Kim J, Balfour J, Dally W (2007) Flattened butterfly topology for on-chip networks. J Parallel Distrib Comput 113:17–36īhanu PV, Mandapati N, Soumya J, Cenkeramaddi LR (2020) Fault-tolerant application mapping on to ZMesh topology based network-on-chip designīhanu PV, Govil V, Jagadeesh S, Soumya J, Cenkeramaddi LR (2020) Novel fault-tolerant routing technique for ZMesh topology based network-on-chip designĭally W (1990) Performance analysis of k-ary n-cube interconnection networks. Prasad N, Mukherjee P, Chattopadhyay S, Chakrabarti I (2018) Design and evaluation of ZMesh topology for on-chip interconnection networks. Xu TC, Leppänen V, Liljeberg P, Plosila J, Tenhunen H (2015) PDNOC: Partially diagonal network-on-chip for high efficiency multicore systems. Int J Multimed Ubiquitous Eng 10(10):197–210 J Sci Res 66 (2)įurhad MH, Kim J-M (2015) An extended diagonal mesh topology for network-on-chip architectures. Gautam S, Samad A, Umar MS (2022) Improving system performance in homogeneous multicore systems. Gupta GK, Jha SK (2021) Formation of fault and balanced ring for fault tolerance in Dmesh network. ![]() Wang C, Hu W-H, Lee SE, Bagherzadeh N (2011) Area and power-efficient innovative congestion-aware network-on-chip architecture. New Paradigms for VLSI Systems Design, ISVLSI In: Proceedings IEEE computer society annual symposium on VLSI. Kumar SA et al (2002) A network on chip architecture and design methodology. Kundu S, Chattopadhyay S (2014) Network-on-chip: the next generation of system-on-chip integration CRC Press. Thus, DiamondMesh establishes to be a highly efficient diagonal mesh-based topology for a variety of applications.īenini L, De Micheli G (2002) Networks on chips: a new SOC paradigm. 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. The proposed topology and other considered topologies have been synthesised using xilinx vivado design compiler and the results have been analysed. 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. Topological properties of DiamondMesh have been explored and compared with that of other competitive diagonal mesh topologies. 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. Usually, a tighter, thinner weave is used for this purpose in many commercial and industrial buildings.The present research work proposes an energy efficient diagonal mesh based topology called DiamondMesh. The mesh metal acts as a barrier between flammable materials and the structural supports of commercial or residential buildings and can reduce the risk that fire will spread or damage the structural integrity of a building. Often diamond-shaped mesh is used to support the scratch coat of plaster, mortar, cement, and brick coatings.įireproofing: Another industrial use for diamond-shaped mesh is protection from fires. The diamond shape is ideally suited as a metal lath because the shape of the mesh pattern helps support the plaster or mortar on the wall or ceiling. Metal lath: The metal lath in construction is an important part of any plaster or mortar coating. Mesh fences can also be used inside factories to guard dangerous equipment and protect employees. Chain-link fences are commonly used to protect unsafe or areas with toxic materials from unauthorized users. The typical chain-link fence is usually formed with the diamond pattern, as well as fences with smaller spacing between each piece of wire. In the industrial and construction world, diamond-shaped mesh has a variety of uses including:įencing: Perhaps the most common use for diamond-shaped mesh is in fencing. In many cases, diamond-shaped mesh is one of the least expensive forms of mesh. This mesh pattern provides a high level of strength at a low cost. ![]() The diamond pattern is created by linking several metal wires together to create a diamond-shaped pattern. Diamond mesh can be made from a variety of metals, such as aluminum, stainless steel, and steel alloys, but is commonly made from stainless steel because of the durability and resistance to corrosion. ![]() Diamond mesh gets its name from the shape of the mesh weave rather than from the materials used to create the metal.
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