Freezing-based Memory and Process Co-design for User Experience on Resource-limited Mobile Devices

Changlong Li; Zongwei Zhu; Chun Jason Xue; Yu Liang; Rachata Ausavarungnirun; Liang Shi; Xuehai Zhou

doi:10.1145/3714409

Freezing-based Memory and Process Co-design for User Experience on Resource-limited Mobile Devices

Changlong Li^*
, Zongwei Zhu
, Chun Jason Xue
, Yu Liang
, Rachata Ausavarungnirun
, Liang Shi
, Xuehai Zhou

^*此作品的通讯作者

计算机科学与技术学院

Jianghuai Advance Technology Center
Hardware/software Co-Design Technology and Application Engineering Research Center
University of Science and Technology of China
Mohamed Bin Zayed University of Artificial Intelligence
Swiss Federal Institute of Technology Zurich
King Mongkut's University of Technology North Bangkok

科研成果: 期刊稿件 › 文章 › 同行评审

1 引用（Scopus）

摘要

Mobile devices with limited resources are prevalent, as they have a relatively low price. Providing a good user experience with limited resources has been a big challenge. This work finds that foreground applications are often unexpectedly interfered by background applications’ memory activities. Improving user experience on resource-limited mobile devices calls for a strong collaboration between memory and process management. This article proposes Ice, a framework to optimize the user experience on resource-limited mobile devices. With Ice, processes that will cause frequent refaults in the background are identified and frozen accordingly. The frozen application will be thawed when memory condition allows. Based on the proposed Ice, this work shows that the refault can be further reduced by revisiting the LRU lists in the original kernel with app-freezing awareness (called Ice⁺). Evaluation of resource-limited mobile devices demonstrates that the user experience is effectively improved with Ice. Specifically, Ice boosts the frame rate by 1.57x on average over the state of the art. The frame rate is further enhanced by 5.14%

源语言	英语
文章编号	1
期刊	ACM Transactions on Computer Systems
卷	43
期	1-2
DOI	https://doi.org/10.1145/3714409
出版状态	已出版 - 12 4月 2025

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abstract = "Mobile devices with limited resources are prevalent, as they have a relatively low price. Providing a good user experience with limited resources has been a big challenge. This work finds that foreground applications are often unexpectedly interfered by background applications{\textquoteright} memory activities. Improving user experience on resource-limited mobile devices calls for a strong collaboration between memory and process management. This article proposes Ice, a framework to optimize the user experience on resource-limited mobile devices. With Ice, processes that will cause frequent refaults in the background are identified and frozen accordingly. The frozen application will be thawed when memory condition allows. Based on the proposed Ice, this work shows that the refault can be further reduced by revisiting the LRU lists in the original kernel with app-freezing awareness (called Ice+). Evaluation of resource-limited mobile devices demonstrates that the user experience is effectively improved with Ice. Specifically, Ice boosts the frame rate by 1.57x on average over the state of the art. The frame rate is further enhanced by 5.14\%",

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AU - Shi, Liang

AU - Zhou, Xuehai

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Freezing-based Memory and Process Co-design for User Experience on Resource-limited Mobile Devices

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