Method of QoS evaluation of FPGA as a service

Q3 Computer Science Radioelectronic and Computer Systems Pub Date : 2022-11-29 DOI:10.32620/reks.2022.4.12
A. Perepelitsyn, Vitaliy Kulanov, Inna Zarizenko
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引用次数: 2

Abstract

The subject of study in this article is the evaluation of the performance issues of cloud services implemented using FPGA technology. The goal is to improve the performance of cloud services built on top of multiple FPGA platforms known as FPGA-as-a-Service (FaaS). Task: to analyze the delays in communications between host computer and FPGA; propose the steps of development to reduce the delay and perform the evaluation of the response time for the FPGA-based accelerator depending on number of involved cards; consider the reliability aspect of such systems implemented using programmable logic. According to the tasks, the following results were obtained. The FPGA-as-a-Service where FPGA resources are provided through a set of hardware/software toolset is considered. The usage of queueing theory for cloud-based services is analyzed. The contribution of the parts of FPGA-as-a-Service to the final delay of the service is discussed. The process of modeling of work the services based on FPGA accelerator cards with use of Jackson's network is analyzed in detail. The model of the delays of FaaS that considers the parameters of accelerator FPGA cards is offered. The formula of the total response time of the service combined based on the response of the components of is obtained. The proposed steps of reduce data processing delays include increase the size of data blocks for processing in FPGA by each kernel, change the communication model with kernel from sequential to pipelined, following timing closure technique and use more FPGA accelerator cards in parallel to divide the enquiring delay. Based on the proposed model the evaluation of response time of FaaS was done. The advantage of the use of many FPGAs in parallel for same data processing task instead of implementation of requests thread for each accelerator card is shown. Conclusions. The main contribution of this study is a step forward to the modeling of FPGA-based services that can be used for FPGA-based artificial intelligence (AI) applications. It helps to improve the performance of the system by means of reducing the delays at different stages of requests processing. Another side of this result is the reliability aspect that is based on modified manner of service operation in case of use the proposed steps of system optimization. It helps to improve the processing of requests to FaaS. The proposed method is the next step after prototyping of such systems because it helps to turn the FaaS from the object for development to the tool for deployment of new technologies like AI applications.
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FPGA即服务的QoS评估方法
本文的研究主题是评估使用FPGA技术实现的云服务的性能问题。目标是提高构建在多个FPGA平台之上的云服务的性能,这些平台被称为FPGA即服务(FaaS)。任务:分析主机与FPGA之间的通信延迟;提出了减少延迟的开发步骤,并根据涉及的卡的数量对基于FPGA的加速器的响应时间进行评估;考虑使用可编程逻辑实现的这种系统的可靠性方面。根据任务,获得了以下结果。FPGA即服务,其中FPGA资源是通过一组硬件/软件工具集提供的。分析了排队理论在基于云的服务中的应用。讨论了FPGA即服务部分对服务最终延迟的贡献。详细分析了利用Jackson网络对基于FPGA加速卡的业务进行建模的过程。给出了考虑加速器FPGA卡参数的FaaS延迟模型。基于的组件的响应,得到了组合服务的总响应时间的公式。所提出的减少数据处理延迟的步骤包括增加每个内核在FPGA中处理的数据块的大小,将与内核的通信模型从串行变为流水线,遵循时序闭合技术,并使用更多并行的FPGA加速器卡来划分查询延迟。基于所提出的模型,对FaaS的响应时间进行了评估。显示了在相同的数据处理任务中并行使用多个FPGA的优势,而不是为每个加速器卡实现请求线程。结论。本研究的主要贡献是向可用于基于FPGA的人工智能(AI)应用的基于FPGA的服务建模迈出了一步。它通过减少请求处理不同阶段的延迟,有助于提高系统的性能。该结果的另一个方面是可靠性方面,其基于在使用所提出的系统优化步骤的情况下修改的服务操作方式。它有助于改进对FaaS请求的处理。所提出的方法是此类系统原型化后的下一步,因为它有助于将FaaS从开发对象转变为部署人工智能应用等新技术的工具。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Radioelectronic and Computer Systems
Radioelectronic and Computer Systems Computer Science-Computer Graphics and Computer-Aided Design
CiteScore
3.60
自引率
0.00%
发文量
50
审稿时长
2 weeks
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