Report Advisor: Dr. Vishwani D. Agrawal Report Committee: Dr. Shiwen Mao and Dr. Jitendra Tugnait Survey of Wireless Network-on-Chip Systems Master’s Project.

Xi's M.E.E Presentation

Report Advisor: Dr. Vishwani D. AgrawalReport Committee: Dr. Shiwen Mao and Dr. Jitendra Tugnait

Survey of Wireless Network-on-Chip

SystemsMaster’s Project Defense

Xi Li

Department of Electrical and Computer EngineeringAuburn University, AL 36849 USA


Outline ※ Background

※ Problem Statement

※ General Solution

※ Contribution

- Experimental Results and Analysis

Latency vs. Injection Rate Latency vs. Number of Virtual Channels

※ Conclusion


Background


※ Network-on-Chip (NoC) is an approach to designing the communication subsystem between IP cores on a single chip, modules are interconnected via switches (routers)

※ Size: mm-scale

※ Numbers of processors: dozens of or even hundreds of

※ Communication method:“Point-to-point” and “packet-based (usually in flit)”

※ Layered protocol (MAC layer, network layer)

※ Modules’ structures should be as simple as possible

※ Variety kinds of topologies are used in NoC


A 4 by 4 regular mesh NoC topology


Problem Statement


※ High latency and power consumption will be introduced due to 1) the multi-hop in the communication path between two nodes and 2) high injection rate.

More nodes in a chip, more hops and higher injection ※rate will be in the communication.

Many hops, high injection rate, and results a high latency


General Solutions


※ Wireless link is introduced – reduce the number of hops in the path Some outstanding transmission ways: UWB, mm-wave, ※CNT

UWB-Based Mm-Wave-Based

CNT-Based

Bandwidth 3.6GHz Tens of GHz Around 500GHz

Devices’ sizes Millimeter order Millimeter order Micrometer order

Transmission range

Not enough (1mm)

enough Enough

# of Channels per link

multiple single multiple


※ Pure Wireless vs. Hybrid Wireless NoC system

Pure: All nodes are fully connected via wirelessLimited wireless sourceLimited transmission rangeTherefore, hard to use in practice

Hybrid: Combination of wired and wirelessReduce the number of hopAlleviate latencyTherefore, always used


※ Structure Wireless insertion※ Routing scheme and communication protocol※


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cluster

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cluster

cluster

※ Structure of Hybrid Wireless NoC system: Hierarchical Bottom level: nodes form to a cluster via wired linkTop level: some clusters are connected by wireless

(sometimes, clusters in neighbor are still connected by wired)

Structure of hybrid wireless NoC


※ Wireless insertion:Using SA (simulated annealing) to get the optimal configuration – the placement of the wireless links

? ?? ?


※ Routing scheme and communication protocol Should be as simple as possible Routing schemes’ examples: Location-based

(LBR), dimension-ordered, path length-based and some other adopting router scheme

Communication protocol: multi-channel protocol (combination of TDM and FDM)

Other used communication schemes: pulse position modulation, biphase modulation, on-off key modulation…


Contribution


※ Experiment

In this section, performance of both traditional NoC (wired) and wireless NoC will be simulated; then, a comparison between them will me make.

Some parameters: injection rate: bit/cycle per node latency: cycle virtual channel


※ Latency vs. Injection Rate (wired)

8 by 8 regular mesh:



In order to reduce the distance between two nodes in wired communication, we can increase the concentration of the network.

Concentration stands for the number of nodes that share a single router. E.g. concentration 4 means a router is shared by 4 nodes.



A 4 by 4 cmesh NoC topology


A 4 by 4 regular mesh NoC topology



therefore, in cmesh topology, the average distance can reduce.

8 by 8 cmesh hop

8 by 8 regular mesh hop



8 by 8 cmesh:


※ Latency vs. Injection Rate (wired) However, since every router has more work to do,

latency is still introduced Therefore, there is a trade-off between the distance

and number of nodes per router if we use wired link.

Comparison between8 by 8 regular mesh and cmesh:


※ Latency vs. Injection Rate (wireless)

Therefore, wireless NoC is needed Here, we use a kind of topology to simulate

wireless NoC system – flattened butterfly topology



A 4 by 4 flattened butterfly NoC topology



64 nodes 256 nodes


※ Latency vs. Number of Virtual Channels (wired)

8 by 8 regular mesh


※ Latency vs. Number of Virtual Channels (wireless)

Wireless NoC (64 nodes)


※ Comparison between wired and wireless


Conclusion


Comparison with traditional wired NoC, wireless NoC has a great improvement in performance (latency, maximum injection rate, so that the throughput)

In wireless NoC, before a specific level of injection rate, the latency increment is tiny.

Virtual channel plays a more important role in wireless NoC than in traditional NoC.

※ Conclusion


※ Future work

Devices’ manufactory Topology and communication protocolOther aspect: fault tolerant and

reconfiguration


Thank You


Question?

Report Advisor: Dr. Vishwani D. Agrawal Report Committee: Dr. Shiwen Mao and Dr. Jitendra Tugnait Survey of Wireless Network-on-Chip Systems Master’s Project.

Documents

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e presentation wireless