[CONTRIBUTED THOUGHT PIECE] …. large language models and generative AI applications are driving hyperscalers to adopt a new data center-scale switch fabric… And there is a new interconnect technology ….
[CONTRIBUTED THOUGHT PIECE] …. large language models and generative AI applications are driving hyperscalers to adopt a new data center-scale switch fabric… And there is a new interconnect technology ….
[SPONSORED GUEST ARTICLE] These are the times that try the souls of IT staffs tasked with deploying AI at scale… Effectively implementing AI at scale involves a whole host of design, build, deployment, and management considerations. It requires ….
Today, every high-performance computing (HPC) workload running globally faces the same crippling issue: Congestion in the network.
Congestion can delay workload completion times for crucial scientific and enterprise workloads, making HPC systems unpredictable and leaving high-cost cluster resources waiting for delayed data to arrive. Despite various brute-force attempts to resolve the congestion issue, the problem has persisted. Until now.
In this paper, Matthew Williams, CTO at Rockport Networks, explains how recent innovations in networking technologies have led to a new network architecture that targets the root causes of HPC network congestion, specifically:
– Why today’s network architectures are not a sustainable approach to HPC workloads
– How HPC workload congestion and latency issues are directly tied to the network architecture
– Why a direct interconnect network architecture minimizes congestion and tail latency