Jinyu Jiao scite author profile

Jinyu Jiao

4Publications

1Citation Statement Received

59Citation Statements Given

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Shenyang University of Technology

Publications

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Energy-Efficient On-Chip Networks through Profiled Hybrid Switching

Jiao

Cao³

et al. 2020

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Virtual channel (VC) flow control is the de facto choice for modern networks-on-chip (NoCs) to allow better utilization of the link bandwidth through buffering and packet switching (PS), which are also the sources of large power footprint and long per-hop latency. However, bandwidth can be plentiful for parallel workloads under VC flow control. Thus, dated but simpler mechanisms, such as circuit switching (CS), can help improve the energy efficiency of modern NoCs. In this paper, we propose to apply CS to part of the link bandwidth so that a considerable amount of traffic can be transmitted bufferlessly without routing. Evaluations reveal that this proposal leads to a reduction of energy per flit by up to 32% while also provides very competitive latency when compared to networks under VC flow control. CCS CONCEPTS • Networks → Network on chip; • Computer systems organization → Interconnection architectures; Multicore architectures.

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Enabling circuit-switching in modern on-chip networks

Jiao

Cao³

et al. 2022

Microprocessors and Microsystems

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Local Traffic-Based Energy-Efficient Hybrid Switching for On-Chip Networks

Jiao

Kondo

2021

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Energy-Efficient On-Chip Networks through Profiled Hybrid Switching

Jiao

Cao³

et al. 2020

Preprint

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Virtual channel flow control is the de facto choice for modern networks-on-chip to allow better utilization of the link bandwidth through buffering and packet switching, which are also the sources of large power footprint and long per-hop latency. On the other hand, bandwidth can be plentiful for parallel workloads under virtual channel flow control. Thus, dated but simpler flow controls such as circuit switching can be utilized to improve the energy efficiency of modern networks-on-chip. In this paper, we propose to utilize part of the link bandwidth under circuit switching so that part of the traffic can be transmitted bufferlessly without routing. Our evaluations reveal that this proposal leads to a reduction of energy per flit by up to 32% while also provides very competitive latency per flit when compared to networks under virtual channel flow control. CCS CONCEPTS• Networks → Network on chip; • Computer systems organization → Interconnection architectures; Multicore architectures.

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Jinyu Jiao

Energy-Efficient On-Chip Networks through Profiled Hybrid Switching

Enabling circuit-switching in modern on-chip networks

Local Traffic-Based Energy-Efficient Hybrid Switching for On-Chip Networks

Energy-Efficient On-Chip Networks through Profiled Hybrid Switching

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