Oracle Advanced Analytics Oracle R Enterprise & Oracle Data Mining R

Oracle Advanced Analytics Oracle R Enterprise & Oracle Data Mining R

The following is intended to outline our general product direction. It is intended for information purposes only, and may not be incorporated into any contract. It is not a commitment to deliver any material, code, or functionality, and should not be relied upon in making purchasing decisions. The development, release, and timing of any features or functionality described for Oracle’s products remains at the sole discretion of Oracle. 2 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

USE CASE 8: ELECTRICAL CONSUMPTION Short Description : – CERN ENS (Electrical Network Supervisor) system archives values from measurements – Around 12000 every 10 minutes – The storage is managed by an external company on an instance of Oracle relational database. – Nevertheless, the DB instance is installed on one dedicated server connected to CERN Technical Network Issues: – Make data aggregation (by time and by families of measurements) – Electricity load forecast by system (families of measurements) using the historical data – Make the result obtained accessible to CERN users from General Purpose Network 3 Copyright 2012, Oracle and/or its affiliates. All rights reserved. Insert Information Protection Policy Classification from Slide 13

Structured Oracle Technology mapped to Analytics Landscape Unstructured Semistructured Master & Reference Oracle 12g Transactions Oracle Data Integrator Oracle Times Ten Files Oracle Golden Gate Machine Generated Oracle NoSQL Oracle Hadoop HDFS Text, Image, Video, Audio Data Acquire 4 Copyright 2012, Oracle and/or its affiliates. All rights reserved. Oracle 12g Oracle Hadoop MapReduce Organize Insert Information Protection Policy Classification from Slide 13 Endeca MDEX Oracle Essbase Analyze Oracle R Enterprise & Oracle Data Mining Oracle BI Enterprise Oracle Real Time Decisions Oracle Endeca Information Discovery Decide

Oracle Advanced Analytics Option—Agenda Extending the Database into a Comprehensive Advanced Analytics Platform Oracle Data Mining – SQL & PL/SQL focused in-database data mining and predictive analytics Oracle R Enterprise – Integrates Open Source R with the Oracle Database R 5 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Oracle Advanced Analytics Option Transforming the Database into a Comprehensive Advanced Analytics Platform Oracle Advanced Analytics Option enables companies to "bring the algorithms to the data" vs. extracting the data to specialized and expensive dedicated statistical and data mining servers R Oracle Advanced Analytics Option includes: – Oracle Data Mining SQL & PL/SQL focused in-database data mining and predictive analytics – Oracle R Enterprise Integrates the Open-Source Statistical Environment R with the Oracle Database Data movement is eliminated or dramatically reduced while analytical and compute intensive operations are performed inside the database 6 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Oracle Data Mining Building Predictive Analytics Applications Oracle Data Mining provides 12 powerful in-database data mining algorithms for big data analytics as a native feature of the database – Designed for or big data problems involving discovering patterns and relationships in large amounts of data and oftentimes making predictions based on those patterns, Oracle Data Mining allows data analysts and data miners to mine star schemas, transactional data and unstructured data stored inside the database, build predictive models and apply them to data inside the database--all without moving data. Developers can use the Oracle Data Miner extension to SQL Developer to develop, build, evaluate, share and automate analytical workflows to solve important data driven business problems. Developers can use the SQL APIs and PL/SQL to build applications to automate knowledge discovery – 7 The Oracle Data Miner GUI generates SQL code that application developers can use to develop and deploy SQL and PL/SQL based automated predictive analytics applications that run natively inside the Oracle Database. Copyright 2012, Oracle and/or its affiliates. All rights reserved.

What is Data Mining? Automatically finds hidden patterns, discover new insights, and make predictions Data Mining can provide valuable results: Predict customer behavior (Classification) Predict or estimate a value (Regression) Segment a population (Clustering) Identify factors more associated with a business problem (Attribute Importance) Find profiles of targeted people or items (Decision Trees) Determine important relationships and “market baskets” within the population (Associations) Find fraudulent or “rare events” (Anomaly Detection) 8 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

SQL Developer 3.0/Oracle Data Miner 11g Release 2 GUI Graphical User Interface for data analyst SQL Developer Extension (OTN download) Explore data—discover new insights Build and evaluate data mining models Apply predictive models Share analytical workflows Deploy SQL Apply code/scripts 9 Copyright 2012, Oracle and/or its affiliates. All rights reserved. New GUI

Oracle Data Miner Nodes (Partial List) Tables and Views Transformations Explore Data Modeling Text 10 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Oracle Data Miner 11g Release 2 GUI Churn Demo—Simple Conceptual Workflow Churn models to product and “profile” likely churners 11 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Oracle Data Miner 11g Release 2 GUI Simple Conceptual Workflow Clustering analysis to discover customer segments based on behavior, demograhics, plans, equipment, etc. 12 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Fraud Prediction Demo drop table CLAIMS SET; exec dbms data mining.drop model('CLAIMSMODEL'); create table CLAIMS SET (setting name varchar2(30), setting value varchar2(4000)); insert into CLAIMS SET values ('ALGO NAME','ALGO SUPPORT VECTOR MACHINES'); insert into CLAIMS SET values ('PREP AUTO','ON'); commit; POLICYNUMBER -----------6532 2749 3440 654 12650 begin dbms data mining.create model('CLAIMSMODEL', 'CLASSIFICATION', 'CLAIMS', 'POLICYNUMBER', null, 'CLAIMS SET'); end; / Automated Monthly “Application”! Just add: Create View CLAIMS2 30 As Select * from CLAIMS2 Where mydate SYSDATE – 30 -- Top 5 most suspicious fraud policy holder claims select * from (select POLICYNUMBER, round(prob fraud*100,2) percent fraud, rank() over (order by prob fraud desc) rnk from (select POLICYNUMBER, prediction probability(CLAIMSMODEL, '0' using *) prob fraud from CLAIMS where PASTNUMBEROFCLAIMS in ('2to4', 'morethan4'))) where rnk 5 order by percent fraud desc; 13 Copyright 2012, Oracle and/or its affiliates. All rights reserved. PERCENT FRAUD ------------64.78 64.17 63.22 63.1 62.36 RNK ---------1 2 3 4 5

Exadata Data Mining 11g Release 2 “DM Scoring” Pushed to Storage! Faster In 11g Release 2, SQL predicates and Oracle Data Mining models are pushed to storage level for execution For example, find the US customers likely to churn: select cust id ecuted in Exadata from customers Scoring function ex where region ‘US’ and prediction probability(churnmod,‘Y’ using *) 0.8; 14 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Oracle Communications Industry Data Model Better Information for OBIEE Dashboards Oracle Data Mining identifies key contributors to customer churn 15 Copyright 2012, Oracle and/or its affiliates. All rights reserved. Oracle Data Mining discovers different profiles of churning customers and their profile, both critical to developing a proactive response to reduce churn.

Oracle Communications Industry Data Model Example Better Information for OBIEE Dashboards ODM’s predictions & probabilities are available in the Database for reporting using Oracle BI EE and other tools 16 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Oracle Data Mining Algorithms Problem Classification Regression Anomaly Detection Attribute Importance Association Rules A1 A2 A3 A4 A5 A6 A7 17 Applicability Logistic Regression (GLM) Decision Trees Naïve Bayes Support Vector Machine Classical statistical technique Popular / Rules / transparency Embedded app Wide / narrow data / text Multiple Regression (GLM) Support Vector Machine Classical statistical technique Wide / narrow data / text One Class SVM Lack examples of target field Minimum Description Length (MDL) Apriori Hierarchical K-Means Hierarchical O-Cluster Clustering Feature Extraction Algorithm F1 F2 F3 F4 Copyright 2012, Oracle and/or its affiliates. All rights reserved. Nonnegative Matrix Factorization Attribute reduction Identify useful data Reduce data noise Market basket analysis Link analysis Product grouping Text mining Gene and protein analysis Text analysis Feature reduction

Learn More Oracle Data Mining on OTN Oracle Data Mining Blog Oracle Data Mining 18 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

R Statistical Programming Language Open source language and environment Used for statistical computing and graphics Strength in easily producing publication-quality plots Highly extensible with open source community R packages 19 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Growing Popularity R’s rapid adoption over several years has earned its reputation as a new statistical software standard – Rival to SAS and SPSS While it is difficult to calculate exactly how many people use R, those most familiar with the software estimate that close to 250,000 people work with it regularly. “Data Analysts Captivated by R’s Power”, New York Times, Jan 6, 2009 http://www.r-project.org/ 20 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Typical R Approach Statistical and advanced analyses are run and stored on the user’s laptop 21 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

What Are ’s Challenges? 1. R is memory constrained – R processing is single threaded - does not exploit available compute infrastructure – R lacks industrial strength for enterprise use cases 2. R has lacked mindshare in Enterprise market – R is still met with caution by the long established SAS and IBM/SPSS statistical community However, major university (e.g. Yale ) Statistics courses now taught in R The FDA has recently shown indications for approval of new drugs for which the submission’s data analysis was performed using R 22 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Oracle R Enterprise Approach Faster Highly Secure R Open Source Data and statistical analysis are stored and run indatabase Same R user experience & same R clients Scalable Embed in operational systems Complements Oracle Data Mining 23 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

What is R Enterprise? Oracle R Enterprise brings R’s statistical functionality closer to the Oracle Database 1. Eliminate R’s memory constraint by enabling R to work directly/transparently on database objects – Allows R to run on very large data sets, tables, views 2. Architected for Enterprise production infrastructure – – 24 Automatically exploits database parallelism without requiring parallel R programming Build and immediately deploy R scripts Copyright 2012, Oracle and/or its affiliates. All rights reserved. R Open Source

How Oracle R Enterprise Works ORE Computation Engines R Oracle R Enterprise eliminates data movement and duplication, maintains security and minimizes latency time from raw data to new information. Open Source – The database is always involved in serving up data to the R code. – Oracle R Enterprise runs in the Oracle Database Three ORE Computation Engines – Oracle R Enterprise provides three different interfaces between the open-source R engine and the Oracle database: 1. Oracle R Enterprise (ORE) Transparency Layer 2. Oracle Statistics Engine 3. Embedded R 25 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Oracle R Enterprise Compute Engines 1 R Engine Other R packages Oracle R Enterprise packages 2 Oracle Database SQL Results User tables R 3 R Engine R ?x Open Source Results Other R packages Oracle R Enterprise packages User R Engine on desktop Database Compute Engine R Engine(s) spawned by Oracle DB R-SQL Transparency Framework intercepts R functions for scalable in-database execution Submit entire R scripts for execution by Oracle Database Leverage database SQL parallelism Leverage new and existing in-database statistical and data mining capabilities 26 Copyright 2012, Oracle and/or its affiliates. All rights reserved. Access tables, views, and external tables, as well as data through DB LINKS Database can spawn multiple R engines for database-managed parallelism Efficient data transfer to spawned R engines Emulate map-reduce style algorithms and applications Enables “lights-out” execution of R scripts

How Oracle R Enterprise Works ORE Computation Engines R Open Source 1. Oracle R Enterprise (ORE) Transparency Layer – Traps all R commands and scripts prior to execution and looks for opportunities to function ship them to the database for native execution – ORE transparency layer converts R commands/scripts into SQL equivalents and thereby leverages the database as a compute engine. 27 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

How Oracle R Enterprise Works ORE Computation Engines R Open Source 2. In-Database Statistics Engine – Significantly extends the Oracle Database’s library of statistical functions and advanced analytical computations – Provides support for the complete R language and statistical functions found in Base R and selected R packages based on customer usage Open source packages - written entirely in R language with only the functions for which we have implemented SQL counterparts can be translated to execute in database. – Without anything visibly different to the R users, their R commands and scripts are oftentimes accelerated by a factor of 10-100x 28 Copyright 2012, Oracle and/or its affiliates. All rights reserved. All All Base Base R R functions functions R R Multiple Multiple Regression Regression . . Driven Driven by by customers customers ORE Functions ORE SUMMARY ORE FREQUENCY ORE CORR ORE UNIVARITE ORE CROSSTAB ORE RANK ORE SORT

How Oracle R Enterprise Works ORE Computation Engines R Open Source 3. Embedded R Engine For R functions not able to be mapped to native in-database functions, Oracle R Enterprise makes “extproc” remote procedure calls to multiple R engines running on multiple database servers/nodes This Oracle R Enterprise embedded layer uses the database as a data provider providing data level parallelism to R code 29 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Working with ORE Connections Connect to a specific schema and database ore.connect("RQUSER","SID","HOST","PASSWORD",1521) One connection active at a time ore.create( ONTIME S, table "NEW ONTIME S") ore.create( ONTIME S, view "NEW ONTIME S VIEW") Create a database table from a data.frame, ore.frame. Create a view from an ore.frame. ore.drop(table "NEW ONTIME S") ore.drop(view "NEW ONTIME S VIEW") Drop table or view in database v - ore.push(c(1,2,3,4,5)) ore.sync() ore.sync("RQUSER") ore.sync(table c("ONTIME S", "NARROW")) ore.sync("RQUSER", table c("ONTIME S", "NARROW")) Store R object in database as temporary object, returns handle to object. Data frame, matrix, and vector to table, list/model/others to serialized object Synchronize ORE proxy objects in R with tables/views available in database, on a per schema basis ore.exists("ONTIME S", "RQUSER") Returns TRUE if named table or view exists in schema 2011 Oracle – All Rights Reserved 30

Working with ORE Connections ore.ls() ore.ls("RQUSER") ore.ls("RQUSER",all.names TRUE) ore.ls("RQUSER",all.names TRUE, pattern "NAR") List the objects available in ORE environment mapped to database schema. All.names FALSE excludes names starting with a ‘.’ t - ore.get("ONTIME S","RQUSER") Obtain object to named table/view in schema. ore.attach("RQUSER") ore.attach("RQUSER", pos 2) Make database objects visible in R for named schema. Can place corresponding environment in specific position in env path. ore.detach("RQUSER") ore.rm("DF1") ore.rm(list("TABLE1","TABLE2"), "RQUSER") ore.disconnect() ore.exec("create table F2 as select * from ONTIME S") Remove schema’s environment from the object search path. Remove table or view from schema’s R environment. Disconnect from the database. Clean up all associated R objects and temporary database schema objects Execute SQL or PL/SQL without return value 2011 Oracle – All Rights Reserved 31

Create database tables from data.frames df - data.frame(A 1:26, B letters[1:26]) dim(df) class(df) ore.create(df,table "TEST DF") ore.ls(pattern "TEST DF") class(TEST DF) R user on desktop dim(TEST DF) head(TEST DF) ore.drop(table "TEST DF ") Client R Engine Other R packages Transparency Layer Oracle R package Goal: Create a database table named “TEST DF” from an R data.frame object. Oracle Database Enables user to transition from laptop files to database schema User tables 2011 Oracle – All Rights Reserved 32

SQL and Parallel Execution 33 Copyright 2012, Oracle and/or its affiliates. All rights reserved. 2011 Oracle – All Rights Reserved

Embedded Script Execution – SQL Interface R Interface function Purpose rqEval() Invoke stand-alone R script rqTableEval() Invoke R script with full table as input rqRowEval() Invoke R script on one row at a time, or multiple rows in chunks rqGroupEval() Invoke R script on data partitioned by grouping column sys.rqScriptCreate Create named R script sys.rqScriptDrop Drop named R script 34

ORE function rqEval() Input data FUN.VALUE Arguments Internally generated data NULL (returns chunked blob) NULL R Script String argument Special Not applicable begin sys.rqScriptCreate('Example1', 'function() { ID - 1:10 res - data.frame(ID ID, RES ID / 100) res}'); end; / select * from table(rqEval(NULL, 'select 1 id, 1 res from dual', 'Example1')); Execute R script with no parameters Specify output to return two numbers – id – res 35

Parallelism in the Transparency Layer Ideal for “bigger data”, Operations performed in-database leverage database parallelism Database and table must be configured for parallelism as above 36 Copyright 2012, Oracle and/or its affiliates. All rights reserved.

Architecture and Performance Performs data-heavy computations in database –R for summary analysis and graphics Transparent implementation enables using wide range of R “packages” from open source community 37 Copyright 2012, Oracle and/or its affiliates. All rights reserved. Seconds Transparently function-ships R constructs to database via R SQL translation

Oracle In-Database Advanced Analytics Comprehensive Advanced Analytics Platform Oracle R Enterprise Popular open source statistical programming language & environment Integrated with database for scalability Wide range of statistical and advanced analytical functions R embedded in enterprise appls & OBIEE Exploratory data analysis Extensive graphics Open source R (CRAN) packages Integrated with Hadoop for HPC Statistics 38 Advanced Analytics Copyright 2012, Oracle and/or its affiliates. All rights reserved. Oracle Data Mining R Automated knowledge discovery inside the Database 12 in-database data mining algorithms Text mining Predictive analytics applications development environment Star schema and transactional data mining Exadata "scoring" of ODM models SQL Developer/Oracle Data Miner GUI Data & Text Mining Predictive Analytics

39 Copyright 2012, Oracle and/or its affiliates. All rights reserved.