A control and network system is proposed to offer optical circuits of 120 ns duration while achieving 91% throughput between 1000s of Servers. It delivers 270ns median and 270 μs tail latency under 75% load
Data centers have to sustain the rapid growth of data traffic due to the increasing demand of band-w...
Optical switching, which benefits from high bandwidth and low latency, promises to revolutionize dat...
This thesis presents advanced optical connectivity solutions for next-generation data centers, spann...
The combination of ever-growing data demand and the slowing down of Moore’s law are creating substan...
PULSE, an optical circuit switched data center network, employs custom ASIC schedulers to reconfigur...
We introduce PULSE, a sub-μs optical circuit switched data centre network architecture controlled by...
Traditionally, datacenter networks are constructed with electronic packet switches, which forward da...
Modern data center networks with their vast scale and bandwidth requirements are necessarily optical...
\u3cp\u3eAiming at solving the scaling issues of bandwidth and latency in current hierarchical data ...
Fast and high capacity optical switching techniques have the potential to enable low latency and hig...
We propose an OCS data center network and control system that uses distributed hardware schedulers t...
Aiming at solving the scaling issues of bandwidth and latency in current hierarchical data center ne...
The rising tide of data-intensive, massive scale cluster computing is creating new challenges for tr...
Driven by the cloud computing, Internet of things, and emerging big data applications, more stringen...
In this paper, we consider the performance of optical circuit switching (OCS) systems designed for ...
Data centers have to sustain the rapid growth of data traffic due to the increasing demand of band-w...
Optical switching, which benefits from high bandwidth and low latency, promises to revolutionize dat...
This thesis presents advanced optical connectivity solutions for next-generation data centers, spann...
The combination of ever-growing data demand and the slowing down of Moore’s law are creating substan...
PULSE, an optical circuit switched data center network, employs custom ASIC schedulers to reconfigur...
We introduce PULSE, a sub-μs optical circuit switched data centre network architecture controlled by...
Traditionally, datacenter networks are constructed with electronic packet switches, which forward da...
Modern data center networks with their vast scale and bandwidth requirements are necessarily optical...
\u3cp\u3eAiming at solving the scaling issues of bandwidth and latency in current hierarchical data ...
Fast and high capacity optical switching techniques have the potential to enable low latency and hig...
We propose an OCS data center network and control system that uses distributed hardware schedulers t...
Aiming at solving the scaling issues of bandwidth and latency in current hierarchical data center ne...
The rising tide of data-intensive, massive scale cluster computing is creating new challenges for tr...
Driven by the cloud computing, Internet of things, and emerging big data applications, more stringen...
In this paper, we consider the performance of optical circuit switching (OCS) systems designed for ...
Data centers have to sustain the rapid growth of data traffic due to the increasing demand of band-w...
Optical switching, which benefits from high bandwidth and low latency, promises to revolutionize dat...
This thesis presents advanced optical connectivity solutions for next-generation data centers, spann...