Abstract
Abstract By leveraging mode-division multiplexing (MDM), capacity of on-chip photonic interconnects can be scaled up to an unprecedented level. The demand for dynamic control of mode carriers has led to the development of mode-division multiplexing switches (MDMS), yet the conventional MDMS is incapable of directly accessing an individual lower-order mode that propagates in a multi-mode bus waveguide, which hinders its scalability and flexibility. In this paper, we propose and demonstrate the first direct-access MDMS as a novel platform for scalable on-chip multi-mode networks. At first, the highly efficient mode exchangers are developed for TE0–TE2 and TE1–TE2 mode swap, which are then employed to realize the direct-access mode add-drop multiplexers with high performances. The direct-access MDMS is then achieved based on the proposed mode add-drop multiplexers, which can be used for dynamically adding and dropping any selected mode carrier in a three-channel MDM. Moreover, the novel direct-access scheme is also adopted to simultaneously harness wavelength and mode carriers, leading to a wavelength/mode-hybrid multiplexing system with an enhanced link capacity of twelve channels. To further verify the utility of the MDMS, a multi-mode hubbed-ring network is constructed, where one hub and three nodes are organized within a ring-like multi-mode bus waveguide. The reconfigurable network traffic of 6 × 10 Gbps data streams are obtained by using three eigen modes as signal carriers. The measurement results show low bit-error rates (<10−9) with low power penalties (<3.1 dB).
Highlights
The multi-core architecture has become the mainstream in improving performances of modern micro-processors by assembling numerous parallel computational cores on a single chip [1]
The demand for dynamic control of mode carriers has led to the development of mode-division multiplexing switches (MDMS), yet the conventional MDMS is incapable of directly accessing an individual lower-order mode that propagates in a multimode bus waveguide, which hinders its scalability and flexibility
The proposed scheme is a combination of directaccess mode add-drop multiplexers (MADM) and normally-bar switches (NBSs), which is capable of adding and dropping any selected mode carrier in a three-channel mode-division multiplexing system
Summary
The multi-core architecture has become the mainstream in improving performances of modern micro-processors by assembling numerous parallel computational cores on a single chip [1]. Up to now, such “direct-access” conundrum has not been properly addressed for all the reported MDMSs. In this paper, we propose and demonstrate the first direct-access MDMS for scalable on-chip multi-mode networks. For the present direct-access MADM, only two ADCs (NADC = 2) and two MEs are required, no matter how large the channel number is, and the system can be scaled up This scheme will not introduce additional ADCs (i.e. NADC = 2C) even if it is necessary to add/drop all the mode carriers. The fabrication and characterization methods for these devices can be found in Supporting Information, Sections S1 and S2
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