Abstract
Current data centers networks rely on electronic switching and point-to-point interconnects. When considering future data center requirements, these solutions will raise issues in terms of flexibility, scalability, performance, and energy consumption. For this reason several optical switched interconnects, which make use of optical switches and wavelength division multiplexing (WDM), have been recently proposed. However, the solutions proposed so far suffer from low flexibility and are not able to provide service differentiation. In this paper we introduce a novel data center network based on hybrid optical switching (HOS). HOS combines optical circuit, burst, and packet switching on the same network. In this way different data center applications can be mapped to the optical transport mechanism that best suits their traffic characteristics. Furthermore, the proposed HOS network achieves high transmission efficiency and reduced energy consumption by using two parallel optical switches. We consider the architectures of both a traditional data center network and the proposed HOS network and present a combined analytical and simulation approach for their performance and energy consumption evaluation. We demonstrate that the proposed HOS data center network achieves high performance and flexibility while considerably reducing the energy consumption of current solutions.
Highlights
A data center (DC) refers to any large, dedicated cluster of computers that is owned and operated by a single organization
When simulating the hybrid optical switching (HOS) network, we model the traffic generated by the servers so that about 25% of the flows arriving at the edge nodes require the establishment of a circuit, 25% are served using long bursts, 25% are served with short bursts, and the remaining 25% are transmitted using packet switching
We define the load as the ratio between the total amount of traffic offered to the network and the maximum amount of traffic that can be handled by the network
Summary
A data center (DC) refers to any large, dedicated cluster of computers that is owned and operated by a single organization. When considering future data center requirements, optical switched interconnects that make use of optical switches and wavelength division multiplexing (WDM) technology can be employed to provide high communication bandwidth while reducing significantly the power consumption with respect to ptp solutions. It has been demonstrated in several research papers that solutions based on optical switching can improve both scalability and energy efficiency with respect to ptp interconnects [7, 9, 10].
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