Understanding data center traffic characteristics

Benson, Theophilus; Anand, Ashok; Akella, Aditya; Zhang, Ming

doi:10.1145/1672308.1672325

Cited by 344 publications

(136 citation statements)

References 5 publications

Supporting

Mentioning

126

Contrasting

Unclassified

Order By: Relevance

“…The 8-way associative cache (m=8) is an 8-way LRU similar to many processor L1 caches [8]. Based on a study of datacenter traffic [16], we pick an average packet size of 850 bytes and a network utilization of 30%. Under these typical conditions, a switch processing a billion 64-byte packets per second (1 GHz) will process 22.6M average-sized packets per second.…”

Section: Evaluation Of Hardware Designmentioning

confidence: 99%

Hardware-Software Co-Design for Network Performance Measurement

Narayana

Sivaraman

Nathan

et al. 2016

Proceedings of the 15th ACM Workshop on Hot Topics in Networks

View full text Add to dashboard Cite

Diagnosing performance problems in networks is important, for example to determine where packets experience high latency. However, existing diagnostic tools are constrained by limited switch mechanisms for measurement. As a result, operators use endpoint information to indirectly infer root causes for performance issues.Instead of designing piecemeal solutions to work around limited switch mechanisms, we believe that the right approach is to co-design language abstractions and switch hardware primitives for performance measurement. This approach provides confidence that the switch primitives are useful for a variety of existing and unanticipated use cases.We present a declarative query language that allows operators to ask a diverse set of network performance questions. We show that these queries can be implemented efficiently in switch hardware using a programmable key-value store primitive. Our preliminary evaluations show that our hardware design incurs modest additional chip area relative to existing switching chips, suggesting that it is a practical solution for network performance measurement.

show abstract

Section: Evaluation Of Hardware Designmentioning

confidence: 99%

Hardware-Software Co-Design for Network Performance Measurement

Narayana

Sivaraman

Nathan

et al. 2016

Proceedings of the 15th ACM Workshop on Hot Topics in Networks

View full text Add to dashboard Cite

show abstract

“…The structure and main component of data centre architecture is depicted on Figure 1. The major components of architecture are [2]: Client or and users that interact with the clouds to manage information related to the cloud.…”

Section: A Model Of Data Center Networkmentioning

confidence: 99%

“…The cloud infrastructure configuration and future maintains in the most cases is determine by the provided applications and the processes. In general, two types of servers are existed in data centre [1,2]. Front End server receives and handles incoming traffic and multiple application Middle End servers that running applications.…”

Section: A Model Of Data Center Networkmentioning

confidence: 99%

“…Multiple cloud technologies of data storage and computing, network virtualization and data flows aggregation was provided to the IT industry with aim to increase the scalability and flexibility of network solutions. However, each new approach makes the infrastructure of data center more complex [2]. The different load balancing technologies are using to achieve a high level of processed load between components of data centre.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

An Evaluation of Load Balancing between Server Platforms inside a Data Center

2017

IJCSI

View full text Add to dashboard Cite

The overview of principles of network load balancing between server platforms in a data center network is given in the work. The data center model in term of Infrastructure-asa-Service is proposed in the work. The CPU utilization of server platforms and throughput capability which depended from the amount of servers is suggested to use as a main performance characteristics. The evaluation model of data center network and the formulas for CPU and throughput evaluation are also suggested in the work. The analysis of load balancing between server platforms was performed according to the proposed formulas in case of use a clustering.

show abstract

“…Besides, we can leverage the existing mechanisms such as SNMP Set operations and command line interface to support the power control features of NESS. Moreover, the network analyzer can collect the state records of traffic and topology through SNMP Get operations and passive packet tracing [28].…”

Section: Implementation Issuesmentioning

confidence: 99%

Network Element Scheduling for Achieving Energy-Aware Data Center Networks

Fang

Liang

Sun

et al. 2014

INT J COMPUT COMMUN

View full text Add to dashboard Cite

The goal of data center network is to interconnect a massive number of servers so as to provide reliable and scalable computing and storage infrastructure for cloud-based Internet services and data-intensive scientific applications. Recent studies reveal that the network elements consume 10∼20% of the overall power in a data center, which has introduced a challenge to reducing network energy cost without adversely affecting network performance. Considering unique features of traffic patterns and network topologies in data centers, this paper proposes a novel Network Element Scheduling Scheme (NESS) to reduce data center energy consumption from the networking perspective. The core idea is to turn on only a minimal subset of network elements to satisfy routing requirements, and put to sleep or shut down the rest unneeded ones for energy saving. In NESS, the logical network architecture formed by the active elements not only achieves the basic purpose for server interconnections in data centers, but also can support multi-path routing between pairs of hot servers for load balancing. Simulation experiments are performed in representative data center network topologies, and the results demonstrate the effectiveness of NESS in energy conserving on network elements in data centers.

show abstract

Understanding data center traffic characteristics

Cited by 344 publications

References 5 publications

Hardware-Software Co-Design for Network Performance Measurement

Hardware-Software Co-Design for Network Performance Measurement

An Evaluation of Load Balancing between Server Platforms inside a Data Center

Network Element Scheduling for Achieving Energy-Aware Data Center Networks

Contact Info

Product

Resources

About