Transcript
What's new with Apache Spark?
!
Amsterdam Apache Spark Meetup 2014-11-24 meetup.com/Amsterdam-Spark/events/207220772/
Paco Nathan @pacoid
What is Spark?
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Developed in 2009 at UC Berkeley AMPLab, then open sourced in 2010, Spark has since become one of the largest OSS communities in big data, with over 200 contributors in 50+ organizations
What is Spark?
spark.apache.org
“Organizations that are looking at big data challenges – including collection, ETL, storage, exploration and analytics – should consider Spark for its in-memory performance and the breadth of its model. It supports advanced analytics solutions on Hadoop clusters, including the iterative model required for machine learning and graph analysis.”
Gartner, Advanced Analytics and Data Science (2014)
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What is Spark?
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Spark Core is the general execution engine for the Spark platform that other functionality is built atop: !• in-memory computing capabilities deliver speed
• general execution model supports wide variety of use cases
• ease of development – native APIs in Java, Scala, Python (+ SQL, Clojure, R)
What is Spark?
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What is Spark?
WordCount in 3 lines of Spark
WordCount in 50+ lines of Java MR
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Sustained exponential growth, as one of the most active Apache projects ohloh.net/orgs/apache
What is Spark?
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databricks.com/blog/2014/11/05/spark-officially-sets-a-new-record-in-large-scale-sorting.html
TL;DR: Smashing The Previous Petabyte Sort Record
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A Brief History
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Theory, Eight Decades Ago: what can be computed?
Haskell Curry haskell.org
Alonso Churchwikipedia.org
A Brief History: Functional Programming for Big Data
John Backusacm.org
David Turnerwikipedia.org
Praxis, Four Decades Ago: algebra for applicative systems
Pattie MaesMIT Media Lab
Reality, Two Decades Ago: machine data from web apps
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A Brief History: Functional Programming for Big Data
circa late 1990s: explosive growth e-commerce and machine data implied that workloads could not fit on a single computer anymore…
notable firms led the shift to horizontal scale-out on clusters of commodity hardware, especially for machine learning use cases at scale
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RDBMS
SQL Queryresult sets
recommenders+
classifiersWeb Apps
customertransactions
AlgorithmicModeling
Logs
eventhistory
aggregation
dashboards
Product
EngineeringUX
Stakeholder Customers
DW ETL
Middleware
servletsmodels
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Amazon “Early Amazon: Splitting the website” – Greg Linden glinden.blogspot.com/2006/02/early-amazon-splitting-website.html !eBay “The eBay Architecture” – Randy Shoup, Dan Pritchett addsimplicity.com/adding_simplicity_an_engi/2006/11/you_scaled_your.html addsimplicity.com.nyud.net:8080/downloads/eBaySDForum2006-11-29.pdf !Inktomi (YHOO Search) “Inktomi’s Wild Ride” – Erik Brewer (0:05:31 ff) youtu.be/E91oEn1bnXM !Google “Underneath the Covers at Google” – Jeff Dean (0:06:54 ff) youtu.be/qsan-GQaeyk perspectives.mvdirona.com/2008/06/11/JeffDeanOnGoogleInfrastructure.aspx !MIT Media Lab “Social Information Filtering for Music Recommendation” – Pattie Maes pubs.media.mit.edu/pubs/papers/32paper.ps ted.com/speakers/pattie_maes.html 13
A Brief History: Functional Programming for Big Data
circa 2002: mitigate risk of large distributed workloads lost due to disk failures on commodity hardware…
Google File System Sanjay Ghemawat, Howard Gobioff, Shun-Tak Leung research.google.com/archive/gfs.html !MapReduce: Simplified Data Processing on Large Clusters Jeffrey Dean, Sanjay Ghemawat research.google.com/archive/mapreduce.html
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TL;DR: Generational trade-offs for handling Big Compute
Photo from John Wilkes’ keynote talk @ #MesosCon 2014
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TL;DR: Generational trade-offs for handling Big Compute
CheapStorage
CheapMemory
CheapNetwork
recompute
replicate
reference
(RDD)
(DFS)
(URI)
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A Brief History: Functional Programming for Big Data
2002
2002MapReduce @ Google
2004MapReduce paper
2006Hadoop @ Yahoo!
2004 2006 2008 2010 2012 2014
2014Apache Spark top-level
2010Spark paper
2008Hadoop Summit
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A Brief History: Functional Programming for Big Data
MR doesn’t compose well for large applications, and so specialized systems emerged as workarounds
MapReduce
General Batch Processing Specialized Systems: iterative, interactive, streaming, graph, etc.
Pregel Giraph
Dremel Drill
TezImpala
GraphLab
StormS4
F1
MillWheel
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Spark: Cluster Computing with Working Sets Matei Zaharia, Mosharaf Chowdhury, Michael Franklin, Scott Shenker, Ion Stoica people.csail.mit.edu/matei/papers/2010/hotcloud_spark.pdf !Resilient Distributed Datasets: A Fault-Tolerant Abstraction for In-Memory Cluster Computing Matei Zaharia, Mosharaf Chowdhury, Tathagata Das, Ankur Dave, Justin Ma, Murphy McCauley, Michael Franklin, Scott Shenker, Ion Stoica usenix.org/system/files/conference/nsdi12/nsdi12-final138.pdf
circa 2010: a unified engine for enterprise data workflows, based on commodity hardware a decade later…
A Brief History: Functional Programming for Big Data
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In addition to simple map and reduce operations, Spark supports SQL queries, streaming data, and complex analytics such as machine learning and graph algorithms out-of-the-box.
Better yet, combine these capabilities seamlessly into one integrated workflow…
A Brief History: Functional Programming for Big Data
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• generalized patterns ⇒ unified engine for many use cases
• lazy evaluation of the lineage graph ⇒ reduces wait states, better pipelining
• generational differences in hardware ⇒ off-heap use of large memory spaces
• functional programming / ease of use ⇒ reduction in cost to maintain large apps
• lower overhead for starting jobs
• less expensive shuffles
A Brief History: Key distinctions for Spark vs. MapReduce
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Spark Deconstructed
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// load error messages from a log into memory!// then interactively search for various patterns!// https://gist.github.com/ceteri/8ae5b9509a08c08a1132!!// base RDD!val lines = sc.textFile("hdfs://...")!!// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()!!// action 1!messages.filter(_.contains("mysql")).count()!!// action 2!messages.filter(_.contains("php")).count()
Spark Deconstructed: Log Mining Example
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Driver
Worker
Worker
Worker
Spark Deconstructed: Log Mining Example
We start with Spark running on a cluster… submitting code to be evaluated on it:
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// base RDD!val lines = sc.textFile("hdfs://...")!!// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()!!// action 1!messages.filter(_.contains("mysql")).count()!!// action 2!messages.filter(_.contains("php")).count()
Spark Deconstructed: Log Mining Example
discussing the other part
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Spark Deconstructed: Log Mining Example
scala> messages.toDebugString!res5: String = !MappedRDD[4] at map at <console>:16 (3 partitions)! MappedRDD[3] at map at <console>:16 (3 partitions)! FilteredRDD[2] at filter at <console>:14 (3 partitions)! MappedRDD[1] at textFile at <console>:12 (3 partitions)! HadoopRDD[0] at textFile at <console>:12 (3 partitions)
At this point, take a look at the transformed RDD operator graph:
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Driver
Worker
Worker
Worker
Spark Deconstructed: Log Mining Example
// base RDD!val lines = sc.textFile("hdfs://...")!!// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()!!// action 1!messages.filter(_.contains("mysql")).count()!!// action 2!messages.filter(_.contains("php")).count()discussing the other part
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Driver
Worker
Worker
Worker
block 1
block 2
block 3
Spark Deconstructed: Log Mining Example
// base RDD!val lines = sc.textFile("hdfs://...")!!// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()!!// action 1!messages.filter(_.contains("mysql")).count()!!// action 2!messages.filter(_.contains("php")).count()discussing the other part
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Driver
Worker
Worker
Worker
block 1
block 2
block 3
Spark Deconstructed: Log Mining Example
// base RDD!val lines = sc.textFile("hdfs://...")!!// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()!!// action 1!messages.filter(_.contains("mysql")).count()!!// action 2!messages.filter(_.contains("php")).count()discussing the other part
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Driver
Worker
Worker
Worker
block 1
block 2
block 3
readHDFSblock
readHDFSblock
readHDFSblock
Spark Deconstructed: Log Mining Example
// base RDD!val lines = sc.textFile("hdfs://...")!!// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()!!// action 1!messages.filter(_.contains("mysql")).count()!!// action 2!messages.filter(_.contains("php")).count()discussing the other part
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Driver
Worker
Worker
Worker
block 1
block 2
block 3
cache 1
cache 2
cache 3
process,cache data
process,cache data
process,cache data
Spark Deconstructed: Log Mining Example
// base RDD!val lines = sc.textFile("hdfs://...")!!// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()!!// action 1!messages.filter(_.contains("mysql")).count()!!// action 2!messages.filter(_.contains("php")).count()discussing the other part
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Driver
Worker
Worker
Worker
block 1
block 2
block 3
cache 1
cache 2
cache 3
Spark Deconstructed: Log Mining Example
// base RDD!val lines = sc.textFile("hdfs://...")!!// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()!!// action 1!messages.filter(_.contains("mysql")).count()!!// action 2!messages.filter(_.contains("php")).count()discussing the other part
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// base RDD!val lines = sc.textFile("hdfs://...")!!// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()!!// action 1!messages.filter(_.contains("mysql")).count()!!// action 2!messages.filter(_.contains("php")).count()
Driver
Worker
Worker
Worker
block 1
block 2
block 3
cache 1
cache 2
cache 3
Spark Deconstructed: Log Mining Example
discussing the other part
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Driver
Worker
Worker
Worker
block 1
block 2
block 3
cache 1
cache 2
cache 3
processfrom cache
processfrom cache
processfrom cache
Spark Deconstructed: Log Mining Example
// base RDD!val lines = sc.textFile("hdfs://...")!!// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()!!// action 1!messages.filter(_.contains(“mysql")).count()!!// action 2!messages.filter(_.contains("php")).count()
discussing the other part
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Driver
Worker
Worker
Worker
block 1
block 2
block 3
cache 1
cache 2
cache 3
Spark Deconstructed: Log Mining Example
// base RDD!val lines = sc.textFile("hdfs://...")!!// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()!!// action 1!messages.filter(_.contains(“mysql")).count()!!// action 2!messages.filter(_.contains("php")).count()
discussing the other part
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Looking at the RDD transformations and actions from another perspective…
Spark Deconstructed:
action value
RDDRDDRDD
transformations RDD
// load error messages from a log into memory!
// then interactively search for various patterns!
// https://gist.github.com/ceteri/8ae5b9509a08c08a1132!!// base RDD!
val lines = sc.textFile("hdfs://...")!!// transformed RDDs!
val errors = lines.filter(_.startsWith("ERROR"))!
val messages = errors.map(_.split("\t")).map(r => r(1))!
messages.cache()!!// action 1!
messages.filter(_.contains("mysql")).count()!!// action 2!
messages.filter(_.contains("php")).count()
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Spark Deconstructed:
RDD
// base RDD!val lines = sc.textFile("hdfs://...")
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RDDRDDRDD
transformations RDD
Spark Deconstructed:
// transformed RDDs!val errors = lines.filter(_.startsWith("ERROR"))!val messages = errors.map(_.split("\t")).map(r => r(1))!messages.cache()
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action value
RDDRDDRDD
transformations RDD
Spark Deconstructed:
// action 1!messages.filter(_.contains("mysql")).count()
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Unifying the Pieces
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// http://spark.apache.org/docs/latest/sql-programming-guide.html!!val sqlContext = new org.apache.spark.sql.SQLContext(sc)!import sqlContext._!!// define the schema using a case class!case class Person(name: String, age: Int)!!// create an RDD of Person objects and register it as a table!val people = sc.textFile("examples/src/main/resources/people.txt").map(_.split(",")).map(p => Person(p(0), p(1).trim.toInt))!!people.registerAsTempTable("people")!!// SQL statements can be run using the SQL methods provided by sqlContext!val teenagers = sql("SELECT name FROM people WHERE age >= 13 AND age <= 19")!!// results of SQL queries are SchemaRDDs and support all the !// normal RDD operations…!// columns of a row in the result can be accessed by ordinal!teenagers.map(t => "Name: " + t(0)).collect().foreach(println)
Unifying the Pieces: Spark SQL
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// http://spark.apache.org/docs/latest/streaming-programming-guide.html!!import org.apache.spark.streaming._!import org.apache.spark.streaming.StreamingContext._!!// create a StreamingContext with a SparkConf configuration!val ssc = new StreamingContext(sparkConf, Seconds(10))!!// create a DStream that will connect to serverIP:serverPort!val lines = ssc.socketTextStream(serverIP, serverPort)!!// split each line into words!val words = lines.flatMap(_.split(" "))!!// count each word in each batch!val pairs = words.map(word => (word, 1))!val wordCounts = pairs.reduceByKey(_ + _)!!// print a few of the counts to the console!wordCounts.print()!!ssc.start() // start the computation!ssc.awaitTermination() // wait for the computation to terminate
Unifying the Pieces: Spark Streaming
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MLI: An API for Distributed Machine Learning Evan Sparks, Ameet Talwalkar, et al. International Conference on Data Mining (2013) http://arxiv.org/abs/1310.5426
Unifying the Pieces: MLlib
// http://spark.apache.org/docs/latest/mllib-guide.html!!val train_data = // RDD of Vector!val model = KMeans.train(train_data, k=10)!!// evaluate the model!val test_data = // RDD of Vector!test_data.map(t => model.predict(t)).collect().foreach(println)!
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// http://spark.apache.org/docs/latest/graphx-programming-guide.html!!import org.apache.spark.graphx._!import org.apache.spark.rdd.RDD! !case class Peep(name: String, age: Int)! !val vertexArray = Array(! (1L, Peep("Kim", 23)), (2L, Peep("Pat", 31)),! (3L, Peep("Chris", 52)), (4L, Peep("Kelly", 39)),! (5L, Peep("Leslie", 45))! )!val edgeArray = Array(! Edge(2L, 1L, 7), Edge(2L, 4L, 2),! Edge(3L, 2L, 4), Edge(3L, 5L, 3),! Edge(4L, 1L, 1), Edge(5L, 3L, 9)! )! !val vertexRDD: RDD[(Long, Peep)] = sc.parallelize(vertexArray)!val edgeRDD: RDD[Edge[Int]] = sc.parallelize(edgeArray)!val g: Graph[Peep, Int] = Graph(vertexRDD, edgeRDD)! !val results = g.triplets.filter(t => t.attr > 7)! !for (triplet <- results.collect) {! println(s"${triplet.srcAttr.name} loves ${triplet.dstAttr.name}")!}
Unifying the Pieces: GraphX
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Spark Streaming
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Let’s consider the top-level requirements for a streaming framework:
• clusters scalable to 100’s of nodes
• low-latency, in the range of seconds(meets 90% of use case needs)
• efficient recovery from failures(which is a hard problem in CS)
• integrates with batch: many co’s run the same business logic both online+offline
Spark Streaming: Requirements
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Therefore, run a streaming computation as: a series of very small, deterministic batch jobs
!• Chop up the live stream into
batches of X seconds
• Spark treats each batch of data as RDDs and processes them using RDD operations
• Finally, the processed results of the RDD operations are returned in batches
Spark Streaming: Requirements
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Therefore, run a streaming computation as: a series of very small, deterministic batch jobs
!• Batch sizes as low as ½ sec,
latency of about 1 sec
• Potential for combining batch processing and streaming processing in the same system
Spark Streaming: Requirements
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Data can be ingested from many sources: Kafka, Flume, Twitter, ZeroMQ, TCP sockets, etc.
Results can be pushed out to filesystems, databases, live dashboards, etc.
Spark’s built-in machine learning algorithms and graph processing algorithms can be applied to data streams
Spark Streaming: Integration
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2012 project started
2013 alpha release (Spark 0.7)
2014 graduated (Spark 0.9)
Spark Streaming: Timeline
Discretized Streams: A Fault-Tolerant Model for Scalable Stream Processing Matei Zaharia, Tathagata Das, Haoyuan Li, Timothy Hunter, Scott Shenker, Ion Stoica Berkeley EECS (2012-12-14) www.eecs.berkeley.edu/Pubs/TechRpts/2012/EECS-2012-259.pdf
project lead: Tathagata Das @tathadas
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Typical kinds of applications:
• datacenter operations
• web app funnel metrics
• ad optimization
• anti-fraud
• various telematics
and much much more!
Spark Streaming: Requirements
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Programming Guidespark.apache.org/docs/latest/streaming-programming-guide.html
TD @ Spark Summit 2014 youtu.be/o-NXwFrNAWQ?list=PLTPXxbhUt-YWGNTaDj6HSjnHMxiTD1HCR
“Deep Dive into Spark Streaming”slideshare.net/spark-project/deep-divewithsparkstreaming-tathagatadassparkmeetup20130617
Spark Reference Applicationsdatabricks.gitbooks.io/databricks-spark-reference-applications/
Spark Streaming: Some Excellent Resources
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import org.apache.spark.streaming._!import org.apache.spark.streaming.StreamingContext._!!// create a StreamingContext with a SparkConf configuration!val ssc = new StreamingContext(sparkConf, Seconds(10))!!// create a DStream that will connect to serverIP:serverPort!val lines = ssc.socketTextStream(serverIP, serverPort)!!// split each line into words!val words = lines.flatMap(_.split(" "))!!// count each word in each batch!val pairs = words.map(word => (word, 1))!val wordCounts = pairs.reduceByKey(_ + _)!!// print a few of the counts to the console!wordCounts.print()!!ssc.start()!ssc.awaitTermination()
Quiz: name the bits and pieces…
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A Look Ahead…
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1. Greater Stability and Robustness
• improved high availability via write-ahead logs
• enabled as an optional feature for Spark 1.2
• NB: Spark Standalone can already restart driver
• excellent discussion of fault-tolerance (2012): cs.duke.edu/~kmoses/cps516/dstream.html
• stay tuned: meetup.com/spark-users/events/218108702/
A Look Ahead…
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2. Support for more environments, i.e., beyond Hadoop
• three use cases currently depend on HDFS
• those are being abstracted out
• could then use Cassandra, etc.
A Look Ahead…
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3. Improved support for Python
• e.g., Kafka is not exposed through Python yet (next release goal)
A Look Ahead…
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4. Better flow control
• a somewhat longer-term goal, plus it is a hard problem in general
• poses interesting challenges beyond what other streaming systems have faced
A Look Ahead…
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Demos
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brand new Python support for Streaming in 1.2 github.com/apache/spark/tree/master/examples/src/main/python/streaming
Twitter Streaming Language Classifier databricks.gitbooks.io/databricks-spark-reference-applications/content/twitter_classifier/README.html !!For more Spark learning resources online: databricks.com/spark-training-resources
Demos, as time permits:
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import sys!from pyspark import SparkContext!from pyspark.streaming import StreamingContext!!sc = SparkContext(appName="PyStreamNWC", master="local[*]")!ssc = StreamingContext(sc, Seconds(5))!!lines = ssc.socketTextStream(sys.argv[1], int(sys.argv[2]))!!counts = lines.flatMap(lambda line: line.split(" ")) \! .map(lambda word: (word, 1)) \! .reduceByKey(lambda a, b: a+b)!!counts.pprint()!!ssc.start()!ssc.awaitTermination()
Demo: PySpark Streaming Network Word Count
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import sys!from pyspark import SparkContext!from pyspark.streaming import StreamingContext!!def updateFunc (new_values, last_sum):! return sum(new_values) + (last_sum or 0)!!sc = SparkContext(appName="PyStreamNWC", master="local[*]")!ssc = StreamingContext(sc, Seconds(5))!ssc.checkpoint("checkpoint")!!lines = ssc.socketTextStream(sys.argv[1], int(sys.argv[2]))!!counts = lines.flatMap(lambda line: line.split(" ")) \! .map(lambda word: (word, 1)) \! .updateStateByKey(updateFunc) \! .transform(lambda x: x.sortByKey())!!counts.pprint()!!ssc.start()!ssc.awaitTermination()
Demo: PySpark Streaming Network Word Count - Stateful
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Complementary Frameworks
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Spark Integrations:
Discover Insights
Clean Up Your Data
RunSophisticated
Analytics
Integrate With Many Other
Systems
Use Lots of Different Data Sources
cloud-based notebooks… ETL… the Hadoop ecosystem… widespread use of PyData… advanced analytics in streaming… rich custom search… web apps for data APIs… low-latency + multi-tenancy…
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Databricks Cloud databricks.com/blog/2014/07/14/databricks-cloud-making-big-data-easy.html youtube.com/watch?v=dJQ5lV5Tldw#t=883
Spark Integrations: Unified platform for building Big Data pipelines
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unified compute
Spark + Hadoop + HBase + etc. mapr.com/products/apache-spark
vision.cloudera.com/apache-spark-in-the-apache-hadoop-ecosystem/
hortonworks.com/hadoop/spark/
databricks.com/blog/2014/05/23/pivotal-hadoop-integrates-the-full-apache-spark-stack.html
Spark Integrations: The proverbial Hadoop ecosystem
hadoop ecosystem
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unified compute
Spark + PyData spark-summit.org/2014/talk/A-platform-for-large-scale-neuroscience
cwiki.apache.org/confluence/display/SPARK/PySpark+Internals
Spark Integrations: Leverage widespread use of Python
Py Data
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unified compute
Kafka + Spark + Cassandra datastax.com/documentation/datastax_enterprise/4.5/datastax_enterprise/spark/sparkIntro.html http://helenaedelson.com/?p=991
github.com/datastax/spark-cassandra-connector
github.com/dibbhatt/kafka-spark-consumer
columnar key-valuedata streams
Spark Integrations: Advanced analytics for streaming use cases
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unified compute
Spark + ElasticSearch databricks.com/blog/2014/06/27/application-spotlight-elasticsearch.html
elasticsearch.org/guide/en/elasticsearch/hadoop/current/spark.html
spark-summit.org/2014/talk/streamlining-search-indexing-using-elastic-search-and-spark
document search
Spark Integrations: Rich search, immediate insights
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unified compute
Spark + Play typesafe.com/blog/apache-spark-and-the-typesafe-reactive-platform-a-match-made-in-heaven
web apps
Spark Integrations: Building data APIs with web apps
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unified compute
cluster resources
Spark + Mesos spark.apache.org/docs/latest/running-on-mesos.html
+ Mesosphere + Google Cloud Platform ceteri.blogspot.com/2014/09/spark-atop-mesos-on-google-cloud.html
Spark Integrations: The case for multi-tenancy
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Because Use Cases
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Because Use Cases: +40 known production use cases
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Spark at Twitter: Evaluation & Lessons Learnt Sriram Krishnan slideshare.net/krishflix/seattle-spark-meetup-spark-at-twitter
• Spark can be more interactive, efficient than MR
• Support for iterative algorithms and caching
• More generic than traditional MapReduce
• Why is Spark faster than Hadoop MapReduce?
• Fewer I/O synchronization barriers
• Less expensive shuffle
• More complex the DAG, greater the performance improvement
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Because Use Cases: Twitter
Using Spark to Ignite Data Analytics ebaytechblog.com/2014/05/28/using-spark-to-ignite-data-analytics/
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Because Use Cases: eBay/PayPal
Hadoop and Spark Join Forces in Yahoo Andy Feng spark-summit.org/talk/feng-hadoop-and-spark-join-forces-at-yahoo/
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Because Use Cases: Yahoo!
Collaborative Filtering with Spark Chris Johnson slideshare.net/MrChrisJohnson/collaborative-filtering-with-spark
• collab filter (ALS) for music recommendation
• Hadoop suffers from I/O overhead
• show a progression of code rewrites, converting a Hadoop-based app into efficient use of Spark
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Because Use Cases: Spotify
Because Use Cases: Sharethrough
Sharethrough Uses Spark Streaming to Optimize Bidding in Real Time Russell Cardullo, Michael Ruggier 2014-03-25 databricks.com/blog/2014/03/25/sharethrough-and-spark-streaming.html
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• the profile of a 24 x 7 streaming app is different than an hourly batch job…
• take time to validate output against the input…
• confirm that supporting objects are being serialized…
• the output of your Spark Streaming job is only as reliable as the queue that feeds Spark…
• monoids…
Because Use Cases: Ooyala
Productionizing a 24/7 Spark Streaming service on YARN Issac Buenrostro, Arup Malakar 2014-06-30 spark-summit.org/2014/talk/productionizing-a-247-spark-streaming-service-on-yarn
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• state-of-the-art ingestion pipeline, processing over two billion video events a day
• how do you ensure 24/7 availability and fault tolerance?
• what are the best practices for Spark Streaming and its integration with Kafka and YARN?
• how do you monitor and instrument the various stages of the pipeline?
Because Use Cases: Viadeo
Spark Streaming As Near Realtime ETL Djamel Zouaoui 2014-09-18 slideshare.net/DjamelZouaoui/spark-streaming
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• Spark Streaming is topology-free
• workers and receivers are autonomous and independent
• paired with Kafka, RabbitMQ
• 8 machines / 120 cores
• use case for recommender system
• issues: how to handle lost data, serialization
Because Use Cases: Stratio
Stratio Streaming: a new approach to Spark Streaming David Morales, Oscar Mendez 2014-06-30 spark-summit.org/2014/talk/stratio-streaming-a-new-approach-to-spark-streaming
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• Stratio Streaming is the union of a real-time messaging bus with a complex event processing engine using Spark Streaming
• allows the creation of streams and queries on the fly
• paired with Siddhi CEP engine and Apache Kafka
• added global features to the engine such as auditing and statistics
Because Use Cases: Guavus
Guavus Embeds Apache Spark into its Operational Intelligence Platform Deployed at the World’s Largest Telcos Eric Carr 2014-09-25 databricks.com/blog/2014/09/25/guavus-embeds-apache-spark-into-its-operational-intelligence-platform-deployed-at-the-worlds-largest-telcos.html
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• 4 of 5 top mobile network operators, 3 of 5 top Internet backbone providers, 80% MSOs in NorAm
• analyzing 50% of US mobile data traffic, +2.5 PB/day
• latency is critical for resolving operational issues before they cascade: 2.5 MM transactions per second
• “analyze first” not “store first ask questions later”
Why Spark is the Next Top (Compute) Model Dean Wampler slideshare.net/deanwampler/spark-the-next-top-compute-model
• Hadoop: most algorithms are much harder to implement in this restrictive map-then-reduce model
• Spark: fine-grained “combinators” for composing algorithms
• slide #67, any questions?
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Because Use Cases: Typesafe
Installing the Cassandra / Spark OSS Stack Al Tobeytobert.github.io/post/2014-07-15-installing-cassandra-spark-stack.html
• install+config for Cassandra and Spark together
• spark-cassandra-connector integration
• examples show a Spark shell that can access tables in Cassandra as RDDs with types pre-mapped and ready to go
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Because Use Cases: DataStax
One platform for all: real-time, near-real-time, and offline video analytics on Spark Davis Shepherd, Xi Liu spark-summit.org/talk/one-platform-for-all-real-time-near-real-time-and-offline-video-analytics-on-spark
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Because Use Cases: Conviva
Resources
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Apache Spark developer certificate program
• http://oreilly.com/go/sparkcert
• defined by Spark experts @Databricks
• assessed by O’Reilly Media
• establishes the bar for Spark expertise
certification:
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community:
spark.apache.org/community.html
video+slide archives: spark-summit.org
events worldwide: goo.gl/2YqJZK
resources: databricks.com/spark-training-resources
workshops: databricks.com/spark-training
Intro to Spark
SparkAppDev
SparkDevOps
SparkDataSci
Distributed ML on Spark
Streaming Apps on Spark
Spark + Cassandra
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books:
Fast Data Processing with Spark Holden Karau Packt (2013) shop.oreilly.com/product/9781782167068.do
Spark in Action Chris FreglyManning (2015*) sparkinaction.com/
Learning Spark Holden Karau, Andy Konwinski, Matei ZahariaO’Reilly (2015*) shop.oreilly.com/product/0636920028512.do
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events:Big Data Spain Madrid, Nov 17-18 bigdataspain.org
Strata EUBarcelona, Nov 19-21 strataconf.com/strataeu2014 Data Day Texas Austin, Jan 10 datadaytexas.com Strata CA San Jose, Feb 18-20 strataconf.com/strata2015 Spark Summit East NYC, Mar 18-19 spark-summit.org/east
Strata EULondon, May 5-7 strataconf.com/big-data-conference-uk-2015 Spark Summit 2015 SF, Jun 15-17 spark-summit.org
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presenter:
Just Enough Math O’Reilly, 2014
justenoughmath.compreview: youtu.be/TQ58cWgdCpA
monthly newsletter for updates, events, conf summaries, etc.: liber118.com/pxn/
Enterprise Data Workflows with Cascading O’Reilly, 2013
shop.oreilly.com/product/0636920028536.do
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