The present research work proposes an energy efficient diagonal mesh based topology called DiamondMesh. By introducing diagonal links into the baseline mesh topology, the proposed DiamondMesh improves network performance while retaining the regular, simple and scalable properties of the Mesh topology. Topological properties of DiamondMesh have been explored and compared with that of other competitive diagonal mesh topologies. With the help of Booksim2.0 simulator, the proposed topology has been evaluated under a variety of traffic patterns and the results have been compared to those obtained with Mesh and the existing diagonal mesh topologies. The proposed topology and other considered topologies have been synthesised using xilinx vivado design compiler and the results have been analysed. The evaluation results show that there has been a significant reduction of latency compared to Mesh and other diagonal mesh topologies except DMesh and a considerable reduction of area and power compared to the DMesh topology. Thus, DiamondMesh establishes to be a highly efficient diagonal mesh-based topology for a variety of applications.

目前的研究工作提出了一种称为 DiamondMesh 的基于节能对角线网格的拓扑结构。通过在基线网状拓扑中引入对角链路，所提出的 DiamondMesh 提高了网络性能，同时保留了网状拓扑的规则、简单和可扩展的特性。探索了 DiamondMesh 的拓扑属性，并将其与其他竞争性对角线网格拓扑进行了比较。在 Booksim2.0 模拟器的帮助下，已在各种流量模式下对所提出的拓扑进行了评估，并将结果与​​使用 Mesh 和现有对角网状拓扑获得的结果进行了比较。已使用赛灵思 vivado 设计编译器综合了建议的拓扑和其他考虑的拓扑，并对结果进行了分析。评估结果表明，与 Mesh 和除 DMesh 之外的其他对角线网状拓扑结构相比，延迟显着降低，并且与 DMesh 拓扑结构相比，面积和功耗显着降低。因此，DiamondMesh 建立了一个高效的基于对角线网格的拓扑结构，适用于各种应用。