1.Challenge: Bottlenecks in GPU Computing Power Evolution

With the explosive growth in computing demands for applications like AI training, high-performance computing, and scientific simulation, single GPU servers struggle to meet the real-time processing needs of massive datasets. LR-LINK's LRNV9F24, LRNV9F48, and LRNV9F96-10I series expansion devices deliver high-bandwidth, low-latency, and flexibly scalable storage solutions to unlock the full potential of GPU computing power.

2.Solution: Overview of LR-LINK's LRNV9F Series GPU Expansion

How can enterprises enhance GPU configurations in existing equipment to meet AI or emerging demands? How can they maximize cost-effectiveness in enterprise GPU deployments? LR-LINK's LRNV9F series is specifically engineered to resolve these challenges.

The LRNV9F series offers multiple specific solutions for expanding GPUs.

The board features built-in Switch functionality,

compatible with standard motherboards.

LRNV9F96-10I within the same budget, it supports up to 5 GPU motherboards compared to GPU servers with equivalent drive bays.

Build high-speed local storage pools for multi-GPU servers, eliminating data supply bottlenecks in AI training and HPC applications. This empowers system integrators to construct high-density, large-capacity enterprise-grade flash storage solutions.

LRNV9F48 is developed based on the industry-proven Broadcom PEX88048 chip. Through a PCIe 4.0 x16 host interface, it intelligently expands four built-in SFF-8654 8i ports. Its design essence lies in “flexibility” and “efficiency.” Suitable for industry-standard protocol motherboards, it expands PCIe 4.0 for 2*GPU.

The motherboard must support Switch split functionality and enable PCIe 4.0 2x GPU expansion.

You can select the most suitable product based on your specific budget and requirements.

3. Summary

Through their exceptional bandwidth and scalable design, the LRNV9F24, LRNV9F48, and LRNV9F96-10I series from LR-LINK have successfully transformed storage from a bottleneck in GPU servers into a powerful enabling component. Not only are they ideal for tackling today's data-intensive computing challenges, but their future-oriented architecture also prepares them to meet next-generation computing demands. Choosing the LRNV9F series means equipping your GPU computing engine with a never-congested “high-speed data supply line.”