on many features of ROOT, from the Mat...
Since version 3.05/02, the ROOT I/O System has gone through significant enhancements. In particular,...
What makes a dictionary exploitable in Natural Language Processing (NLP)? We examine two requirement...
The online system in the LHCb experiment uses ROOT in various areas. ROOT is used in all processes p...
Introduction to the ROOT data handling system. ROOT is used in some for or another by all LHC experi...
Since almost two decades, ROOT has established itself as the framework for HENP data processing and ...
The ROOT TTree data format encodes hundreds of petabytes of High Energy and Nuclear Physics events. ...
The sixth release cycle of ROOT is characterised by a radical modernisation in the core software tec...
Dictionary code compression is a technique where long instructions in the memory are replaced with s...
This is a development release. We created it to expose to users part of the enourmous amount of new ...
We propose a novel instruction compression scheme based on fine-grained programmable dictionaries. I...
The implementation of persistency in the Compact Muon Solenoid (CMS) Software Framework uses the cor...
ROOT is a C++ framework for data analysis provided with a Python interface (PyRoot). ROOT is used in...
We are building an operating system in which an integral run-time code generator constantly strives ...
We overview recent changes in the ROOT I/O system, increasing performance and enhancing it and impro...
The Gaudi framework, at the core of LHCb applications, relies on many features of ROOT, from the Mat...
Since version 3.05/02, the ROOT I/O System has gone through significant enhancements. In particular,...
What makes a dictionary exploitable in Natural Language Processing (NLP)? We examine two requirement...