集群双向对角网格拓扑的自适应负载均衡方法

2019 9th International Conference on Emerging Trends in Engineering and Technology - Signal and Information Processing (ICETET-SIP-19) Pub Date : 2019-11-01 DOI:10.1109/ICETET-SIP-1946815.2019.9091979

P. Papalkar, M. Gaikwad

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引用次数: 0

摘要

在多核嵌入式系统中，系统的功耗和性能是人们关心的主要问题。网络体系结构和路由算法的设计主要决定了片上网络的性能。在Q路由中，每个路由器存储大的表，因此有很大的面积开销。为了减少这种开销，对双向对角网状网络进行了聚类。这激发了设计集群双向对角网格架构和路由算法称为集群算法使用改进的Q路由和对角路由(CAMQD)来支持这种架构。为此，本文提出了一种新的聚类双向对角网格结构及其路由算法。可伸缩性可以通过集群实现。CAMQD是一种低时延、低功耗的拥塞感知路由算法。它是完全自适应的，同时具有容错能力和处理死锁的能力。CAMQD是一种拟极小算法。采用恒比特率流量(Constant Bitrate Traffic, CBR)，从时延、吞吐量和功耗等方面分析比较了采用Q路由的网状拓扑的性能。这种拓扑结构提供了并行性和可伸缩性，以充分利用NoC的潜力。

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Adaptive load balancing approach for Cluster Bidirectional Diagonal Mesh Topology

In multicore embedded system power and performance of system are major concern. The design of network architecture and routing algorithm mainly determines the performance of the Network on Chip. In Q routing each router stores large tables due to this there is large area overhead. To reduce this overhead clustering of Bidirectional Diagonal Mesh network is performed. This motivates to design Cluster Bidirectional Diagonal Mesh architecture and a routing algorithm known as Cluster Algorithm using Modified Q routing and Diagonal routing (CAMQD) to support this architecture. So a new architecture Cluster Bidirectional Diagonal Mesh along with the routing algorithm for this architecture is proposed in this paper. Scalability can be achieved with clustering. CAMQD is congestion aware routing algorithm with low latency and power requirement. It is fully adaptive and at the same time, it is fault tolerant and can handle deadlock situation. CAMQD is a quasi-minimal algorithm. The performance is analyzed and compared with mesh topology using Q routing in terms of latency, throughput and power with different packet injection ratio using Constant Bitrate Traffic (CBR). This topology offers parallelism and scalability to utilize full potential of NoC.

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来源期刊

2019 9th International Conference on Emerging Trends in Engineering and Technology - Signal and Information Processing (ICETET-SIP-19)

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