Title :
Silicon Photonic Microring Links for High-Bandwidth-Density, Low-Power Chip I/O
Author :
Ophir, Noam ; Mineo, Christopher ; Mountain, D. ; Bergman, Keren
Abstract :
Silicon photonic microrings have drawn interest in recent years as potential building blocks for high-bandwidth off-chip communication links. The authors analyze a terabit-per-second scale unamplified microring link based on current best-of-class devices. The analysis provides quantitative measures for the achievable energy efficiency and bandwidth density that could be realized within several years. The results highlight key device attributes that require significant advancement to realize sub-pJ/bit scale optical links.
Keywords :
elemental semiconductors; low-power electronics; micro-optics; optical links; silicon; Si; energy efficiency; high-bandwidth off-chip communication link; high-bandwidth-density; low-power chip I-O; silicon photonic microring link; subPJ-bit scale optical link; terabit-per-second scale unamplified microring link; Data communication; Optical fiber communication; Optical fibers; Optical interconnections; Parallel processing; Photonics; Silicon; Wavelength division multiplexing; data communications; emerging technologies; fiber optics; parallel I/O;
Journal_Title :
Micro, IEEE
