Preemptive switched Ethernet for real-time process control system

Joonkyo Kim, Bum-Yong Lee, Jaehyun Park
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引用次数: 6

Abstract

The real-time performance of control network between process control system(PCS) in a nuclear power plant is an important factor to ensure safety and reliability of power plant. Ethernet network is widely adopted in modern PCS even though it does not guarantee hard real-time performance in the non-safety region of a nuclear power plant. To achieve better real-time performance and QoS(Quality of Service), PCS usually uses switched Ethernet with the priority feature, which is based on the IEEE 802.1Q/p protocol. However, the IEEE 802.1Q/p protocol also has a priority inversion problem when transmission of a higher-priority frame is requested during transmission of a lower-priority frame. To resolve this problem, this paper proposes Preemptive Switched Ethernet(PSE) that is based on the IEEE 802.1Q/p protocol with a preemption mechanism. This paper shows that PSE provides better real-time performance than the standard IEEE 802.1Q/p protocol especially when non-real-time and real-time traffics are mixed together. This paper also implements PSE controller using the FPGA (Virtex-4) and MicroBlaze processor. From the implementation results, PSE controller shows an improved latency and jitters of transmission period compare to the normal Ethernet controller. Experiment result shows that the jitter of real-time packet is 50% less than the standard 802.1Q/p protocol.
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用于实时过程控制系统的抢先交换以太网
核电厂过程控制系统(PCS)之间控制网络的实时性是保证核电厂安全可靠运行的重要因素。尽管以太网不能保证核电厂非安全区域的硬实时性,但它在现代pc中被广泛采用。为了获得更好的实时性和服务质量(QoS), pc机通常使用基于IEEE 802.1Q/p协议的具有优先级特性的交换式以太网。然而,IEEE 802.1Q/p协议也存在优先级反转问题,即在传输低优先级帧的同时请求传输高优先级帧。为了解决这一问题,本文提出了基于IEEE 802.1Q/p协议的具有抢占机制的抢先交换以太网(PSE)。本文表明,PSE具有比标准IEEE 802.1Q/p协议更好的实时性,特别是在非实时和实时业务混合的情况下。本文还利用FPGA (Virtex-4)和MicroBlaze处理器实现了PSE控制器。从实现结果来看,PSE控制器与普通以太网控制器相比,传输周期的延迟和抖动有所改善。实验结果表明,与标准802.1Q/p协议相比,实时数据包的抖动减小了50%。
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