On the Impact of Routing and Network Size for Wireless Network-on-Chip Performance
Wireless Network-on-Chip or WiNoC is an alternative to traditional planar on-chip networks. On-chip wireless links are utilized to reduce latency between distant nodes due to its capability to communicate with far-away node within a single hop. This paper analyzes the impact of various routing schem...
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my.unimas.ir.416332023-04-10T06:33:14Z http://ir.unimas.my/id/eprint/41633/ On the Impact of Routing and Network Size for Wireless Network-on-Chip Performance Asrani, Lit M. S., Rusli M. N., Marsono TK Electrical engineering. Electronics Nuclear engineering Wireless Network-on-Chip or WiNoC is an alternative to traditional planar on-chip networks. On-chip wireless links are utilized to reduce latency between distant nodes due to its capability to communicate with far-away node within a single hop. This paper analyzes the impact of various routing schemes and the effect of WiNoC sizes on network traffic distributions compared to conventional mesh NoC. Radio hubs (4×4) are evenly placed on WiNoC to analyze global average delay, throughput, energy consumption and wireless utilization. For validation, three various network sizes (8×8, 16×16 and 32×32) of mesh NoC and WiNoC architectures are simulated on cycle-accurate Noxim simulator under numerous traffic load distributions. Simulation results show that WiNoC architecture with the 16×16 network size has better average speedup (∼1.2×) and improved network throughputs by 6.36% in non-uniform transpose traffic distribution. However, as the trade-off, WiNoC requires 63% higher energy consumption compared to the classical wired NoC mesh. 2018 Proceeding PeerReviewed text en http://ir.unimas.my/id/eprint/41633/1/Asrani%20Lit.pdf Asrani, Lit and M. S., Rusli and M. N., Marsono (2018) On the Impact of Routing and Network Size for Wireless Network-on-Chip Performance. In: THE INTERNATIONAL CONFERENCE ON ELECTRICAL, ELECTRONIC, COMMUNICATION AND CONTROL ENGINEERING (ICEECC2018), 28-29 November 2018, Johor Bahru, Malaysia. |
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TK Electrical engineering. Electronics Nuclear engineering Asrani, Lit M. S., Rusli M. N., Marsono On the Impact of Routing and Network Size for Wireless Network-on-Chip Performance |
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Wireless Network-on-Chip or WiNoC is an alternative to traditional planar on-chip networks. On-chip wireless links are utilized to reduce latency between distant nodes due to its capability to communicate with far-away node within a single hop. This paper analyzes the impact of various routing schemes and the effect of WiNoC sizes on network traffic distributions compared to conventional mesh NoC. Radio hubs (4×4) are evenly placed on WiNoC to analyze global average delay, throughput, energy consumption and wireless utilization. For validation, three various network sizes (8×8, 16×16 and 32×32) of mesh NoC and WiNoC architectures are simulated on cycle-accurate Noxim simulator under numerous traffic load distributions. Simulation results show that WiNoC architecture with the 16×16 network size has better average speedup (∼1.2×) and improved network throughputs by 6.36% in non-uniform transpose traffic distribution. However, as the trade-off, WiNoC requires 63% higher energy consumption compared to the classical wired NoC mesh. |
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Proceeding |
author |
Asrani, Lit M. S., Rusli M. N., Marsono |
author_facet |
Asrani, Lit M. S., Rusli M. N., Marsono |
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Asrani, Lit |
title |
On the Impact of Routing and Network Size for Wireless Network-on-Chip Performance |
title_short |
On the Impact of Routing and Network Size for Wireless Network-on-Chip Performance |
title_full |
On the Impact of Routing and Network Size for Wireless Network-on-Chip Performance |
title_fullStr |
On the Impact of Routing and Network Size for Wireless Network-on-Chip Performance |
title_full_unstemmed |
On the Impact of Routing and Network Size for Wireless Network-on-Chip Performance |
title_sort |
on the impact of routing and network size for wireless network-on-chip performance |
publishDate |
2018 |
url |
http://ir.unimas.my/id/eprint/41633/1/Asrani%20Lit.pdf http://ir.unimas.my/id/eprint/41633/ |
_version_ |
1762841718299820032 |
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13.211869 |