Paper Info
Title
A case for low frequency single cycle multi hop NoCs for energy efficiency and high performance.
Abstract
As the number of cores in a multi-core system increase, network on-chip (NoC) latency and transmission energy scale unfavorably, since they are directly proportional to the number of hops traversed. Designers often have to trade-off energy to get lower latency (for instance long-distance bypass links with high-radix multi-stage routers) or latency to get lower energy (e.g., scaling down voltage and frequency of NoC routers and links). This work offers an alternate design-space for latency-energy optimization that has previously been unexplored, by harnessing the fact that lower frequency links can actually be used to transmit over longer on-chip distances within a cycle. We leverage a recently proposed micro-architecture that enables the construction of single-cycle multi-hop paths on the fly over a regular mesh network, and augment it with support for dynamic voltage and frequency scaling by decoupling router frequency from link frequency. In essence, we enable packets to traverse only wires from the source to the destination (as if it had a dedicated connection) only getting buffered at routers if necessary (at turns or due to contention). We address the synchronization challenges of multi-hop bypass setup signals in a multi-frequency domain and propose novel static/dynamic router and link frequency assignment techniques. Across synthetic as well as full-system benchmarks, we demonstrate reduced energy with similar or better run-times.
Year
Venue
Field
2017
ICCAD
Mesh networking,Synchronization,Latency (engineering),Computer science,Efficient energy use,Network packet,Computer network,Electronic engineering,Frequency scaling,Frequency assignment,Router
DocType
ISSN
ISBN
Conference
1933-7760
978-1-4503-5950-4
Citations 
PageRank 
References 
1
0.35
21
Authors
2
Name
Order
Citations
PageRank
Monodeep Kar15312.66
Tushar Krishna2186486.95