To accommodate the growing demand on higher speeds, low latencies and low energy consumption, the interconnections within and between data centers are supposed to be implemented as optical fiber and waveguide interconnects in future. Optical fiber interconnects provide several advantages over their electrical counterparts as they enable higher bandwidth densities and lower losses at high frequencies over distances longer than few centimeters. However, nowadays optical fiber interconnects are usually not very energy-efficient. The systems in optical networks are mostly optimized for running at their peak performance to transmit the information with the highest available error-free data rate. But the work load of a processor system and hence ...
Recent advances in integrated opto-electronic devices and frontend circuits have made it possible to...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
The explosive growth of data volume brought by the pervasiveness of artificial intelligence (AI) app...
To accommodate the growing demand on higher speeds, low latencies and low energy consumption, the in...
Existing optical networks are driven by dynamic user and application demands but operate statically ...
Abstract—Optical interconnects are becoming ubiquitous for short-range communication within boards a...
As bit rates increase, optical interconnects based high-performance computing (HPC) systems improve ...
As microprocessors become increasingly intercon-nected, the power consumed by the interconnection ne...
In a fast changing world where information technology drives economic prosperity, the number of data...
Optical communication systems are replacing electrical interconnects on shorter and shorter scales, ...
The work presented in this thesis fits within the broader area of fiber optics communications. This ...
Optical interconnects are being considered for short link data networks as a solution enabling highe...
Abstract—Short-reach nanophotonic interconnects are promising to solve the communication bottleneck ...
Many high performance computers (HPC) and cloud computing applications rely on distributing tasks am...
Recent advances in integrated opto-electronic devices and frontend circuits have made it possible to...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
The explosive growth of data volume brought by the pervasiveness of artificial intelligence (AI) app...
To accommodate the growing demand on higher speeds, low latencies and low energy consumption, the in...
Existing optical networks are driven by dynamic user and application demands but operate statically ...
Abstract—Optical interconnects are becoming ubiquitous for short-range communication within boards a...
As bit rates increase, optical interconnects based high-performance computing (HPC) systems improve ...
As microprocessors become increasingly intercon-nected, the power consumed by the interconnection ne...
In a fast changing world where information technology drives economic prosperity, the number of data...
Optical communication systems are replacing electrical interconnects on shorter and shorter scales, ...
The work presented in this thesis fits within the broader area of fiber optics communications. This ...
Optical interconnects are being considered for short link data networks as a solution enabling highe...
Abstract—Short-reach nanophotonic interconnects are promising to solve the communication bottleneck ...
Many high performance computers (HPC) and cloud computing applications rely on distributing tasks am...
Recent advances in integrated opto-electronic devices and frontend circuits have made it possible to...
The current data center architectures based on blade servers and elec- tronic packet switches face s...
The explosive growth of data volume brought by the pervasiveness of artificial intelligence (AI) app...