Electronic hardware is fabricated from a wide variety of materials, including semiconductors, metallic conductors, insulators, ceramics and organic coatings.
Electronic dispersion compensation by analog and digital equalizers enable a considerable increase of high bit rate optical transmission system tolerances.
In a comprehensive overview different aspects of 40 Gbit/s electronic distortion equalization (EDE), of electronic pre-compensation, and receiver circuit requirements for fast polarization scrambli
The robustness of electronic mitigation to Second Order PMD and CD is experimentally assessed.
Basic properties of matter will limit the miniaturization of transistors, the basic building block of computers, to dimensions only about ten times smaller than today's most advanced devices.
Research activity in electronic neural networks has exploded in the last few years. This talk will present an overview of the field and a critical assessment.
Recent models of brain function have suggested new ways of performing some computational tasks.
We show that implementing pre- and post-dispersion compensation in electronic nonlinearity compensation can significantly improve the performance of 112-Gb/s PDM-QPSK coherent systems.
It has been common practice for physicists to assume electronic homogeneity when dealing with condensed matter properties.
