Description
Function-as-a-Service (FaaS) is emerging as an important cloud computing service model as it can improve scalability and usability for a wide range of applications, especially Machine-Learning (ML) inference tasks that require scalable computation resources and complicated configurations. Many applications, including ML inference, rely on Graphics-Processing-Unit (GPU) to achieve high performance; however, support for GPUs is currently lacking in existing FaaS solutions. The unique event-triggered and short-lived nature of functions poses new challenges to enabling GPUs on FaaS which must consider the overhead of transferring data (e.g., ML model parameters and inputs/outputs) between GPU and host memory. This thesis presents a new GPU-enabled FaaS solution that enables functions to efficiently utilize GPUs to accelerate computations such as model inference. First, the work extends existing open-source FaaS frameworks such as OpenFaaS to support the scheduling and execution of functions across GPUs in a FaaS cluster. Second, it provides caching of ML models in GPU memory to improve the performance of model inference functions and global management of GPU memories to improve the cache utilization. Third, it offers co-designed GPU function scheduling and cache management to optimize the performance of ML inference functions. Specifically, the thesis proposes locality-aware scheduling which maximizes the utilization of both GPU memory for cache hits and GPU cores for parallel processing. A thorough evaluation based on real-world traces and ML models shows that the proposed GPU-enabled FaaS works well for ML inference tasks, and the proposed locality-aware scheduler achieves a speedup of 34x compared to the default, load-balancing only scheduler.
Details
Title
- GPU-enabled Functional-as-a-Service
Contributors
- Hong, Sungho (Author)
- Zhao, Ming (Thesis advisor)
- Cao, Zhichao (Committee member)
- Sarwat, Mohamed (Committee member)
- Arizona State University (Publisher)
Date Created
The date the item was original created (prior to any relationship with the ASU Digital Repositories.)
2022
Subjects
Resource Type
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Note
- Partial requirement for: M.S., Arizona State University, 2022
- Field of study: Computer Science