arxiv:2409.03992

Confidential Computing on NVIDIA Hopper GPUs: A Performance Benchmark Study

Published on Nov 5, 2024

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Abstract

Trusted Execution Environments on NVIDIA Hopper GPUs introduce minimal computational overhead for LLM inference, with performance penalties mainly due to CPU-GPU data transfer bottlenecks.

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This report evaluates the performance impact of enabling Trusted Execution Environments (TEE) on NVIDIA Hopper GPUs for large language model (LLM) inference tasks. We benchmark the overhead introduced by TEE mode across various LLMs and token lengths, with a particular focus on the bottleneck caused by CPU-GPU data transfers via PCIe. Our results indicate that while there is minimal computational overhead within the GPU, the overall performance penalty is primarily attributable to data transfer. For the majority of typical LLM queries, the overhead remains below 7%, with larger models and longer sequences experiencing nearly zero overhead.

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