多核嵌入式系统的混合原型

Ehsan Saboori, S. Abdi
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引用次数: 5

摘要

本文提出了一种新的多核嵌入式系统建模技术——混合原型技术。其基本思想是通过在内核的单个物理实例之上的软件中创建仿真内核来模拟具有多个内核的设计。仿真内核在映射到不同内核的任务之间切换,并管理各个内核的逻辑仿真时间。因此,我们可以实现对称多核设计的快速和周期精确的仿真,从而克服了虚拟样机的精度问题和物理样机的可扩展性问题。我们对工业多核设计的实验表明,混合原型的仿真时间仅与核数和核间通信流量线性增长,同时提供100%的周期精度。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Hybrid Prototyping of multicore embedded systems
This paper presents a novel modeling technique for multicore embedded systems, called Hybrid Prototyping. The fundamental idea is to simulate a design with multiple cores by creating an emulation kernel in software on top of a single physical instance of the core. The emulation kernel switches between tasks mapped to different cores and manages the logical simulation times of the individual cores. As a result, we can achieve fast and cycle-accurate simulation of symmetric multicore designs, thereby overcoming the accuracy concerns of virtual prototyping and the scalability issues of physical prototyping. Our experiments with industrial multicore designs show that the simulation time with hybrid prototyping grows only linearly with the number of cores and the inter-core communication traffic, while providing 100% cycle accuracy.
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