Add to ORKGA many-to-one communication pattern is present both in Data Acquisition (DAQ) and datacenter networks. The problem arising from this pattern is widely known in the literature as incast and can be observed as TCP throughput collapse. It is a result of overloading the switch buffers, when a specific node in a network requests data from multiple sources. This paper provides two contributions. First, we confirm that there are strong analogies between the TCP behavior in DAQ and datacenter networks. Second, we evaluate different proposals from datacenter for application in DAQ to improve performance and reduce buffer requirements
The bursty many-to-one communication pattern, typical for data acquisition systems, is particularly...
The bursty many-to-one communication pattern, typical for data acquisition systems, is particularly...
For addressing problems such as long delays, latency fluctuations, and frequent timeouts in conventi...
A many-to-one communication pattern is present both in Data Acquisition (DAQ) and datacenter network...
In recent years, Data Centers Networks (DCNs) have been deployed to serve as the backbone to support...
The rapid increase in data centre communication in recent years has led to a wave of interest in the...
The rapid increase in data centre communication in recent years has led to a wave of interest in the...
This paper presents a practical solution to the problem of high-fan-in, high-bandwidth synchronized ...
The bursty many-to-one communication pattern, typical for data acquisition systems, is particularly ...
Abstract-Cloud data centers host diverse applications, mixing in the same network a plethora of work...
This paper presents a practical solution to the problem of high-fan-in, high-bandwidth synchronized ...
ABSTRACT TCP Throughput Collapse, also known as Incast, is a pathological behavior of TCP that resul...
Modern data centres host a myriad of cloud services and applications with stringent delay and throug...
Modern data centres host a myriad of cloud services and applications with stringent delay and throug...
The bursty many-to-one communication pattern, typical for data acquisition systems, is particularly...
The bursty many-to-one communication pattern, typical for data acquisition systems, is particularly...
The bursty many-to-one communication pattern, typical for data acquisition systems, is particularly...
For addressing problems such as long delays, latency fluctuations, and frequent timeouts in conventi...
A many-to-one communication pattern is present both in Data Acquisition (DAQ) and datacenter network...
In recent years, Data Centers Networks (DCNs) have been deployed to serve as the backbone to support...
The rapid increase in data centre communication in recent years has led to a wave of interest in the...
The rapid increase in data centre communication in recent years has led to a wave of interest in the...
This paper presents a practical solution to the problem of high-fan-in, high-bandwidth synchronized ...
The bursty many-to-one communication pattern, typical for data acquisition systems, is particularly ...
Abstract-Cloud data centers host diverse applications, mixing in the same network a plethora of work...
This paper presents a practical solution to the problem of high-fan-in, high-bandwidth synchronized ...
ABSTRACT TCP Throughput Collapse, also known as Incast, is a pathological behavior of TCP that resul...
Modern data centres host a myriad of cloud services and applications with stringent delay and throug...
Modern data centres host a myriad of cloud services and applications with stringent delay and throug...
The bursty many-to-one communication pattern, typical for data acquisition systems, is particularly...
The bursty many-to-one communication pattern, typical for data acquisition systems, is particularly...
The bursty many-to-one communication pattern, typical for data acquisition systems, is particularly...
For addressing problems such as long delays, latency fluctuations, and frequent timeouts in conventi...