Zhidan Zheng scite author profile

Zhidan Zheng

3Publications

0Citation Statements Received

47Citation Statements Given

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Technical University of Munich

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ToPro: A Topology Projector and Waveguide Router for Wavelength-Routed Optical Networks-on-Chip

Zheng

Tseng

et al. 2021

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To meet the ever-increasing requirements of onchip communication, the trend is towards wavelength-routed optical networks-on-chip (WRONoCs), which support high-speed communication with low power. A typical WRONoC design flow consists of two consecutive steps: topological design and physical design. Current physical design tools interpret the input topology as a pure logic scheme and perform placement and routing for all network components from scratch. Due to the large design complexity and the layout constraints, additional waveguide crossings in the synthesized layouts are hardly avoidable, which results in an increase in insertion loss and crosstalk noise and thus degrades the network performance. In this work, we propose a physical design tool, ToPro, which retains the interconnection among the optical switching elements by projecting the structure of a WRONoC topology onto the physical plane, and focuses on the waveguide routing to the IP-cores. To avoid the increase in insertion loss and crosstalk noise, ToPro removes the extra crossings and long detours of waveguides by changing the routing order of nets. The experimental results demonstrate the superiority of ToPro in time-and energy-efficiency. For example, compared to a state-of-the-art design automation tool, ToPro synthesizes a network with 16 IP-cores with a 17% reduction on the worst-case insertion loss and decreases the synthesis time from more than six days to less than one second.

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Zheng

Tseng

et al. 2021

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XRing: A Crosstalk-Aware Synthesis Method for Wavelength-Routed Optical Ring Routers

Zheng

Tseng

et al. 2023

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Wavelength-routed optical networks-on-chip (WR-ONoCs) are well-known for supporting high-bandwidth communications with low power and latency. Among all WRONoC routers, optical ring routers have attracted great research interest thanks to their simple structure, which looks like concentric cycles formed by waveguides. Current ring routers are designed manually. When the number of network nodes increases or the position of network nodes changes, it can be difficult to manually determine the optimal design options. Besides, current ring routers face two problems. First, some signal paths in the routers can be very long and suffer high insertion loss; second, to connect the network nodes to off-chip lasers, waveguides in the power distribution network (PDN) have to intersect with the ring waveguides, which causes additional insertion loss and crosstalk noise. In this work, we propose XRing, which is the first design automation method to automatically synthesize optical ring routers based on the number and position of network nodes. In particular, XRing optimizes the waveguide connections between the network nodes with a mathematical modelling method. To reduce insertion loss and crosstalk noise, XRing constructs efficient shortcuts between the network nodes that suffer long signal paths and creates openings on ring waveguides so that the PDN can easily access the network nodes without causing waveguide crossings. The experimental results show that XRing outperforms other WRONoC routers in reducing insertion loss and crosstalk noise. In particular, more than 98% of signals in XRing do not suffer first-order crosstalk noise, which significantly enhances the signal quality.

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Zhidan Zheng

ToPro: A Topology Projector and Waveguide Router for Wavelength-Routed Optical Networks-on-Chip

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XRing: A Crosstalk-Aware Synthesis Method for Wavelength-Routed Optical Ring Routers

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