IEEE Organizations related to Energy Efficient Ethernet

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Conferences related to Energy Efficient Ethernet

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2020 Optical Fiber Communications Conference and Exhibition (OFC)

The Optical Fiber Communication Conference and Exhibition (OFC) is the largest global conference and exhibition for optical communications and networking professionals. For over 40 years, OFC has drawn attendees from all corners of the globe to meet and greet, teach and learn, make connections and move business forward.OFC attracts the biggest names in the field, offers key networking and partnering opportunities, and provides insights and inspiration on the major trends and technology advances affecting the industry. From technical presentations to the latest market trends and predictions, OFC is a one-stop-shop.


GLOBECOM 2020 - 2020 IEEE Global Communications Conference

IEEE Global Communications Conference (GLOBECOM) is one of the IEEE Communications Society’s two flagship conferences dedicated to driving innovation in nearly every aspect of communications. Each year, more than 2,900 scientific researchers and their management submit proposals for program sessions to be held at the annual conference. After extensive peer review, the best of the proposals are selected for the conference program, which includes technical papers, tutorials, workshops and industry sessions designed specifically to advance technologies, systems and infrastructure that are continuing to reshape the world and provide all users with access to an unprecedented spectrum of high-speed, seamless and cost-effective global telecommunications services.


SoutheastCon 2020

SoutheastCon is the annual Region 3 conference that brings together engineering professionals, students, and volunteers for a weekend of technical presentations, meetings, student competitions, and volunteer education.

  • SoutheastCon 2021

    IEEE SoutheastCon is the annual IEEE Region 3 Student, Professional, and awards conference.

  • SoutheastCon 2019

    The annual IEEE SoutheastCon conferences promote all aspects of theories and applications of engineering disciplines. Sponsored by the IEEE Region-3 and IEEE Huntsville Section, this event will attract researchers, professionals, and students from the Southeastern region of the U.S. SoutheastCon 2019 will feature tutorial sessions, workshops, Technical Programs, and student Hardware, Software, Ethics, Paper, Web competitions.

  • SoutheastCon 2018

    SoutheastCon is a annual conference held in Region 3 and covers a Professional Track, Student Track and Regional Track.

  • SoutheastCon 2017

    Broad scope professional paper conference, region 3 annual meeting, region 3 annual student conference

  • SoutheastCon 2016

    Annual Region 3 Trifecta of Student competitions, Technical papers and volunteer training and administration.

  • SoutheastCon 2015

    Horizontal Technical Conference with all topics; students compete in multiple competions; Region 3 training meetings.

  • SOUTHEASTCON 2014

    Horizontal Technical Conference with all topics; students compete in multiple competions; Region 3 training meetings.

  • IEEE SOUTHEASTCON 2013

    Region 3 Meeting, Technical papers, student competitions.

  • SOUTHEASTCON 2012

    The annual IEEE SoutheastCon conferences promote all aspects of the theories and applications of the engineering disciplines. Sponsored by the IEEE Region 03, this event attracts researchers, professionals, and students from the Southeast region of the U.S and beyond. SoutheastCon 2012 will be held in Orlando, Florida.

  • SOUTHEASTCON 2011

    IEEE SoutheastCon2011 is the annual IEEE Region 3 technical, professional, and student conference, invites conference refereed and non-refereed technical paper presentations and tutorials that advance the work and careers of conference attendees in the areas of interest for the conference.

  • SOUTHEASTCON 2010

    SoutheastCon 2010 is the Region 3 event which includes a student conference, a technical conference, and the Region 3 business meeting.

  • SOUTHEASTCON 2009

    It is the annual IEEE Region 3 Technical, Professional, and Student Conference. As the premier conference for the IEEE Region 3, it brings together electrical, computer and other engineering and science professionals, faculty and students to share the latest information through technical sessions, tutorials and exhibits. The conference schedule includes: a technical program with seminars, tutorials, and workshops; exhibits; a student program with student competitions; and IEEE regional meetings.

  • SOUTHEASTCON 2008

    SoutheastCon is the Southeastern USA Region of the IEEE's premier conference. It contains three main sections: a technical program, student competitions and regional meetings. SouthEastCon features technical papers, tutorials and exhibits.

  • SOUTHEASTCON 2007

  • SOUTHEASTCON 2006

  • SOUTHEASTCON 2005

  • SOUTHEASTCON 2004

  • SOUTHEASTCON 2003

  • SOUTHEASTCON 2002

  • SOUTHEASTCON 2001

  • SOUTHEASTCON 2000

  • SOUTHEASTCON '99

  • SOUTHEASTCON '98

  • SOUTHEASTCON '97

  • SOUTHEASTCON '96


2019 24th Asia and South Pacific Design Automation Conference (ASP-DAC)

ASP-DAC 2019 is the twenty-second annual international conference on VLSI design automation in Asia and South Pacific region, one of the most active regions of design and fabrication of silicon chips in the world. The conference aims at providing the Asian and South Pacific CAD/DA and Design community with opportunities of presenting recent advances and with forums for future directions in technologies related to Electronic Design Automation (EDA). The format of the meeting intends to cultivate and promote an instructive and productive interchange of ideas among EDA researchers/developers and system/circuit/device designers. All scientists, engineers, and students who are interested in theoretical and practical aspects of VLSI design and design automation are welcomed to ASP-DAC.


2019 European Conference on Optical Communications (ECOC)

Fibres, Fibre Devices and Fibre Amplifiers; Integrated Optoelectronic Devices and Optical Processors; Digital Signal Handling Techniques for Optical Communication Systems; Point-to-Point Optical Transmission Systems, Subsystems and Technologies; Photonic and Microwave Photonics Subsystems; Datacentre and Computercom Networks; Core, Metro, Local Access and Convergent Networks


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Periodicals related to Energy Efficient Ethernet

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No periodicals are currently tagged "Energy Efficient Ethernet"


Most published Xplore authors for Energy Efficient Ethernet

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Xplore Articles related to Energy Efficient Ethernet

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Delay Analysis of Timer-Based Frame Coalescing in Energy Efficient Ethernet

IEEE Communications Letters, 2013

IEEE 802.3az, also known as Energy Efficient Ethernet (EEE), aims at reducing the energy consumption of an Ethernet link by placing it in sleep mode when the link is idle. Frame coalescing mechanism proposed for EEE is an effective means to increase the average idle time of the link, thus reducing the overhead stemming from sleep/wake transitions, but at the ...


A GI/G/1 Model for 10 Gb/s Energy Efficient Ethernet Links

IEEE Transactions on Communications, 2012

The IEEE 802.3az standard provides a mechanism to build energy efficient Ethernet interfaces via a low power idle mode that they can enter when there is no data to transmit. Several competing algorithms have appeared that make use of this mode to minimize energy consumption with little disruption to the traffic. Two algorithms stand out among those because of their ...


An energy consumption model for Energy Efficient Ethernet switches

2012 International Conference on High Performance Computing & Simulation (HPCS), 2012

Ethernet is one of the first computer networking technologies for which a standard has been developed to improve its energy efficiency. The Energy Efficient Ethernet (IEEE 802.3az) standard was approved in 2010 and is expected to enable savings of several Terawatt hours (TWh) per year. As switches that implement the standard become available and are deployed, it is important to ...


An Initial Evaluation of Energy Efficient Ethernet

IEEE Communications Letters, 2011

In September 2010, the Energy Efficient Ethernet (IEEE 802.3az) standard was officially approved. This new standard introduces a low power mode for the most common Ethernet physical layer standards and is expected to provide large energy savings. In this letter, for the first time, Network Interface Cards (NICs) that implement Energy Efficient Ethernet (EEE) are used to measure energy savings ...


A Simple Analytical Model for Energy Efficient Ethernet

IEEE Communications Letters, 2011

The recently approved Energy Efficient Ethernet standard IEEE 802.3az achieves energy savings by using a low power mode when the link is idle. However, those savings heavily depend on the traffic patterns, due to the overhead inherent in transitions between active and low power modes. This makes it impractical to estimate energy savings through measurements or simulations in all relevant ...


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Educational Resources on Energy Efficient Ethernet

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IEEE.tv Videos

An Energy-Efficient Mixed-Signal Neuron for Inherently Error Resilient Neuromorphic Systems - IEEE Rebooting Computing 2017
An Energy-efficient Reconfigurable Nanophotonic Computing Architecture Design: Optical Lookup Table - IEEE Rebooting Computing 2017
Energy Efficient Single Flux Quantum Based Neuromorphic Computing - IEEE Rebooting Computing 2017
International Future Energy Challenge 2015!
Synchronised 4-Phase Resonant Power Clock Supply for Energy Efficient Adiabatic Logic: IEEE Rebooting Computing 2017
Steep Slope Devices: Advanced Nanodevices - Nicolo Oliva at INC 2019
802.3: Ethernet
International Future Energy Challenge 2018
FinSAL: A Novel FinFET Based Secure Adiabatic Logic for Energy-Efficient and DPA Resistant IoT Devices - Himanshu Thapliyal: 2016 International Conference on Rebooting Computing
Diab and Frazier: Ethernet in the First Mile
Winds of Change: Part 3 - Wind Energy in Developing Countries
Computing Conversations: Bob Metcalfe on the First Ethernet LAN
Superconductive Energy-Efficient Computing - ASC-2014 Plenary-series - 6 of 13 - Wednesday 2014/8/13
PELS: Leading the Future of Power Electronics
Infineon Technologies: Power Efficiency from Generation to Consumption
Energy Efficiency of MRR-based BDD Circuits - Ozan Yakar - ICRC San Mateo, 2019
Optimal Design of NPC and Active-NPC Transformerless PV Inverters
Compressive Sensing Tutorial: A Game Changing Technology for Energy Efficient IoT Sensor Networks: WF-IoT 2016
Honors 2020: Apple Wins the IEEE Corporate Innovation Award
IMS 2011 - CREE Overview

IEEE-USA E-Books

  • Delay Analysis of Timer-Based Frame Coalescing in Energy Efficient Ethernet

    IEEE 802.3az, also known as Energy Efficient Ethernet (EEE), aims at reducing the energy consumption of an Ethernet link by placing it in sleep mode when the link is idle. Frame coalescing mechanism proposed for EEE is an effective means to increase the average idle time of the link, thus reducing the overhead stemming from sleep/wake transitions, but at the expense of increased frame delays. Therefore, it is imperative to quantify the energy-delay trade- off while employing frame coalescing. As opposed to existing delay models that focus only on the average delays, a simple but exact queuing model is introduced for timer-based frame coalescing to find the delay distribution when the frame arrival process is Poisson and frame lengths are generally distributed. An expression for average saving in power consumption is also provided.

  • A GI/G/1 Model for 10 Gb/s Energy Efficient Ethernet Links

    The IEEE 802.3az standard provides a mechanism to build energy efficient Ethernet interfaces via a low power idle mode that they can enter when there is no data to transmit. Several competing algorithms have appeared that make use of this mode to minimize energy consumption with little disruption to the traffic. Two algorithms stand out among those because of their simplicity and performance: frame transmission and burst transmission. Although these algorithms have been shown to be very efficient in simulated scenarios, there is a lack of general analytical models for their behavior. In fact, to this date, the only analyzed traffic patterns have been variants of Poisson traffic. In this paper we provide a general GI/G/1 model for energy consumption and traffic delay for both algorithms. We then develop specializations of the general model for Poisson and deterministic traffic. Finally, we validate the model with the help of both synthetic traffic and real Internet traffic traces.

  • An energy consumption model for Energy Efficient Ethernet switches

    Ethernet is one of the first computer networking technologies for which a standard has been developed to improve its energy efficiency. The Energy Efficient Ethernet (IEEE 802.3az) standard was approved in 2010 and is expected to enable savings of several Terawatt hours (TWh) per year. As switches that implement the standard become available and are deployed, it is important to understand how their energy consumption depends on the number of active ports and their traffic. In this paper the energy consumption of small Energy Efficient Ethernet switches is analyzed in several experiments and based on the results a model for the energy consumption of Energy Efficient Ethernet switches is proposed. The model can be used to predict the energy savings when deploying the new switches and also for research on further energy saving techniques such as energy efficient routing or dynamic link shutdown.

  • An Initial Evaluation of Energy Efficient Ethernet

    In September 2010, the Energy Efficient Ethernet (IEEE 802.3az) standard was officially approved. This new standard introduces a low power mode for the most common Ethernet physical layer standards and is expected to provide large energy savings. In this letter, for the first time, Network Interface Cards (NICs) that implement Energy Efficient Ethernet (EEE) are used to measure energy savings with real traffic. The data presented will be useful to better estimate the energy savings that can be achieved when EEE is deployed. Existing analysis of EEE based on simulations predict a large overhead due to mode transitions between active and low power modes. The experimental results confirm that transition overheads can be significant, leading to almost full energy consumption even at low utilization levels. Therefore traffic patterns will play a key role in the energy savings achieved by EEE as it becomes deployed in the field.

  • A Simple Analytical Model for Energy Efficient Ethernet

    The recently approved Energy Efficient Ethernet standard IEEE 802.3az achieves energy savings by using a low power mode when the link is idle. However, those savings heavily depend on the traffic patterns, due to the overhead inherent in transitions between active and low power modes. This makes it impractical to estimate energy savings through measurements or simulations in all relevant scenarios. In this letter we present an analytical model to estimate the energy consumption of an Energy Efficient Ethernet link, based on simple traffic parameters. The model is validated through simulation and experimental data.

  • Can Energy-Aware Routing Improve the Energy Savings of Energy-Efficient Ethernet?

    Telecommunication networks are over-provisioned with redundant resources in order to cope with traffic load during peak hours and to quickly recover from failures. However, much of the resources are underutilized during long periods of time, but still consuming full energy. With the growing concerns of energy waste and greenhouse gas emissions, the network design principles tend to shift towards allocation of resources on-demand for energy-efficiency. In this paper, we analyze and evaluate the performance of two different energy-saving techniques, namely energy saving topology control (ESTOP) and energy-efficient Ethernet (EEE). We investigate the energy-saving characteristics of ESTOP+EEE; the combination of ESTOP and EEE. The evaluation is conducted in OMNet++ with realistic and synthetic network topologies under varying traffic conditions. The results indicate that the combination has a significant potential for saving energy, compared to running ESTOP or EEE alone, but that the amount of energy savings depends on topology, traffic load, and the chosen target connectivity level for ESTOP. In particular, the results show that the target connectivity level needs to be carefully matched to the topology and the current traffic situation, suggesting that ESTOP+EEE would be suitable where the target connectivity level is dynamically adjusted according to traffic variations.

  • Design and Analysis of a Novel Energy Efficient Ethernet Passive Optical Network

    Ethernet Passive Optical Network (EPON) has become an important access network for realizing FTTX. Due to its broadcast nature in EPON, each Optical Network Unit (ONU) needs to examine every downstream frame delivered from Optical Line Terminal (OLT) to determine whether the frame is destined to it or not. This results in a waste of energy for all ONUs in a PON system. To reduce power consumption, we propose a new MAC that turns a PON system to be a slotted one when the system is operating in light load state. By doing so, an ONU can turn off its transmitter, receiver, and even part of the MAC controller to reduce power consumption. We present a Markov model for the system. Numerical results reveal that an ONU can still have 20 Mbps bandwidth even if only 3% of its time is in working state.

  • IEEE Draft Standard for Information technology-Telecommunications and information exchange between systems-Local and metropolitan area networks-Specific requirements Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications Amendment: Media Access Control parameters, Physical Layers and management parameters for Energy-Efficient Ethernet

    "This draft is an amendment of IEEE Std 802.3-2008 and includes a new clause, Clause 78, which provides an overview of changes required to enable energy efficient operation of several existing physical layers. Changes to the specifications of these physical layers are also included in this draft. Draft D2.3 is prepared by the IEEE 802.3az Energy Efficient Task Force as the third recirculation draft for working group ballot. This draft reflects changes made in response to the comment resolutions and motions from the task force Plenary meeting held the week of January 25, 2010 and expires 6 months after the date of publication or when the next version is published, whichever comes first."

  • IEEE Draft Standard for Information technology Telecommunications and information exchange between systems Local and metropolitan area networks Specific requirements Part 3: Carrier Sense Multiple Access with Collision Detection (CSMA/CD) Access Method and Physical Layer Specifications Amendment: Media Access Control parameters, Physical Layers and management parameters for Energy-Efficient Ethernet

    This amendment to IEEE Std 802.32008 specifies changes to several existing physical layers to enable energy efficient operation of Ethernet. Changes to 10BASE-T include a reduction in transmit voltage requirements. Changes to 100BASE-TX, 1000BASE-T, 10GBASE-T, 1000BASE-KX, 10GBASE-KX4 and 10GBASE-KR include the definition of a Low Power Idle (LPI) mode and mechanisms to communicate and manage the entry and exit into and out of LPI and the operation of this mode. New LLDP TLVs are defined for negotiating system level energy efficiency parameters.

  • An Energy Efficient Ethernet Strategy Based on Traffic Prediction and Shaping

    Recently, different communities in computer science, telecommunication, and control systems have devoted a huge effort towards the design of energy efficient solutions for data transmission and network management. This paper collocates along this research line and presents a novel energy efficient strategy conceived for Ethernet networks. The proposed strategy, which exploits the opportunities offered by the IEEE 802.3az amendment to the Ethernet standard (known as energy efficient Ethernet) is based on the possibility of predicting the future traffic from the analysis of the current data flow. In agreement with the results of such a dynamic prediction, Ethernet links can be forced into a low power consumption state for variable intervals. Theoretical bounds are derived to detail how the performance figures depend on the parameters of the designed strategy and scale with respect to traffic load. Furthermore, simulation results carried out with both real and synthetic traffic traces are presented to prove the effectiveness of the strategy, which leads to considerable energy savings at the cost of only a limited bounded delay in data delivery.



Standards related to Energy Efficient Ethernet

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Jobs related to Energy Efficient Ethernet

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