3D Layout of Spidergon, Flattened Butterfly and Dragonfly on a Chip Stack with Inductive Coupling Through Chip Interface
2017 14th International Symposium on Pervasive Systems, Algorithms and Networks & 2017 11th International Conference on Frontier of Computer Science and Technology & 2017 Third International Symposium of Creative Computing (ISPAN-FCST-ISCC)(2017)
摘要
In most of recent Networks-on-Chip (NoCs), a simple 2D mesh structure has been adopted. However, the increasing latency caused by the large number of hops has become a problem especially in a large chip multiprocessor with increasing number of cores. Although using low ASPL networks which can reduce the hop count is a hopeful solution, a number of long wires often limits the operational frequency. Hence, we propose 3D layout of three networks: Spidergon, Flattened Butterfly, and Dragonfly on a chip stack with wireless inductive coupling through chip interface (TCI). By making the use of TCI properties, including flexible stacking and chip pass-through data transfer, the maximum length of wires is much reduced. A large system which uses many chips can easily be implemented without degrading operational frequency.
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关键词
Spidergon,Flattened Butterfly,Dragonfly,chip stack,wireless inductive coupling,chip interface,flexible stacking,operational frequency,3D layout,Networks-on-Chip,simple 2D mesh structure,chip multiprocessor,low ASPL networks,hop count,NoCs,TCI properties,data transfer
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