Optimized designs of low loss non-blocking optical router for ONoC
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
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. The switching method used in this ...
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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
As the optical router is a core of 3D ONoC, it needs the optimized router design in terms of the number of components used, insertion loss, power
We compared Cygnus with other microresonator-based routers, and analyzed their power consumption, optical power insertion loss, and the number
Agiltron all optical routers achieve ultra-low latency that has not been attainable by electronic routers. The 1U system multicasts incoming optical signals and dynamically re-directs them into multiple
Nowadays in the rapidly evolving field of System on Chip (SoC) technology, the demand for efficient on-chip processing has increased. To address these requireme.
This paper proposed a high-performance low-power low-cost optical router, Cygnus, for optical NoCs. Cygnus is non-blocking and based on silicon
In this work, we present a new optical routing framework, O-Router for future low-power on-chip optical interconnect integration utilizing silicon compatible nano-photonic de-vices.
With the advent of complex computing applications such as cloud computing and artificial intelligence, the utilization of multicore processors has become one of the best solutions to improve
Abstract 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
Taking advantage of the wavelength-division multiplexing (WDM) technology and the ultra-low propagation delay of light in silicon, ONoCs promise to offer much higher bandwidth with much lower
During the past decade, on-chip processing demands have increased with the burgeoning paradigms of Internet-of-Things (IoT), 4G/5G communication systems and Big data-centers, which cannot be
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We have developed an optical router core subsystem which implements the optical switching device described in section 2, an optical amplifier, and a driver circuit in a single package and operates ultra
Pengxing Guo, Weigang Hou, Lei Guo 0005. Designs of low insertion loss optical router and reliable routing for 3D optical network-on-chip. Science in China Series F: Information Sciences, 59 (10),
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Photonic network-on-chip is utilized as a candidate paradigm for important attributes such as high bandwidth and low energy consumption. In this paper, a non-blocking five-port photonic
Our proprietary optical fiber manufacturing process continues to set the standard for excellence. From raw materials to delivery, each step of the process has been
Simulation results demonstrate the proposed novel 6-times 6 non-blocking optical router structure performs well in terms of reducing insertion loss,
Recently, optical network on chip (ONoC) has attracted the attention of researchers as a promising technology for low power and high bandwidth on chip communication. ONoC improves the
Our integrated circuits and reference designs help you create core routers with ultra-high bandwidth and low-power consumption.
Section 5 evaluates the proposed method compared to some other reliable optical routers for different network architectures; moreover, it analyzes the insertion loss and crosstalk noise of
{abstract*} In photonic quantum applications, optical routers are required to handle single photons with low loss, high speed, and preservation of
We demonstrate for WDM optical networks a wavelength router with substantially reduced losses using a novel waveguide grating design . This technique will increase in an optical
Fortunately, Optical NoC (ONoC) [1β10] was proposed for solving the current problems and challenges of NoC. As an emerging communication architecture for many-core systems, ONoC can potentially
Here, we demonstrate a low-loss, polarization-maintaining router that switches an optical path of arbitrarily polarized heralded single photons and
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
As the optical router is a core of 3D ONoC, it needs the optimized router design in terms of the number of components used, insertion loss, power consumption, and other parameters.