The LHC Optical Private Network (LHCOPN), linking CERN and the Tier 1s, and the LHC Open Network Environment (LHCONE) which links these to the Tier 2 community both successfully supported the data transfer needs of the LHC community during Run 1 and have now evolved to serve the networking requirements of the new computing models for Run 2. We present here the current status and the key changes, notably the delivered and planned bandwidth increases, the ongoing work to better address the needs of the Asia-Pacific region, developments to improve redundancy and progress made for provisioning point-to-point links
This talk explores the methods and results confirming the baseline assumption that LHCONE traffic is...
LHC Run3 and Run4 represent an unprecedented challenge for HEP computing in terms of both data volum...
This article reports the current status of the CERN Large Hadron Collider. The focus is on proton ph...
CERN’s Large Hadron Collider is producing several Petabytes of physics data per year. We present the...
Wide area networks of increasing end-to-end capacity and capability are vital for every phase of hig...
US LHCNet provides the transatlantic connectivity between the Tier1 computing facilities at the Ferm...
This proposal presents the status and progress in 2006-7, and the technical and financial plans for ...
As from 2019, the LHC accelerator and its four major Experiments will undergo major upgrades that wi...
Novel large scale research projects often require cooperation between various different project part...
The Large Hadron Collider (LHC) is currently running at CERN in Geneva, Switzerland. Physicists are ...
High Energy Physics (HEP) experiments have greatly benefited from a strong relationship with Researc...
The status of the LHC, namely recent highlights from Run 1, status of the machine upgrade and the ex...
CERN hosts the largest accelerator complex in the world. The flagship machine is the LHC providing p...
This paper explores the methods and results confirming the baseline assumption that LHCONE[1] (Large...
The Worldwide LHC Computing Grid is constituted of more than 150 sites distributed all across the gl...
This talk explores the methods and results confirming the baseline assumption that LHCONE traffic is...
LHC Run3 and Run4 represent an unprecedented challenge for HEP computing in terms of both data volum...
This article reports the current status of the CERN Large Hadron Collider. The focus is on proton ph...
CERN’s Large Hadron Collider is producing several Petabytes of physics data per year. We present the...
Wide area networks of increasing end-to-end capacity and capability are vital for every phase of hig...
US LHCNet provides the transatlantic connectivity between the Tier1 computing facilities at the Ferm...
This proposal presents the status and progress in 2006-7, and the technical and financial plans for ...
As from 2019, the LHC accelerator and its four major Experiments will undergo major upgrades that wi...
Novel large scale research projects often require cooperation between various different project part...
The Large Hadron Collider (LHC) is currently running at CERN in Geneva, Switzerland. Physicists are ...
High Energy Physics (HEP) experiments have greatly benefited from a strong relationship with Researc...
The status of the LHC, namely recent highlights from Run 1, status of the machine upgrade and the ex...
CERN hosts the largest accelerator complex in the world. The flagship machine is the LHC providing p...
This paper explores the methods and results confirming the baseline assumption that LHCONE[1] (Large...
The Worldwide LHC Computing Grid is constituted of more than 150 sites distributed all across the gl...
This talk explores the methods and results confirming the baseline assumption that LHCONE traffic is...
LHC Run3 and Run4 represent an unprecedented challenge for HEP computing in terms of both data volum...
This article reports the current status of the CERN Large Hadron Collider. The focus is on proton ph...