PULSE, an optical circuit switched data center network, employs custom ASIC schedulers to reconfigure circuits in 240 ns. The revised PULSE architecture scales to 10,000s blades, achieves >95% sustained throughput, with low median (1.23 µs) and tail (145 µs) latencies, while consuming 115 pJ/bit and costing $9.04/Gbps
International audienceWe present the dimensioning of an optical packet switching network for energy-...
\u3cp\u3eAiming at solving the scaling issues of bandwidth and latency in current hierarchical data ...
Traditionally, datacenter networks are constructed with electronic packet switches, which forward da...
The combination of ever-growing data demand and the slowing down of Moore’s law are creating substan...
We introduce PULSE, a sub-μs optical circuit switched data centre network architecture controlled by...
A control and network system is proposed to offer optical circuits of 120 ns duration while achievin...
We propose an OCS data center network and control system that uses distributed hardware schedulers t...
Meeting the exponential increase in the global demand for bandwidth has become a major concern for t...
As data centers enter the exascale computing era, the traffic exchanged between internal network nod...
WDM/TDM star-coupler architectures have been proposed for building high-radix optical switches to ...
Optical interconnection networks have the potential to reduce latency and power consumption while in...
As data centre traffic dynamics are changing, optical networking is becoming increasingly important...
This thesis explores the use of wavelength tuneable transmitters and control systems within the cont...
The physical layer, data plane design of an all-optical network switch capable of scaling to 1024 po...
Modern data center networks with their vast scale and bandwidth requirements are necessarily optical...
International audienceWe present the dimensioning of an optical packet switching network for energy-...
\u3cp\u3eAiming at solving the scaling issues of bandwidth and latency in current hierarchical data ...
Traditionally, datacenter networks are constructed with electronic packet switches, which forward da...
The combination of ever-growing data demand and the slowing down of Moore’s law are creating substan...
We introduce PULSE, a sub-μs optical circuit switched data centre network architecture controlled by...
A control and network system is proposed to offer optical circuits of 120 ns duration while achievin...
We propose an OCS data center network and control system that uses distributed hardware schedulers t...
Meeting the exponential increase in the global demand for bandwidth has become a major concern for t...
As data centers enter the exascale computing era, the traffic exchanged between internal network nod...
WDM/TDM star-coupler architectures have been proposed for building high-radix optical switches to ...
Optical interconnection networks have the potential to reduce latency and power consumption while in...
As data centre traffic dynamics are changing, optical networking is becoming increasingly important...
This thesis explores the use of wavelength tuneable transmitters and control systems within the cont...
The physical layer, data plane design of an all-optical network switch capable of scaling to 1024 po...
Modern data center networks with their vast scale and bandwidth requirements are necessarily optical...
International audienceWe present the dimensioning of an optical packet switching network for energy-...
\u3cp\u3eAiming at solving the scaling issues of bandwidth and latency in current hierarchical data ...
Traditionally, datacenter networks are constructed with electronic packet switches, which forward da...