Ultra-efficient 10Gb/s hybrid integrated silicon photonic transmitter and receiver

被引:105
|
作者
Zheng, Xuezhe [1 ]
Patil, Dinesh [2 ]
Lexau, Jon [2 ]
Liu, Frankie [2 ]
Li, Guoliang [1 ]
Thacker, Hiren [1 ]
Luo, Ying [1 ]
Shubin, Ivan [1 ]
Li, Jieda [1 ]
Yao, Jin [1 ]
Dong, Po [3 ]
Feng, Dazeng [3 ]
Asghari, Mehdi [3 ]
Pinguet, Thierry [4 ]
Mekis, Attila [4 ]
Amberg, Philip [2 ]
Dayringer, Michael [2 ]
Gainsley, Jon [2 ]
Moghadam, Hesam Fathi [2 ]
Alon, Elad [5 ]
Raj, Kannan [1 ]
Ho, Ron [2 ]
Cunningham, John E. [1 ]
Krishnamoorthy, Ashok V. [1 ]
机构
[1] Oracle Labs, San Diego, CA 92121 USA
[2] Oracle Labs, Menlo Pk, CA 94025 USA
[3] Kotura Inc, Monterey Pk, CA 91754 USA
[4] Luxtera Inc, Carlsbad, CA 92011 USA
[5] Univ Calif Berkeley, Berkeley, CA 94709 USA
来源
OPTICS EXPRESS | 2011年 / 19卷 / 06期
关键词
HIGH-SPEED; CMOS; MODULATOR; COMPACT; ENERGY; CHIP;
D O I
10.1364/OE.19.005172
中图分类号
O43 [光学];
学科分类号
070207 ; 0803 ;
摘要
Using low parasitic microsolder bumping, we hybrid integrated efficient photonic devices from different platforms with advanced 40 nm CMOS VLSI circuits to build ultra-low power silicon photonic transmitters and receivers for potential applications in high performance inter/intra-chip interconnects. We used a depletion racetrack ring modulator with improved electro-optic efficiency to allow stepper optical photo lithography for reduced fabrication complexity. Integrated with a low power cascode 2 V CMOS driver, the hybrid silicon photonic transmitter achieved better than 7 dB extinction ratio for 10 Gbps operation with a record low power consumption of 1.35 mW. A received power penalty of about 1 dB was measured for a BER of 10(-12) compared to an off-the-shelf lightwave LiNOb(3) transmitter, which comes mostly from the non-perfect extinction ratio. Similarly, a Ge waveguide detector fabricated using 130 nm SOI CMOS process was integrated with low power VLSI circuits using hybrid bonding. The all CMOS hybrid silicon photonic receiver achieved sensitivity of -17 dBm for a BER of 10(-12) at 10 Gbps, consuming an ultra-low power of 3.95 mW (or 395 fJ/bit in energy efficiency). The scalable hybrid integration enables continued photonic device improvements by leveraging advanced CMOS technologies with maximum flexibility, which is critical for developing ultra-low power high performance photonic interconnects for future computing systems. (C) 2011 Optical Society of America
引用
收藏
页码:5172 / 5186
页数:15
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