Skip to main content
USENIX
  • Conferences
  • Students
Sign in
  • Home
  • Attend
    • Registration Information
    • Registration Discounts
    • Venue, Hotel, and Travel
    • Students and Grants
  • Activities
    • Birds-of-a-Feather Sessions
    • Poster Session and Happy Hour
  • Program
    • At a Glance
    • Technical Sessions
  • Sponsorship
  • Participate
    • Instructions for Participants
    • Call for Papers
    • Call for Posters
  • About
    • Organizers
    • Help Promote
    • Questions
    • Past Symposia
  • Home
  • Attend
  • Activities
  • Program
  • Sponsorship
  • Participate
  • About

sponsors

Silver Sponsor
Silver Sponsor
Silver Sponsor
Silver Sponsor
Bronze Sponsor
Media Sponsor
Media Sponsor
Media Sponsor
Media Sponsor
Media Sponsor
Media Sponsor
Media Sponsor
Media Sponsor
Industry Partner

help promote

NSDI '16 button

Get more
Help Promote graphics!

connect with us


  •  Twitter
  •  Facebook
  •  LinkedIn
  •  Google+
  •  YouTube

twitter

Tweets by @usenix

usenix conference policies

  • Event Code of Conduct
  • Conference Network Policy
  • Statement on Environmental Responsibility Policy

You are here

Home » Efficiently Delivering Online Services over Integrated Infrastructure
Tweet

connect with us

Efficiently Delivering Online Services over Integrated Infrastructure

Authors: 

Hongqiang Harry Liu, Microsoft Research; Raajay Viswanathan, University of Wisconsin—Madison; Matt Calder, Microsoft; Aditya Akella, University of Wisconsin—Madison; Ratul Mahajan, Jitendra Padhye, and Ming Zhang, Microsoft Research

Abstract: 

We present Footprint, a system for delivering online services in the "integrated" setting, where the same provider operates multiple elements of the infrastructure (e.g., proxies, data centers, and the wide area network). Such integration can boost system efficiency and performance by finely modulating how traffic enters and traverses the infrastructure. But fully realizing its benefits requires managing complex dynamics of service workloads. For instance, when a group of users are directed to a new proxy, their ongoing sessions continue to arrive at the old proxy, and this load at the old proxy declines gradually. Footprint harnesses such dynamics using a high-fidelity model that is also efficient to solve. Simulations based on a partial deployment of Footprint in Microsoft’s infrastructure show that, compared to the current method, it can carry at least 50% more traffic and reduce user delays by at least 30%.

Hongqiang Harry Liu, Microsoft Research

Raajay Viswanathan, University of Wisconsin—Madison

Matt Calder, University of Southern California

Aditya Akella, University of Wisconsin—Madison

Ratul Mahajan, Microsoft Research

Jitendra Padhye, Microsoft Research

Ming Zhang, Microsoft Research

Open Access Media

USENIX is committed to Open Access to the research presented at our events. Papers and proceedings are freely available to everyone once the event begins. Any video, audio, and/or slides that are posted after the event are also free and open to everyone. Support USENIX and our commitment to Open Access.

BibTeX
@inproceedings {194910,
author = {Hongqiang Harry Liu and Raajay Viswanathan and Matt Calder and Aditya Akella and Ratul Mahajan and Jitendra Padhye and Ming Zhang},
title = {Efficiently Delivering Online Services over Integrated Infrastructure},
booktitle = {13th USENIX Symposium on Networked Systems Design and Implementation (NSDI 16)},
year = {2016},
isbn = {978-1-931971-29-4},
address = {Santa Clara, CA},
pages = {77--90},
url = {https://www.usenix.org/conference/nsdi16/technical-sessions/presentation/liu},
publisher = {USENIX Association},
month = mar
}
Download
Liu PDF
View the slides

Presentation Audio

MP3 Download

Download Audio

  • Log in or    Register to post comments

Silver Sponsors

Bronze Sponsors

Media Sponsors & Industry Partners

Open Access Publishing Partner

© USENIX

  • Privacy Policy
  • Contact Us