Xiaoping Liu, Jeffrey B. Driscoll, et al.
Optics Express
We demonstrate 4 × 4 and 8 × 8 switch fabrics in multistage topologies based on 2 × 2 Mach-Zehnder interferometer switching elements. These fabrics are integrated onto a single chip with digital CMOS logic, device drivers, thermo-optic phase tuners, and electro-optic phase modulators using IBM's 90 nm silicon integrated nanophotonics technology. We show that the various switch-and-driver systems are capable of delivering nanosecond-scale reconfiguration times, low crosstalk, compact footprints, low power dissipations, and broad spectral bandwidths. Moreover, we validate the dynamic reconfigurability of the switch fabric changing the state of the fabric using time slots with sub-100-ns durations. We further verify the integrity of high-speed data transfers under such dynamic operation. This chip-scale switching system technology may provide a compelling solution to replace some routing functionality currently implemented as bandwidth-and power-limited electronic switch chips in high-performance computing systems. © 1983-2012 IEEE.
Xiaoping Liu, Jeffrey B. Driscoll, et al.
Optics Express
Benjamin G. Lee, Joris Van Campenhout, et al.
CLEO 2010
Benjamin G. Lee, Nicolas Dupuis, et al.
IPC 2019
Daniel M. Kuchta, Alexander V. Rylyakov, et al.
IPC 2012