Artificial Intelligence is transforming modern data center architecture. As AI clusters grow from hundreds to thousands of GPUs, network infrastructure has become just as critical as computing power itself.
Large-scale AI training workloads generate massive east-west traffic between GPUs, servers, and switches. Applications such as Large Language Model (LLM) training, MoE (Mixture of Experts), distributed inference, parameter synchronization, and storage access require ultra-low latency, high bandwidth, and highly reliable network connectivity.
A single unstable link can negatively impact overall cluster performance, causing training delays, packet retransmissions, and underutilized GPU resources.
As a result, selecting the right interconnect technology has become a key decision for AI infrastructure architects.
AI data centers typically deploy three primary connectivity solutions:
DAC cables use passive or active copper technology to connect devices directly.
Advantages:
Lowest acquisition cost
Lowest power consumption
Extremely low latency
Plug-and-play deployment
No optical components required
Limitations:
Limited transmission distance
Thicker and heavier cable management
Less flexible for large-scale structured cabling
Best Use Cases:
GPU server to Top-of-Rack (ToR) switch
In-rack switch interconnection
Distances under 3-5 meters
For these scenarios, C-LIGHT offers:
These solutions provide low power consumption and cost-effective connectivity for high-density AI racks.
As cluster sizes increase, cable management becomes more challenging. Copper cables become heavier and less practical, especially when connecting equipment across multiple racks.
Active Optical Cables (AOCs) integrate optical engines and fiber within a single assembly, offering a lightweight alternative.
Longer transmission distance
Lightweight and flexible
Reduced cable congestion
Better EMI resistance
Simplified deployment
Entire cable must be replaced if damaged
Higher cost than DAC
Cross-rack GPU networking
High-density switch deployments
Distances between 5m and 100m
Typical C-LIGHT solutions include:
These products are widely deployed in AI training clusters where cable weight and airflow optimization are critical considerations.
While DAC and AOC dominate short-distance deployments, optical transceivers remain indispensable for scalable AI infrastructure.
Unlike AOCs, optical modules are independent components that connect through standard fiber cabling, providing greater flexibility and maintainability.
Supports structured cabling architectures
Easy maintenance and replacement
Long transmission distances
Scalable network design
Higher operational flexibility
Leaf-Spine fabrics
Data center interconnect (DCI)
Multi-building AI campuses
Storage networking
Long-distance backbone connections
Common deployment options include:
| Distance | Recommended Technology |
|---|---|
| 100m | 400G SR8 |
| 500m | 400G DR4 |
| 2km | 400G FR4 |
| 10km | 400G LR4 |
| 500m | 800G DR8 |
| 2km | 800G 2×FR4 |
| 10km+ | DWDM Solutions |
C-LIGHT offers a comprehensive portfolio including:
CWDM/DWDM MUX DEMUX Platforms
These solutions support modern Ethernet and InfiniBand AI fabrics.
The selection process is rarely based on bandwidth alone. AI data center architects typically evaluate three primary factors:
Under 3m → DAC preferred
5m–100m → AOC preferred
Beyond 100m → Optical transceiver preferred
DAC remains the lowest-cost option for short-range connectivity.
Optical transceivers provide superior maintainability and scalability for long-term infrastructure planning.
A practical rule used by many hyperscale operators is:
Use DAC whenever possible, AOC when cabling complexity increases, and optical transceivers when scalability and maintainability become priorities.
The latest AI clusters powered by NVIDIA H100, H200, and Blackwell GPUs are rapidly accelerating the adoption of 400G and 800G networking.
Modern AI fabrics require:
Higher bisection bandwidth
Lower latency
Better congestion management
Improved energy efficiency
As a result, 400G and 800G connectivity solutions are becoming the standard foundation of next-generation AI infrastructure.
C-LIGHT's AI networking portfolio includes:
These products are designed to support high-density GPU clusters, AI training networks, cloud infrastructure, and hyperscale data center deployments.
Choosing between DAC, AOC, and optical transceivers is not simply a matter of speed. The decision depends on transmission distance, cabling architecture, power consumption, maintenance requirements, and long-term scalability.
For most AI data centers:
DAC is the preferred solution for short-distance in-rack connections.
AOC provides an efficient balance for medium-distance, high-density deployments.
Optical transceivers remain the best choice for scalable, long-distance, and structured networking environments.
As AI infrastructure continues evolving toward 800G and eventually 1.6T networking, selecting the right connectivity strategy will be critical to maximizing GPU utilization and ensuring long-term network performance.
With a comprehensive portfolio of DAC, AOC, optical transceivers, and WDM solutions, C-LIGHT helps AI data centers build reliable, high-performance, and future-ready networking infrastructure.
