Design of Optimized Optical Router with Low Insertion Loss for ONoC
The proposed algorithm can select various source and destination nodes through the selected routes with the lowest insertion loss and power consumption.
BD Bugler provides fiber optic cable trays, 400G optical modules, core routers, head-end row cabinets, IDC construction, structured cabling, and optical network infrastructure for Africa.
HOME / Low-loss debugging of Columbia optical router - BD Bugler Critical Infrastructure & Optoelectronics
The proposed algorithm can select various source and destination nodes through the selected routes with the lowest insertion loss and power consumption.
Benefitted from the technologies of silicon-photonic-based communication and three-dimensional (3-D) integration, the 3-D optical network-on-chip (3-D ONoC) has attained extensive
Optical network-on-chip is a promising on-chip communication paradigm owing to higher bandwidth and lower latency. However, in the optical network, we have to consider the intrinsic characteristic of
Networks-on-chip (NoCs) can improve the communication bandwidth and power efficiency of multiprocessor systems-on-chip (MPSoC). However, traditional metallic interconnects consume
Test fiber optic assemblies and short networks faster and more accurately with Luna''s optical backscatter reflectometry (OBR) technology which delivers
In this work, we propose and experimentally demonstrate a low-loss, polarization-maintaining EO router compatible with single photons. Our scheme is based on the polarization
We compared Cygnus with other microresonator-based routers, and analyzed their power consumption, optical power insertion loss, and the number
ORs, the power loss caused by undesirable coupling among optical signals will introduce insertion loss and degrade Signal-to-Noise Ratio (SNR). Though some efforts have been made to analyze the
Zhang S, Xue X, Tangdiongga E, Calabretta N. Low-Latency Optical Wireless Data-Center Networks Using Nanoseconds Semiconductor-Based
In this paper, we present two innovative designs of five port non-blocking ONoC routers constructed by using micro-ring resonators and waveguides for low power losses and the optimum
Here, we demonstrate a low-loss, polarization-maintaining router that switches an optical path of arbitrarily polarized heralded single photons and polarization-photon-number-entangled photons at
Three-Dimensional Optical Network-on-Chip (3D ONoC) has recently emerged as a high-perfor-mance on-chip communication solution; however, owing to the intrinsic characteristics of photonic devices in
In this paper, we proposed a novel 6×6 non-blocking optical router structure for 3D ONoCs. Simulation results demonstrate our structure performs well in terms of reducing insertion loss, floorplan area and
We compared the performance of the designed routers with previously reported optical routers for the power insertion loss and the requirement of micro
In photonic quantum applications, optical routers are required to handle single photons with low loss, high speed, and preservation of their quantum states. Single-photon routing with
The insertion losses for 6x6 optical routers for different paths Fig. 6 shows the comparison of 6x6 and 7x7 optical routers in the literature with proposed router for the average insertion loss.
This research aims to present a new route with a minimal amount of optical loss to transfer optical information between source and destination nodes using gray code.
We compared the performance of the designed routers with previously reported optical routers for the power insertion loss and the requirement of micro-ring resonators.
Optical routers are one of the important and fundamental constituent of Optical NoCs. Till date many researchers have proposed several Optical Router designs, every router has its own advantages,
This paper proposes a novel design of a 6 × 6 intra-layer non-blocking optical router and an inter-layer (vertical) optical router using a micro-ring resonator (MRR). The performance analysis
Gu et al. investigated Cygnus high-performance, high-cost, and low-power five-port optical router using the XY algorithm for data transmission with low optical loss.
Keywords 3D ONoC, low insertion loss, reliable routing, bidirectional waveguide, low latency Citation Guo P X, Hou W G, Guo L. Designs of low
This paper proposed a high-performance low-power low-cost optical router, Cygnus, for optical NoCs. Cygnus is non-blocking and based on silicon
The simulation results show that the mesh photonic network constructed by the proposed five-port optical routers has low insertion loss and high optical signal-to-noise ratio.
The optical network-on-chip (ONoC) has the advantages of high bandwidth, low latency and high performance, so it has gradually become a research hotspot of on-chip communication systems. The