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My research focuses on memory systems and network-compute integration, targeting the most challenging communication-intensive services with tight latency targets in datacenter environments. I am also broadly interested in the ongoing transition from CPU-centric to network- and memory-centric computing and the impact of this paradigm shift in the evolution of system architectures, algorithms, and software.
I am broadly interested in Computer Systems and Computer Architecture. I teach courses in these areas both at introductory and advanced levels.
Hamed Seyedroudbari, Alexandros Daglis. Sassy: SmartNIC-Assisted Notification Delivery for µs-scale RDMA Workloads. In Proceedings of the 32nd IEEE International Symposium on High-Performance Computer Architecture (HPCA-32), Sydney, Australia, 2026.
Anish Saxena, Walter Wang, Alexandros Daglis. Citadel: Rethinking Memory Allocation to Safeguard Against Inter-Domain Rowhammer Exploits. In Proceedings of the 58th IEEE/ACM International Symposium on Microarchitecture (MICRO), Seoul, Korea, 2025.
Albert Cho, Alexandros Daglis. StarNUMA: Mitigating NUMA Challenges with Memory Pooling. In Proceedings of the 57th IEEE/ACM International Symposium on Microarchitecture (MICRO), Austin, TX, USA, 2024.
Albert Cho, Anish Saxena, Moinuddin Qureshi, Alexandros Daglis. CXL-Centric Memory System for Scalable Servers. In Proceedings of the International Conference for High Performance Computing (SC’24), Atlanta, GA, USA, 2024.
Hamed Seyedroudbari, Srikar Vanavasam, Alexandros Daglis. Turbo: SmartNIC-enabled Dynamic Load Balancing of µs-scale RPCs. In Proceedings of the 29th IEEE International Symposium on High-Performance Computer Architecture (HPCA-29), Montreal, Canada, 2023.