The Future Evolution of the Fast TracKer Processing Unit

Real time tracking is a key ingredient for online event selection at hadron colliders. The Silicon Vertex Tracker at the CDF experiment and the Fast Tracker (FTK) at ATLAS are two successful examples of the importance of dedicated hardware to reconstruct full events at hadron machines. We present the future evolution of this technology, for applications in the High Luminosity runs at the Large Hadron Collider (HL-LHC). Data processing speed is achieved with custom VLSI pattern recognition and linearized track fitting executed inside modern FPGAs, exploiting deep pipelining, extensive parallelism, and efficient use of available resources. In the current system, one large FPGA executed track fitting in full resolution inside low resolution candidate tracks found by a set of custom ASIC devices, called Associative Memories (AM chips). The FTK dual structure, based on the cooperation of VLSI AM and programmable FPGAs, is maintained, but we plan to increase the FPGA parallelism by associating one FPGA to each AM chip. Implementing the two devices in a single package would achieve further performance improvements, plus miniaturization and integration of the state of the art prototypes. We present the new architecture, the design of the FPGA logic performing all the complementary functions of the pattern matching inside the AM, the tests performed on hardware integrating the FPGA and the ASIC, the power consumption and performance running Monte Carlo events.