Model-less Is the Best Model: Generating Pure Code Implementations to Replace On-Device DL Models

Zhou, Mingyi; Gao, Xiang; Liu, Pei; Grundy, John; Chen, Chunyang; Chen, Xiao; Li, Li

Title: Model-less Is the Best Model: Generating Pure Code Implementations to Replace On-Device DL Models
Creator: Zhou, Mingyi; Gao, Xiang; Liu, Pei; Grundy, John; Chen, Chunyang; Chen, Xiao; Li, Li
Relation: ISSTA '24: 33rd ACM SIGSOFT International Symposium on Software Testing and Analysis. Proceedings of the ISSTA '24: 33rd ACM SIGSOFT International Symposium on Software Testing and Analysis (Vienna, Austria 16-20 September, 2024) p. 174-185
Publisher Link: http://dx.doi.org/10.1145/3650212.3652119
Publisher: Association for Computing Machiner (ACM)
Resource Type: conference paper
Date: 2024
Description: Recent studies show that on-device deployed deep learning (DL) models, such as those of Tensor Flow Lite (TFLite), can be easily extracted from real-world applications and devices by attackers to generate many kinds of adversarial and other attacks. Although securing deployed on-device DL models has gained increasing attention, no existing methods can fully prevent these attacks. Traditional software protection techniques have been widely explored. If on-device models can be implemented using pure code, such as C++, it will open the possibility of reusing existing robust software protection techniques. However, due to the complexity of DL models, there is no automatic method that can translate DL models to pure code. To fill this gap, we propose a novel method, CustomDLCoder, to automatically extract on-device DL model information and synthesize a customized executable program for a wide range of DL models. CustomDLCoder first parses the DL model, extracts its backend computing codes, configures the extracted codes, and then generates a customized program to implement and deploy the DL model without explicit model representation. The synthesized program hides model information for DL deployment environments since it does not need to retain explicit model representation, preventing many attacks on the DL model. In addition, it improves ML performance because the customized code removes model parsing and preprocessing steps and only retains the data computing process. Our experimental results show that CustomDLCoder improves model security by disabling on-device model sniffing. Compared with the original on-device platform (i.e., TFLite), our method can accelerate model inference by 21.0% and 24.3% on x86-64 and ARM64 platforms, respectively. Most importantly, it can significantly reduce memory consumption by 68.8% and 36.0% on x86-64 and ARM64 platforms, respectively.
Subject: AI safety; SE for AI; software optimization for AI deployment; deep learning
Identifier: http://hdl.handle.net/1959.13/1518650
Identifier: uon:57352
Identifier: ISBN:9798400706127
Language: eng
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