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Modular Supercomputing for Neuroscience.

, , , , and . BrainComp, volume 12339 of Lecture Notes in Computer Science, page 63-80. Springer, (2019)

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The DEEP-ER Project: I/O and Resiliency Extensions for the Cluster-Booster Architecture., , , , and . HPCC/SmartCity/DSS, page 109-116. IEEE, (2018)Using FPGAs to Accelerate HPC and Data Analytics on Intel-Based Systems., , , , and . ISC Workshops, volume 11887 of Lecture Notes in Computer Science, page 561-566. Springer, (2019)Multilevel simulation-based co-design of next generation HPC microprocessors., , , , , , , , , and 10 other author(s). PMBS, page 18-29. IEEE, (2021)The DEEP Project - Pursuing Cluster-Computing in the Many-Core Era., , , and . ICPP, page 885-892. IEEE Computer Society, (2013)Application performance on a Cluster-Booster system., , , and . CoRR, (2019)COMPESCE: A Co-design Approach for Memory Subsystem Performance Analysis in HPC Many-Cores., , , , , , , , , and 1 other author(s). ARCS, volume 13949 of Lecture Notes in Computer Science, page 105-119. Springer, (2023)Modular Supercomputing for Neuroscience., , , , and . BrainComp, volume 12339 of Lecture Notes in Computer Science, page 63-80. Springer, (2019)Application Performance on a Cluster-Booster System., , , and . IPDPS Workshops, page 69-78. IEEE Computer Society, (2018)On the scalability of the clusters-booster concept: a critical assessment of the DEEP architecture., , , , , and . FutureHPC@ICS, page 3:1-3:10. ACM, (2012)The DEEP Project An alternative approach to heterogeneous cluster-computing in the many-core era., , , and . Concurr. Comput. Pract. Exp., 28 (8): 2394-2411 (2016)