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Measurement-based Characterization of a Collection of On-line Games

Measurement-based Characterization of a Collection of On-line Games. Chris Chambers Wu-chang Feng Portland State University. Sambit Sahu Debanjan Saha IBM Research. Present by Zhichun Li. Overview. Background on on-line games Research questions Data sources Observations

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Measurement-based Characterization of a Collection of On-line Games

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  1. Measurement-based Characterizationof a Collection of On-line Games Chris Chambers Wu-chang Feng Portland State University Sambit Sahu Debanjan Saha IBM Research Present by Zhichun Li

  2. Overview • Background on on-line games • Research questions • Data sources • Observations • Characterizing gamers • Predicting game workloads • Sharing infrastructure • Content delivery

  3. Background • On-line games are big business • 60% of all Americans play video games (IDSA report, 2003) • MMO games • 4,000,000 World of Warcraft subscribers paying monthly fees • FPS games • 100,000 Counter-strike players at any given time • RTS games • >8 million Warcraft game copies sold • 200,000 Warcraft 3 games played online / day • Hosting games very costly (30% of revenue)

  4. Research questions • How can we ease the burden of hosting an on-line game? • How tolerant are gamers to bad service? • How predictable is the gaming workload? How tightly can we provision? • Can games be hosted with other interactive applications ?

  5. Data Sources for On-line Gaming • Traditionally difficult to acquire • Game companies don’t want to share data (NDA) • On-line games are costly to host • Measurement research focused on short timescales • Packet sizes, distribution • On the order of hours

  6. Content delivery network for FPS games Individual player information from a Counter-strike server Total population of a variety of games Data Sources for On-line Gaming STEAM Sept 2004 – Apr 2005 6.19TB served 3.14 GB/s average GAMESPY Nov 2002-Jan 2005 550 games 337.8k player years CS.MSHMRO.COM April 2003-April 2004 2,886,992 connections 493,889 unique players

  7. Observations • Observations are specific to our data sources (FPS, public-server) • Hope is techniques can be applied to other game data Gamers Games Content Delivery

  8. Observations • Observations are specific to our data sources (FPS, public-server) • Hope is techniques can be applied to other game data Gamers Games Content Delivery

  9. Gamers as individuals • Gamers are impatient • Negative exponential response to full server • Only 16% will tolerate one retry at connection • Gamers have short attention spans • Average session time: 15 minutes • Many departures after a few minutes

  10. Gamers are not loyal • Why would they be? • Simplicity • Community • Stickiness • Why wouldn’t they be? • Many choices • Measuring: repeated sessions on our server • Results: • 42% return once • 81% return < 10 times • Dedicated players exist

  11. Gamers reveal waning interest • Interest in a game varies per user, but eventually they all quit • Game providers would love to know how to predict this • Measure individual’s play history: session times and intersession times • Compute average player history • Our data is too sparse to predict player interest individually

  12. Gamers reveal waning interest

  13. Game populations • Measuring the Gamespy dataset • Key Questions • What is the distribution of game popularity? • Over what timescales are game populations predictable? • What is the likelihood of multiplexing games with other applications? Gamers Games Content Delivery

  14. Game popularity follows a power law • Measure: top 50 games in rank order once a day • Average rankings over the year • Independent of game popularity fluctuations • Roughly straight line on log-log graph • Popularity between ranks differs by orders of magnitude • MMO’s also seem this way

  15. Game workloads: predictable over short timescales • Games are periodic • Daily / weekly • Variation from week to week very small

  16. Game workloads: unpredictable over long term • No monthly periodicities • Synchronized by external events

  17. Game multiplexing • Is there benefit to hosting multiple games together? • Is there benefit to hosting games and web servers together?

  18. Game loads are synchronized • 4 games • Varying popularities normalized • Little opportunity for multiplexing

  19. Game and web loads are synchronized • Web data source: • One week • International beverage corp. • Half-life vs. web • Little opportunity for multiplexing

  20. Bottom line on multiplexing • Interactive online applications follow the same day/night usage patterns • Multiplexing shows little benefit if latency is a factor Gamers Games Content Delivery

  21. Content delivery • Steam network gives us authentication data + patches • Can estimate patch bandwidth by subtracting scaled player count • Bandwidth is large (30% of week’s CDN b/w) • Future: build a model for patch delivery

  22. Conclusions • Gamers • Not loyal to public-servers • Predictable lifecycles • Games • Hard to provision for popularity • Easy to predict load from week-to-week • Multiplexing games/web or games/games unlikely • Patching • Significant resource consumption

  23. Questions?

  24. Gamers are impatient when connecting • Measure repeated connections to the server (“jamming”) • Two refused connections and then a disconnect => patience for one refused connection • Results: • Negative exponential distribution • Players very impatient

  25. Gamers have short attention spans • Measure session times • Results • Not negative exponential: • high rate of departure for short sessions • Fitted with Weibull • Why? Many servers to choose from

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