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RESEARCH PRODUCT

An FPGA based Topological Processor Prototype for the ATLAS Level-1 Trigger Upgrade

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By 2014 the LHC will collide proton bunches at 14TeV with an increased instantaneous luminosity up to 3·10³⁴cm⁻²s⁻¹. The resulting higher event rate will challenge the existing ATLAS trigger system. A reduction on the trigger rate can be achieved by selecting interesting channels based on their expected decay topology and thus reducing background. This will be achieved by introducing of a new FPGA based module in the Level-1 trigger: the Topological Processor L1Topo. With L1Topo it will be possible for the first time to concentrate detailed information from the entire calorimeters and the muon detector into a single module. L1Topo will receive a total aggregate bandwidth of 1Tb/s. The data is processed within less than 100ns, requiring high density optical I/O and high bandwidth, which is achieved by adopting state-of-the-art FPGAs with embedded multi-Gb/s transceivers and multi-Gb/s opto converters. This paper focuses on the design of the first L1Topo prototype. The L1Topo design adopts technologies that have been implemented into a previous ATCA form factor demonstrator module. The latest results on the implementation of a topological algorithm in the demonstrator module and FPGA logic utilization of the algorithm are presented. Beyond results of a measurement of the latency, induced by the demonstrator module's FPGA's integrated Multi-Gb/s transceivers, are reported.