Saved in:
Bibliographic Details
Main Authors: Kim, Hong Ki, Jang, Yong Hun, Kim, Hee Soo, Kang, Won Young, Ko, Young-Chai, Lee, Sang Hyun
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2409.13281
Tags: Add Tag
No Tags, Be the first to tag this record!
_version_ 1866909320759738368
author Kim, Hong Ki
Jang, Yong Hun
Kim, Hee Soo
Kang, Won Young
Ko, Young-Chai
Lee, Sang Hyun
author_facet Kim, Hong Ki
Jang, Yong Hun
Kim, Hee Soo
Kang, Won Young
Ko, Young-Chai
Lee, Sang Hyun
contents Interconnection networks, or `interconnects,' play a crucial role in administering the communication among computing units of high-performance computing (HPC) systems. Efficient provisioning of interconnects minimizes the processing delay wherein computing units await information sharing between each other, thereby enhancing the overall computation efficiency. Ideally, interconnects are designed with topologies tailored to match specific workflows, requiring diverse structures for different applications. However, since modifying their structures mid-operation renders impractical, indirect communication incurs across distant units. In managing numerous long-routed data deliveries, heavy burdens on the network side may lead to the under-utilization of computing resources. In view of state-of-the-art HPC paradigms that solicit dense interconnections for diverse computation-hungry applications, this article presents a versatile wireless interconnecting framework, coined as Wireless Interconnection NEtwork (WINE). The framework exploits cutting-edge wireless technologies that promote workload adaptability and scalability of modern interconnects. Design and implementation of wirelessly reliable links are strategized under network-oriented scrutiny of HPC architectures. A virtual HPC platform is developed to assess WINE's feasibilities, verifying its practicality for integration into modern HPC infrastructures.
format Preprint
id arxiv_https___arxiv_org_abs_2409_13281
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Wireless Interconnection Network (WINE) for Post-Exascale High-Performance Computing
Kim, Hong Ki
Jang, Yong Hun
Kim, Hee Soo
Kang, Won Young
Ko, Young-Chai
Lee, Sang Hyun
Systems and Control
Interconnection networks, or `interconnects,' play a crucial role in administering the communication among computing units of high-performance computing (HPC) systems. Efficient provisioning of interconnects minimizes the processing delay wherein computing units await information sharing between each other, thereby enhancing the overall computation efficiency. Ideally, interconnects are designed with topologies tailored to match specific workflows, requiring diverse structures for different applications. However, since modifying their structures mid-operation renders impractical, indirect communication incurs across distant units. In managing numerous long-routed data deliveries, heavy burdens on the network side may lead to the under-utilization of computing resources. In view of state-of-the-art HPC paradigms that solicit dense interconnections for diverse computation-hungry applications, this article presents a versatile wireless interconnecting framework, coined as Wireless Interconnection NEtwork (WINE). The framework exploits cutting-edge wireless technologies that promote workload adaptability and scalability of modern interconnects. Design and implementation of wirelessly reliable links are strategized under network-oriented scrutiny of HPC architectures. A virtual HPC platform is developed to assess WINE's feasibilities, verifying its practicality for integration into modern HPC infrastructures.
title Wireless Interconnection Network (WINE) for Post-Exascale High-Performance Computing
topic Systems and Control
url https://arxiv.org/abs/2409.13281