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Optical Transceivers

NADDOD 1.6T Optical Transceiver Differences Analysis

NADDOD 1.6T Optical Transceiver Differences Analysis

Learn how to choose the right 1.6T optical transceiver. This guide compares six NADDOD 1.6T OSFP modules across protocol, cooling design, transmission reach, and connectors for AI and data center deployments.

What Is an LPU (Language Processing Unit)? How Does It Differ from NVIDIA GPU?

What Is an LPU (Language Processing Unit)? How Does It Differ from NVIDIA GPU?

What is an LPU (Language Processing Unit)? This article analyzes Groq’s LPU architecture and compares it with NVIDIA GPU in terms of design philosophy, memory structure, interconnect, and energy efficiency, exploring their differences in large language model (LLM) inference scenarios.

A Comprehensive Market Insight into 800G Switches

A Comprehensive Market Insight into 800G Switches

This paper systematically analyzes the market drivers, technological evolution, and development trends of 800G switches, focusing on high-density interconnect requirements in AI training scenarios, CPO architecture, silicon photonics applications, and the prospects for future large-scale deployment.

Optical Transceivers

Fibre Channel vs. Ethernet Transceivers, Choose the Best for Your Network

Fibre Channel vs. Ethernet Transceivers, Choose the Best for Your Network

Fibre Channel vs. Ethernet transceivers: compare protocol design, performance, power, compatibility, and TCO to choose the right interconnect for AI, cloud, and enterprise storage networks.

How to Choose the Right 400G/800G Ethernet Switch?

How to Choose the Right 400G/800G Ethernet Switch?

Choosing a 400G/800G Ethernet switch requires more than comparing port speeds. From switching fabric capacity and buffer design to RoCEv2 support and scalable architecture, this guide outlines the key factors for AI and modern data center networks.

Optical Transceivers

Ultimate Guide to Ethernet Transceivers

Ultimate Guide to Ethernet Transceivers

A comprehensive guide to Ethernet transceivers, covering form factors, transmission distance, data rate evolution, and how to choose the right module for your network.

InfiniBand Networking

NADDOD Successfully Delivers a Full-Stack InfiniBand XDR B300 Solution

NADDOD Successfully Delivers a Full-Stack InfiniBand XDR B300 Solution

Explore NADDOD end-to-end 800G InfiniBand XDR solution for B300 GPU clusters, achieving 787.7 Gbps RDMA bandwidth, ultra-low latency, and scalable AI training performance with industrial-grade deployment.

A Comprehensive Guide to 800G Ethernet DAC Cables

A Comprehensive Guide to 800G Ethernet DAC Cables

This guide systematically analyzes the definition, direct connection and branching forms, application scenarios and selection points of 800G Ethernet DAC cables. Combining the deployment needs of AI clusters and data centers, it helps build a high-bandwidth, low-latency, cost-effective short-distance high-speed interconnect architecture.

A Deep Dive into NADDOD 400G Ethernet Active Optical Cable (AOC)

A Deep Dive into NADDOD 400G Ethernet Active Optical Cable (AOC)

Discover NADDOD 400G Ethernet AOC cable solutions, including OSFP to QSFP-DD and breakout options, designed for high-density data centers, HPC and AI clusters.