分布式网络中基于asp的智能摄像机体系结构综合编码模型

Franck Yonga, Michael Mefenza, C. Bobda
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引用次数: 0

摘要

提出了一种基于回答集编程(ASP)的异构片上系统集成方法,用于分布式摄像机网络。在这样的网络中,严格的资源限制是应用程序开发的主要挑战。从应用程序的高级描述、目标设备的物理约束和网络配置规范开始,我们的目标是为网络的每个节点生成由硬件和软件组件组合而成的最佳计算基础设施。优化的目的是在最大限度地提高速度的同时最小化芯片面积和功耗。此外,通过对网络中的所有摄像机同时执行架构合成,我们能够最大限度地减少通信资源的总体利用率,从而降低功耗。由于其可重构能力,我们选择现场可编程门阵列(FPGA)作为目标器件,从而增强了对几种设计方案的探索。我们提出了几个现实的网络场景来评估和验证所提出的综合方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
ASP-Based Encoding Model of Architecture Synthesis for Smart Cameras in Distributed Networks
A synthesis approach based on Answer Set Programming (ASP) for heterogeneous system-on-chips to be used in distributed camera networks is presented. In such networks, the tight resource limitations represent a major challenge for application development. Starting with a high-level description of applications, the physical constraints of the target devices, and the specification of network configuration, our goal is to produce optimal computing infrastructures made of a combination of hardware and software components for each node of the network. Optimization aims at maximizing speed while minimizing chip area and power consumption. Additionally, by performing the architecture synthesis simultaneously for all cameras in the network, we are able to minimize the overall utilization of communication resources and consequently reduce power consumption. Because of its reconfiguration capabilities, a Field Programmable Gate Array (FPGA) has been chosen as the target device, which enhances the exploration of several design alternatives. We present several realistic network scenarios to evaluate and validate the proposed synthesis approach.
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