冷电梯:局部连接3D noc的热感知路由算法

2016 6th International Conference on Computer and Knowledge Engineering (ICCKE) Pub Date : 2016-10-01 DOI:10.1109/ICCKE.2016.7802125

Ebadollah Taheri, A. Patooghy, K. Mohammadi

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引用次数: 10

摘要

尽管垂直部分连接的3D noc具有高通量和低制造成本的优点，但由于这种3D noc的散热性差和流量分布不合理，导致其存在散热困难。本文提出了一种自适应路由算法，以管理部分连接的3D noc中的热挑战。在提出的路由算法中，垂直链路根据其当前温度向相邻节点声明其可用/不可用状态。通过这种方式，热门垂直链接有机会减少流量负载并冷却下来。在预定义的时间段内完成垂直链接更新过程，以确定当前热门和冷垂直链接。在一个更新周期内，冷却的垂直链路会被发布到每一层的路由器，用于向其他层传输数据包。利用Access Noxim模拟器对不同的局部三维网络中的路由算法进行了评估。结果表明，所提出的路由算法将过热节点数量减少了至少74%，将热方差提高了至少13%。这些结果是在平均延迟最多10%的开销内实现的。

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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Cool elevator: A thermal-aware routing algorithm for partially connected 3D NoCs

Despite of high throughput and low fabrication cost of vertically partially connected 3D NoCs, thermal difficulties arise from poor heat dissipation and inappropriate traffic distribution of these kinds of 3D NoCs. This paper proposes an adaptive routing algorithm in order to manage thermal challenges in partially connected 3D NoCs. In the proposed routing algorithm, vertical links declare their availability/unavailability status to their neighbor nodes due to their current temperature. In this way, hot vertical links have a chance to reduce their traffic load and to cool down. In a predefined time periods vertical links update process is done to determine current hot and cool vertical links. In an updating time periods, cool vertical links are announced to the routers of each layer for transmitting packets to other layers. Access Noxim simulator is used to evaluates the routing algorithm in different partially 3D networks. Results show that the proposed routing algorithm decreases the number of overheated nodes by at least 74% and improves the thermal variance by at least 13%. These results are achieved within at most 10% overhead in average latency delay.

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来源期刊

2016 6th International Conference on Computer and Knowledge Engineering (ICCKE)

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