S. Moazeni, Sen Lin, M. Wade, L. Alloatti, Rajeev J Ram, M. Popović, V. Stojanović
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引用次数: 11
摘要
硅光子学是一项迅速成熟的技术,有望实现低成本和节能的光链路,用于机架到机架、机架内数据中心应用和超级计算机互连。最近,已经证明了使用未经修改的最先进的45nm SOI CMOS工艺实现超节能硅光子链路的可能性[1]。这种方法使得在同一芯片上制造数百万个晶体管和数百个光子器件,从而提高了处理器-存储器链路带宽,为解决这一传统的计算瓶颈开辟了一条道路。
29.3 A 40Gb/s PAM-4 transmitter based on a ring-resonator optical DAC in 45nm SOI CMOS
Silicon photonics is a rapidly maturing technology, promising to realize low-cost and energy-efficient optical links for rack-to-rack, within-rack datacenter applications, and supercomputer interconnects. Recently, the possibility of implementing ultra-power-efficient silicon photonic links using an unmodified state-of-the-art 45nm SOI CMOS process has been demonstrated [1]. This approach enabled the fabrication of millions of transistors and hundreds of photonic devices in the same chip to improve processor-memory link bandwidth, and opened a path to solving this traditional computation bottleneck.
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