Litcius/Paper detail

FrankenSplit: Efficient Neural Feature Compression With Shallow Variational Bottleneck Injection for Mobile Edge Computing

Alireza Furtuanpey, Philipp Raith, Schahram Dustdar

2024IEEE Transactions on Mobile Computing15 citationsDOIOpen Access PDF

Abstract

The rise of mobile AI accelerators allows latency-sensitive applications to execute lightweight Deep Neural Networks (DNNs) on the client side. However, critical applications require powerful models that edge devices cannot host and must therefore offload requests, where the high-dimensional data will compete for limited bandwidth. Split Computing (SC) alleviates resource inefficiency by partitioning DNN layers across devices, but current methods are overly specific and only marginally reduce bandwidth consumption. This work proposes shifting away from focusing on executing shallow layers of partitioned DNNs. Instead, it advocates concentrating the local resources on variational compression optimized for machine interpretability. We introduce a novel framework for resource-conscious compression models and extensively evaluate our method in an environment reflecting the asymmetric resource distribution between edge devices and servers. Our method achieves 60% lower bitrate than a state-of-the-art SC method without decreasing accuracy and is up to 16x faster than offloading with existing codec standards.

Topics & Concepts

Computer scienceBottleneckMobile edge computingData compressionArtificial neural networkEdge computingEnhanced Data Rates for GSM EvolutionCompression (physics)Mobile computingFeature (linguistics)Artificial intelligenceComputer networkEmbedded systemMaterials scienceLinguisticsComposite materialPhilosophyNeural Networks and ApplicationsBrain Tumor Detection and ClassificationAdvanced Neural Network Applications