The ATLAS experiment will rely on Ethernet networks for several purposes. A control network will provide infrastructure and operational services, and two dedicated data networks will be used exclusively for transferring the event data within the High Level Trigger and Data Acquisition system. This article presents the networking architecture solution for the whole ATLAS TDAQ andillustrates sample performance evaluation results, meant to validate the design concepts
International audienceDuring 2006 and the first half of 2007, the installation, integration and comm...
The ATLAS experiment Data Acquisition (DAQ) system will face an extensive upgrade to fully exploit t...
After its first shutdown, the LHC will provide pp collisions with increased luminosity and energy. I...
The Trigger and Data Acquisition System of the ATLAS experiment is currently being installed at CERN...
We describe the methods used to monitor and measure the performance of the Atlas TDAQ data network. ...
The article analyzes a proposed network topology for the ATLAS DAQ DataFlow, and identifies the Ethe...
The ATLAS second level trigger will use a multi-layered LAN network to transfer 5 Gbyte/s detector d...
This paper presents some of the conclusions of our studies on ATM and Fast Ethernet in the ATLAS lev...
The ATLAS DataFlow infrastructure is responsible for the collection and conveyance of event data fro...
The second level trigger of LHC's ATLAS experiment has to perform real-time analyses on detector dat...
This paper presents some of the conclusions of our studies on asynchronous transfer mode (ATM) and f...
After its first shutdown, the LHC will provide pp collisions with increased luminosity and energy. I...
The ATLAS detector at CERN records proton-proton collisions delivered by the Large Hadron Collider (...
ATLAS is a general purpose High Energy Physics experiment at the Large Hadron Collider (LHC). The tr...
During 2006 and the first half of 2007, the installation, integration and commissioning of trigger a...
International audienceDuring 2006 and the first half of 2007, the installation, integration and comm...
The ATLAS experiment Data Acquisition (DAQ) system will face an extensive upgrade to fully exploit t...
After its first shutdown, the LHC will provide pp collisions with increased luminosity and energy. I...
The Trigger and Data Acquisition System of the ATLAS experiment is currently being installed at CERN...
We describe the methods used to monitor and measure the performance of the Atlas TDAQ data network. ...
The article analyzes a proposed network topology for the ATLAS DAQ DataFlow, and identifies the Ethe...
The ATLAS second level trigger will use a multi-layered LAN network to transfer 5 Gbyte/s detector d...
This paper presents some of the conclusions of our studies on ATM and Fast Ethernet in the ATLAS lev...
The ATLAS DataFlow infrastructure is responsible for the collection and conveyance of event data fro...
The second level trigger of LHC's ATLAS experiment has to perform real-time analyses on detector dat...
This paper presents some of the conclusions of our studies on asynchronous transfer mode (ATM) and f...
After its first shutdown, the LHC will provide pp collisions with increased luminosity and energy. I...
The ATLAS detector at CERN records proton-proton collisions delivered by the Large Hadron Collider (...
ATLAS is a general purpose High Energy Physics experiment at the Large Hadron Collider (LHC). The tr...
During 2006 and the first half of 2007, the installation, integration and commissioning of trigger a...
International audienceDuring 2006 and the first half of 2007, the installation, integration and comm...
The ATLAS experiment Data Acquisition (DAQ) system will face an extensive upgrade to fully exploit t...
After its first shutdown, the LHC will provide pp collisions with increased luminosity and energy. I...