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We propose and demonstrate a novel, differentially operated optically clocked transistor array optoelectronic integrated circuit for high bit-rate and stable generation of asynchronous burst optical packets. With the same circuit, both 10-Gbps and 25-Gbps, 8-bit operation are optimally achieved.
This talk will provide a high-level overview to redress the value of optical signal processing in the context of the looming energy issues, suggesting the potential of dynamic optical path switching along with some enabling technologies.
This talk will provide a high-level overview to redress the value of photonic technologies in the context of the looming energy issues, suggesting the potential of dynamic optical path switching along with enabling technologies.
We have developed an 8×8 hybrid optoelectronic router prototype that optimally utilizes both optical and electrical technologies, with the ability to process 10-Gbps arbitrary-length asynchronous optical packets. With it, we demonstrate error-free operation and dramatically reduced power and latency.
A serious limitation of energy consumption will prevent the current network technologies from scaling up their capacity to the constantly increasing network traffic, and completely novel network technologies should therefore be sought circumventing the energy ceiling so as to allow the ever-increasing traffic. The potential of dynamic optical path switching is pointed out, and some of the enabling...
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