This recommended practice and guide 1 specifies an energy-efficient functional architecture for big data transmission and processing. The architecture considers distributed processing nodes in addition to centralized data centers to process big data chunks. Distributed processing nodes provides processing closer to big data sources which reduces the networking power consumption. The performance of the energy-efficient functional architecture is compared to classical centralized processing of big data under different use cases representing two of the main characteristics of big data; volume and variety.
- Standard Committee
- COM/GreenICT-SC - Green ICT Standards Committee
- Status
- Active PAR
- PAR Approval
- 2016-12-07
Working Group Details
- Society
- IEEE Communications Society
- Standard Committee
- COM/GreenICT-SC - Green ICT Standards Committee
- Working Group
-
EEICT - Energy Efficient ICT
- IEEE Program Manager
- Dalisa Gonzalez
Contact Dalisa Gonzalez - Working Group Chair
- Jaafar M.H. Elmirghani
Other Activities From This Working Group
Current projects that have been authorized by the IEEE SA Standards Board to develop a standard.
P1925.1
IEEE Draft Standard for Energy Efficient Dynamic Line Rate Transmission System
This standard specifies an energy-efficient, rate 1 and modulation adaptive transmission system designed for the deployment of mixed line rates in optical networks. It introduces the transmission system and provides mechanisms to optimally configure the line rate to efficiently accommodate varying traffic loads while reducing the power consumption.
P1927.1
IEEE Draft Standard for Services Provided by the Energy-Efficient Orchestration and Management of Virtualized Distributed Data Centers Interconnected by a Virtualized Network
This 1 standard specifies a methodological framework for providing computational resources and the network that interconnects them in an energy efficient way. The framework utilizes virtualization to allow multiple secondary operators share and slice the resources of a physical infrastructure owned by a larger operator known as the infrastructure provider (InP). The purpose of this standard is to assess and improve the energy efficiency of joint network and data center virtualization.
P1928.1
IEEE Draft Standard for a Mechanism for Energy Efficient Virtual Machine Placement
This standard specifies a methodology for 1 energy-efficient virtual machine placement considering network and computational resources power consumption. It also considers the geographic distribution of user demand. Different reference cases of the optimal placement strategy in comparison are provided.
P1929.1
IEEE Draft Standard for an Architectural Framework for Energy Efficient Content Distribution
This standard specifies an energy-efficient framework for video content distribution in IP over WDM networks. The framework considers delivering video content from fixed-size or variable size caches or from centralized or distributed video head-ends. To reduce the networking and caching power consumption, the framework optimizes the replacement of the caches content and the size of caches according to the content popularity changes throughout the day. Different test cases of an energy-efficient framework are presented and compared to video content delivery without caching.
Standards approved by the IEEE SA Standards Board that are within the 10-year lifecycle.
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These standards have been replaced with a revised version of the standard, or by a compilation of the original active standard and all its existing amendments, corrigenda, and errata.
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These standards have been removed from active status through a ballot where the standard is made inactive as a consensus decision of a balloting group.
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