A novel design of diffractive optical interconnects for multichip clock distribution

Sophie Mennerat, S. Paineau
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Abstract

We report a novel system of diffractive optical interconnects for very high speed clock distribution among multichip modules. Our system distributes two clock signals, each from one separate Vertical Cavity Surface Emitting Laser (VCSEL) over four PIN diodes positioned within a radius of 9 mm along a light-guiding glass plate. The incoming optical gaussian beams from VCSEL are splitted by diffractive optical elements into four output beams and the glass plate propagates the light through multiple reflections onto the golden metallized faces towards the detectors. The overall alignment and chromatic acceptance is highly improved by the use of SELFOC micro-lenses that collimate the laser beam onto the diffractive optical element and that focus the output beam onto the active area of the detectors. The proposed architecture allows tolerance on the light source wavelength as high as Δλ = 10 nm and global tolerances of assembly of the glass plate of 1.5 degrees in rotation and 10 µm in translation making it compatible with the processes of hybridization in microelectronics.
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一种用于多芯片时钟分配的新型衍射光互连设计
我们报道了一种新的衍射光互连系统,用于在多芯片模块之间进行超高速时钟分配。我们的系统分配两个时钟信号,每个信号来自一个独立的垂直腔面发射激光器(VCSEL),分布在四个PIN二极管上,沿导光玻璃板定位在9毫米半径内。来自VCSEL的入射高斯光束被衍射光学元件分裂成四个输出光束,玻璃板通过多次反射将光传播到探测器的金色金属表面。通过使用SELFOC微透镜,将激光束准直到衍射光学元件上,并将输出光束聚焦到探测器的有源区域,从而大大提高了整体对准和色彩接受度。所提出的架构允许光源波长的公差高达Δλ = 10 nm,玻璃板组装的全局公差为旋转1.5度和平移10 μ m,使其与微电子中的杂化过程兼容。
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