1) Introduction 2) Silicon Photonics as a Technology Enabler 2a) Optical Links 2b) Modulators 2c) Photonic-Switching Elements and Optical Routers for Optical Networks-on-Chip 2d) Photodetectors 2e) Laser Sources 3) Need for Pathfinding 4) Predictability-Critical ONoC Topologies 5) Design Space Exploration of Wavelength-Routed Topologies 5a) Global Connectivity 5b) Network Partitioning 5c) Comparison with an Optical Ring Topology 5d) Network Partitioning 5f) Logic Topologies 5e) Physical Topologies 5g) Power Efficiency of Topologies 5h) Global Connectivity vs. Network partitioning 6) Spatial-Division-Multiplexing Ring Topology vs. Filter-based Topology 7) Conclusion 8) References
Design Space Exploration of Wavelength-Routed Optical NoC Topologies for 3D-Stacked Multi- and Many-Core Processors.
BERTOZZI, Davide;RAMINI, Luca
2014
Abstract
1) Introduction 2) Silicon Photonics as a Technology Enabler 2a) Optical Links 2b) Modulators 2c) Photonic-Switching Elements and Optical Routers for Optical Networks-on-Chip 2d) Photodetectors 2e) Laser Sources 3) Need for Pathfinding 4) Predictability-Critical ONoC Topologies 5) Design Space Exploration of Wavelength-Routed Topologies 5a) Global Connectivity 5b) Network Partitioning 5c) Comparison with an Optical Ring Topology 5d) Network Partitioning 5f) Logic Topologies 5e) Physical Topologies 5g) Power Efficiency of Topologies 5h) Global Connectivity vs. Network partitioning 6) Spatial-Division-Multiplexing Ring Topology vs. Filter-based Topology 7) Conclusion 8) ReferencesI documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
