Universal method for designing non-blocking multicast-supported on chip optical router

Abstract: Optical routers constructed by waveguides and microring resonators (MRs) play an important role for realizing non-blocking multicastsupported communication of Optical Networks-on-Chip (ONoCs). Most of the prior methods use building blocks to construct optical routers that cannot support multicast communication. Some prior optical routers support multicast communication by using large number of MRs with low utilization. In this letter, a universal method for designing non-blocking multicast-supported optical ro… Show more

“…The on-chip optical communication using waveguides as the transmission medium has essential advantages compared to traditional electrical communication [1][2][3][4]. The characteristics of low delay, high bandwidth, and low power consumption can effectively solve the ongoing bottlenecks of on-chip communication [5][6][7]. In the design of on-chip optical networks, the communication architecture is often structured based on optical circuit switching, which causes a blocking problem when the communication links are occupied by different data flows, leading to lower throughput and higher energy consumption [8,9].…”

Minimizing the number of wavelengths in a cluster WDM mesh-based ONoC through application-specific mapping

“…The on-chip optical communication using waveguides as the transmission medium has essential advantages compared to traditional electrical communication [1][2][3][4]. The characteristics of low delay, high bandwidth, and low power consumption can effectively solve the ongoing bottlenecks of on-chip communication [5][6][7]. In the design of on-chip optical networks, the communication architecture is often structured based on optical circuit switching, which causes a blocking problem when the communication links are occupied by different data flows, leading to lower throughput and higher energy consumption [8,9].…”

Minimizing the number of wavelengths in a cluster WDM mesh-based ONoC through application-specific mapping

NPFONoC: A Low-loss, Non-blocking, Scalable Passive Optical Interconnect Network-on-Chip Architecture