Installation and Commissioning of the CMS Level-1 Calorimeter Trigger Upgrade

The Compact Muon Solenoid (CMS) experiment is currently installing upgrades to their Calorimeter Trigger for LHC Run 2 to ensure that the trigger thresholds can stay low, and physics data collection will not be compromised. The electronics will be upgraded in two stages. Stage-1 for 2015 will upgrade some electronics and links from copper to optical in the existing calorimeter trigger so that the algorithms can be improved and we do not lose valuable data before stage-2 can be fully installed by 2016. Stage-2 will fully replace the calorimeter trigger at CMS with a micro-TCA and optical link system. It requires that the updates to the calorimeter back-ends, the source of the trigger primitives, be completed. The new systemâ??s boards will utilize Xilinx Virtex-7 FPGAs and have hundreds of high-speed links operating at up to 10 Gbps to maximize data throughput. The integration, commissioning, and installation of stage-1 in 2015 will be described, as well as the integration and parallel installation of the stage-2 in 2015, for a fully upgraded CMS calorimeter trigger in operation by 2016.Solenoid (CMS) experiment is currently installing an upgrade to their Calorimeter Trigger to ensure that the trigger thresholds can stay low, and physics data collection will not be compromised by these challenging conditions. The electronics will be upgraded in two stages. Stage-1 will upgrade some electronics and links from copper to optical in the existing calorimeter trigger so that the algorithms can be improved and we do not lose valuable data before Stage-2 can be fully installed. Stage-2 will fully replace the calorimeter trigger at CMS with a micro-TCA and optical link system, and require that the updates to the calorimeter back-ends, the source of the trigger primitives, are completed. The new systemâ??s boards will utilize Xilinx Virtex 7 FPGAs and have hundreds of high-speed links operating at up to 10 Gbps to maximize data throughput. The integration, commissioning, and installation of stage-1 in 2015 will be described, as well as the integration and parallel installation of the stage-2 in 2015, for an fully upgraded CMS calorimeter trigger in operation by 2016