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Paper detail

Parallelizing the Unpacking and Clustering of Detector Data for Reconstruction of Charged Particle Tracks on Multi-core CPUs and Many-core GPUs

We present results from parallelizing the unpacking and clustering steps of the raw data from the silicon strip modules for reconstruction of charged particle tracks. Throughput is further improved by concurrently processing multiple events using nested OpenMP parallelism on CPU or CUDA streams on GPU. The new implementation along with earlier work in developing a parallelized and vectorized implementation of the combinatoric Kalman filter algorithm has enabled efficient global reconstruction of the entire event on modern computer architectures. We demonstrate the performance of the new implementation on Intel Xeon and NVIDIA GPU architectures.

preprint2021arXivOpen access
Giuseppe CeratiPeter ElmerBrian GravelleMatti KortelainenVyacheslav KrutelyovSteven LantzMario MasciovecchioKevin McDermottBoyana NorrisAllison Reinsvold HallMicheal ReidDaniel RileyMatevž TadelPeter WittichBei WangFrank WürthweinAvraham Yagil
hep-exDistributed, Parallel, and Cluster Computing
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Giuseppe CeratiPeter ElmerBrian GravelleMatti KortelainenVyacheslav KrutelyovSteven LantzMario MasciovecchioKevin McDermottBoyana NorrisAllison Reinsvold HallMicheal ReidDaniel RileyMatevž TadelPeter WittichBei WangFrank WürthweinAvraham Yagil

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