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Main Authors: Baldin, Ilya, Goodrich, Michael, Gyurjyan, Vardan, Heyes, Graham, Howard, Derek, Kumar, Yatish, Lawrence, David, Sawatzky, Brad, Sheldon, Stacey, Timmer, Carl
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2510.12597
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author Baldin, Ilya
Goodrich, Michael
Gyurjyan, Vardan
Heyes, Graham
Howard, Derek
Kumar, Yatish
Lawrence, David
Sawatzky, Brad
Sheldon, Stacey
Timmer, Carl
author_facet Baldin, Ilya
Goodrich, Michael
Gyurjyan, Vardan
Heyes, Graham
Howard, Derek
Kumar, Yatish
Lawrence, David
Sawatzky, Brad
Sheldon, Stacey
Timmer, Carl
contents Thomas Jefferson National Accelerator Facility (JLab) has partnered with Energy Sciences Network (ESnet) to define and implement an edge to compute cluster computational load balancing acceleration architecture. The ESnet-JLab FPGA Accelerated Transport (EJFAT) architecture focuses on FPGA acceleration to address compression, fragmentation, UDP packet destination redirection (Network Address Translation (NAT)) and decompression and reassembly. EJFAT seamlessly integrates edge and cluster computing to support direct processing of streamed experimental data. This will directly benefit the JLab science program as well as data centers of the future that require high throughput and low latency for both time-critical data acquisition systems and data center workflows. The EJFAT project will be presented along with how it is synergistic with other DOE activities such as an Integrated Research Infrastructure (IRI), and recent results using data sources at JLab, an EJFAT LB at ESnet, and computational cluster resources at Lawrence Berkeley National Laboratory (LBNL).
format Preprint
id arxiv_https___arxiv_org_abs_2510_12597
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Low Latency, High Bandwidth Streaming of Experimental Data with EJFAT
Baldin, Ilya
Goodrich, Michael
Gyurjyan, Vardan
Heyes, Graham
Howard, Derek
Kumar, Yatish
Lawrence, David
Sawatzky, Brad
Sheldon, Stacey
Timmer, Carl
Distributed, Parallel, and Cluster Computing
Thomas Jefferson National Accelerator Facility (JLab) has partnered with Energy Sciences Network (ESnet) to define and implement an edge to compute cluster computational load balancing acceleration architecture. The ESnet-JLab FPGA Accelerated Transport (EJFAT) architecture focuses on FPGA acceleration to address compression, fragmentation, UDP packet destination redirection (Network Address Translation (NAT)) and decompression and reassembly. EJFAT seamlessly integrates edge and cluster computing to support direct processing of streamed experimental data. This will directly benefit the JLab science program as well as data centers of the future that require high throughput and low latency for both time-critical data acquisition systems and data center workflows. The EJFAT project will be presented along with how it is synergistic with other DOE activities such as an Integrated Research Infrastructure (IRI), and recent results using data sources at JLab, an EJFAT LB at ESnet, and computational cluster resources at Lawrence Berkeley National Laboratory (LBNL).
title Low Latency, High Bandwidth Streaming of Experimental Data with EJFAT
topic Distributed, Parallel, and Cluster Computing
url https://arxiv.org/abs/2510.12597