The LCG Persistency Framework consists of three software packages (POOL, CORAL and COOL) that address the data access requirements of the LHC experiments in several different areas. The project is the result of the collaboration between the CERN IT Department and the three experiments (ATLAS, CMS and LHCb) that are using some or all of the Persistency Framework components to access their data. The POOL package is a hybrid technology store for C++ objects, using a mixture of streaming and relational technologies to implement both object persistency and object metadata catalogs and collections. POOL provides generic components that can be used by the experiments to store both their event data and their conditions data. The CORAL package is an...
The implementation of persistency in the Compact Muon Solenoid (CMS) Software Framework uses the cor...
Physics meta-data stored in relational databases play a crucial role in the Large Hadron Collider (L...
Building, testing and deploying of coherent large software stacks is very challenging, in particular...
The LCG Persistency Framework consists of three software packages (POOL, CORAL and COOL) that addres...
CORAL and COOL are two software packages used by the LHC experiments for managing detector condition...
CORAL and COOL are two software packages used by the LHC experiments for managing detector condition...
CORAL and COOL are software packages used by the LHC experiments for managing different categories o...
The pool of persistent objects for LHC (POOL) project, part of the large Hadron collider (LHC) compu...
The Applications Area of the LHC Computing Grid Project (LCG) develops part of the physics applicati...
The CORAL package is the LCG Persistency Framework foundation for accessing relational databases. Fr...
The POOL data storage mechanism is intended to satisfy the needs of the LHC experiments to store and...
Almost all groups involved in linear collider detector studies have their own simulation software fr...
The LHCb Conditions Database (CondDB) project aims to provide the necessary tools to handle non-even...
The CORAL software is widely used at CERN for accessing the data stored by the LHC experiments using...
The size and complexity of LHC experiments raise unprecedented challenges not only in terms of detec...
The implementation of persistency in the Compact Muon Solenoid (CMS) Software Framework uses the cor...
Physics meta-data stored in relational databases play a crucial role in the Large Hadron Collider (L...
Building, testing and deploying of coherent large software stacks is very challenging, in particular...
The LCG Persistency Framework consists of three software packages (POOL, CORAL and COOL) that addres...
CORAL and COOL are two software packages used by the LHC experiments for managing detector condition...
CORAL and COOL are two software packages used by the LHC experiments for managing detector condition...
CORAL and COOL are software packages used by the LHC experiments for managing different categories o...
The pool of persistent objects for LHC (POOL) project, part of the large Hadron collider (LHC) compu...
The Applications Area of the LHC Computing Grid Project (LCG) develops part of the physics applicati...
The CORAL package is the LCG Persistency Framework foundation for accessing relational databases. Fr...
The POOL data storage mechanism is intended to satisfy the needs of the LHC experiments to store and...
Almost all groups involved in linear collider detector studies have their own simulation software fr...
The LHCb Conditions Database (CondDB) project aims to provide the necessary tools to handle non-even...
The CORAL software is widely used at CERN for accessing the data stored by the LHC experiments using...
The size and complexity of LHC experiments raise unprecedented challenges not only in terms of detec...
The implementation of persistency in the Compact Muon Solenoid (CMS) Software Framework uses the cor...
Physics meta-data stored in relational databases play a crucial role in the Large Hadron Collider (L...
Building, testing and deploying of coherent large software stacks is very challenging, in particular...