Big data tutorial
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The document discusses big data, including what it is, key factors enabling its growth, and examples of tools and techniques used for big data. It also provides examples of big data applications in areas like recommendations, network monitoring, social media analysis, and discusses challenges like dealing with data volume, velocity, and complexity.
![ 6 degrees of separation [Milgram ’60s]
Average distance between two random users is 6.6
90% of nodes can be reached in < 8 hops
Hops Nodes
1 10
2 78
3 396
4 8648
5 3299252
6 28395849
7 79059497
8 52995778
9 10321008
10 1955007
11 518410
12 149945
13 44616
14 13740
15 4476
16 1542
17 536
18 167
19 71
20 29
21 16
22 10
23 3
24 2
25 3](https://image.slidesharecdn.com/bigdatatutorialpart4-150506081841-conversion-gate02/85/Big-data-tutorial-39-320.jpg)
Big data tutorial
- 1. Marko Grobelnik [email protected] Jozef Stefan Institute Ljubljana, Slovenia Stavanger, May 8th 2012
- 2. Introduction ◦ What is Big data? ◦ Why Big-Data? ◦ When Big-Data is really a problem? Techniques Tools Applications Literature
- 5. ‘Big-data’ is similar to ‘Small-data’, but bigger …but having data bigger consequently requires different approaches: ◦ techniques, tools & architectures …to solve: ◦ New problems… ◦ …and old problems in a better way.
- 6. From “Understanding Big Data” by IBM
- 8. Big-Data
- 9. Key enablers for the growth of “Big Data” are: ◦ Increase of storage capacities ◦ Increase of processing power ◦ Availability of data
- 20. NoSQL ◦ DatabasesMongoDB, CouchDB, Cassandra, Redis, BigTable, Hbase, Hypertable, Voldemort, Riak, ZooKeeper MapReduce ◦ Hadoop, Hive, Pig, Cascading, Cascalog, mrjob, Caffeine, S4, MapR, Acunu, Flume, Kafka, Azkaban, Oozie, Greenplum Storage ◦ S3, Hadoop Distributed File System Servers ◦ EC2, Google App Engine, Elastic, Beanstalk, Heroku Processing ◦ R, Yahoo! Pipes, Mechanical Turk, Solr/Lucene, ElasticSearch, Datameer, BigSheets, Tinkerpop
- 22. …when the operations on data are complex: ◦ …e.g. simple counting is not a complex problem ◦ Modeling and reasoning with data of different kinds can get extremely complex Good news about big-data: ◦ Often, because of vast amount of data, modeling techniques can get simpler (e.g. smart counting can replace complex model based analytics)… ◦ …as long as we deal with the scale
- 23. Research areas (such as IR, KDD, ML, NLP, SemWeb, …) are sub- cubes within the data cube Scalability Dynamicity Context Quality Usage
- 26. Good recommendations can make a big difference when keeping a user on a web site ◦ …the key is how rich context model a system is using to select information for a user ◦ Bad recommendations <1% users, good ones >5% users click Contextual personalized recommendations generated in ~20ms
- 27. Domain Sub-domain Page URL URL sub-directories Page Meta Tags Page Title Page Content Named Entities Has Query Referrer Query Referring Domain Referring URL Outgoing URL GeoIP Country GeoIP State GeoIP City Absolute Date Day of the Week Day period Hour of the day User Agent Zip Code State Income Age Gender Country Job Title Job Industry
- 28. Log Files (~100M page clicks per day) User profiles NYT articles Stream of profiles Advertisers Segment Keywords Stock Market Stock Market, mortgage, banking, investors, Wall Street, turmoil, New York Stock Exchange Health diabetes, heart disease, disease, heart, illness Green Energy Hybrid cars, energy, power, model, carbonated, fuel, bulbs, Hybrid cars Hybrid cars, vehicles, model, engines, diesel Travel travel, wine, opening, tickets, hotel, sites, cars, search, restaurant … … Segments Trend Detection System Stream of clicks Trends and updated segments Campaign to sell segments $ Sales
- 29. 50Gb of uncompressed log files 10Gb of compressed log files 0.5Gb of processed log files 50-100M clicks 4-6M unique users 7000 unique pages with more then 100 hits Index size 2Gb Pre-processing & indexing time ◦ ~10min on workstation (4 cores & 32Gb) ◦ ~1hour on EC2 (2 cores & 16Gb)
- 31. Alarms Explorer Server implements three real-time scenarios on the alarms stream: 1. Root-Cause-Analysis – finding which device is responsible for occasional “flood” of alarms 2. Short-Term Fault Prediction – predict which device will fail in next 15mins 3. Long-Term Anomaly Detection – detect unusual trends in the network …system is used in British Telecom Alarms Server Alarms Explorer Server Live feed of data Operator Big board display Telecom Network (~25 000 devices) Alarms ~10-100/sec
- 32. Presented in “Planetary-Scale Views on a Large Instant-Messaging Network” by Jure Leskovec and Eric Horvitz WWW2008
- 33. Observe social and communication phenomena at a planetary scale Largest social network analyzed to date Research questions: How does communication change with user demographics (age, sex, language, country)? How does geography affect communication? What is the structure of the communication network? 33
- 34. We collected the data for June 2006 Log size: 150Gb/day (compressed) Total: 1 month of communication data: 4.5Tb of compressed data Activity over June 2006 (30 days) ◦ 245 million users logged in ◦ 180 million users engaged in conversations ◦ 17,5 million new accounts activated ◦ More than 30 billion conversations ◦ More than 255 billion exchanged messages 34
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- 37. Count the number of users logging in from particular location on the earth 37
- 38. Logins from Europe 38
- 39. 6 degrees of separation [Milgram ’60s] Average distance between two random users is 6.6 90% of nodes can be reached in < 8 hops Hops Nodes 1 10 2 78 3 396 4 8648 5 3299252 6 28395849 7 79059497 8 52995778 9 10321008 10 1955007 11 518410 12 149945 13 44616 14 13740 15 4476 16 1542 17 536 18 167 19 71 20 29 21 16 22 10 23 3 24 2 25 3