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Introducing U-SQL (SQLPASS 2016)

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Presentation on U-SQL: The Why and the How and capabilities as of Oct 2016.

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Introducing U-SQL (SQLPASS 2016)

  1. 1. Introducing U-SQL A Language that Simplifies Big Data Processing Michael Rys, Principal Program Manager, Microsoft @MikeDoesBigData, usql@microsoft.com
  2. 2. Please silence cell phones
  3. 3. The Data Lake approach Ingest all data regardless of requirements Store all data in native format without schema definition Do analysis Using analytic engines like Hadoop and ADLA Interactive queries Batch queries Machine Learning Data warehouse Real-time analytics Devices
  4. 4. Introducing Azure Data Lake Big Data Made Easy
  5. 5. WebHDFS YARN U-SQL ADL Analytics ADL HDInsight Store HiveAnalytics Storage Azure Data Lake (Store, HDInsight, Analytics)
  6. 6. Session Objectives And Takeaways Session Objective(s): • Introduce U-SQL: The Why and What • Show the philosophy of U-SQL • Demonstrate the power, scale and simplicity of U-SQL Key Takeaways: • You understand why U-SQL is the best language for Big Data Processing • Understand how U-SQL scripts process data in a highly scalable way • You can use U-SQL to process unstructured and structured data • You can use U-SQL’s C# integration to extend your big data processing with custom-code • You can explain some main differences between U-SQL and T-SQL • You know what data sources can be joined in U-SQL • You can use VisualStudio’s ADL tooling to explore and analyze highly scaled out U-SQL jobs
  7. 7. Some sample use cases Digital Crime Unit – Analyze complex attack patterns to understand BotNets and to predict and mitigate future attacks by analyzing log records with complex custom algorithms Image Processing – Large-scale image feature extraction and classification using custom code Shopping Recommendation – Complex pattern analysis and prediction over shopping records using proprietary algorithms Characteristics of Big Data Analytics •Requires processing of any type of data •Allow use of custom algorithms •Scale to any size and be efficient
  8. 8. Status Quo: SQL for Big Data  Declarativity does scaling and parallelization for you  Extensibility is bolted on and not “native”  hard to work with anything other than structured data  difficult to extend with custom code
  9. 9. Status Quo: Programming Languages for Big Data  Extensibility through custom code is “native”  Declarativity is bolted on and not “native”  User often has to care about scale and performance  SQL is 2nd class within string  Often no code reuse/ sharing across queries
  10. 10. Why U-SQL?  Declarativity and Extensibility are equally native to the language! Get benefits of both! Makes it easy for you by unifying: • Unstructured and structured data processing • Declarative SQL and custom imperative Code (C#) • Local and remote Queries • Increase productivity and agility from Day 1 and at Day 100 for YOU!
  11. 11. The origins of U-SQL SCOPE – Microsoft’s internal Big Data language • SQL and C# integration model • Optimization and Scaling model • Runs 100’000s of jobs daily Hive • Complex data types (Maps, Arrays) • Data format alignment for text files T-SQL/ANSI SQL • Many of the SQL capabilities (windowing functions, meta data model etc.)
  12. 12. Query data where it lives Benefits • Avoid moving large amounts of data across the network between stores • Single view of data irrespective of physical location • Minimize data proliferation issues caused by maintaining multiple copies • Single query language for all data • Each data store maintains its own sovereignty • Design choices based on the need • Push SQL expressions to remote SQL sources • Projections • Filters • Joins U-SQL Query Query Azure Storage Blobs Azure SQL in VMs Azure SQL DB Azure Data Lake Analytics Azure SQL Data Warehouse Azure Data Lake Storage Easily query data in multiple Azure data stores without moving it to a single store
  13. 13. https://github.com/Azure/usql/tree/master/Examples/TweetAnalysis
  14. 14. 2  Automatic "in-lining" optimized out-of- the-box  Per job parallelization visibility into execution  Heatmap to identify bottlenecks
  15. 15. • Schema on Read • Write to File • Built-in and custom Extractors and Outputters • ADL Storage and Azure Blob Storage “Unstructured” Files EXTRACT Expression @s = EXTRACT a string, b int FROM "filepath/file.csv" USING Extractors.Csv(encoding: Encoding.Unicode); • Built-in Extractors: Csv, Tsv, Text with lots of options • Custom Extractors: e.g., JSON, XML, etc. (see http://usql.io) OUTPUT Expression OUTPUT @s TO "filepath/file.csv" USING Outputters.Csv(); • Built-in Outputters: Csv, Tsv, Text • Custom Outputters: e.g., JSON, XML, etc. (see http://usql.io) Filepath URIs • Relative URI to default ADL Storage account: "filepath/file.csv" • Absolute URIs: • ADLS: "adl://account.azuredatalakestore.net/filepath/file.csv" • WASB: "wasb://container@account/filepath/file.csv"
  16. 16. U-SQL extensibility Extend U-SQL with C#/.NET Built-in operators, function, aggregates C# expressions (in SELECT expressions) User-defined aggregates (UDAGGs) User-defined functions (UDFs) User-defined operators (UDOs)
  17. 17. https://github.com/Azure/usql/tree/master/Examples/TweetAnalysis
  18. 18. Managing Assemblies • CREATE ASSEMBLY db.assembly FROM @path; • CREATE ASSEMBLY db.assembly FROM byte[]; • Can also include additional resource files • REFERENCE ASSEMBLY [account.]db.assembly; • Referencing .Net Framework Assemblies • Always accessible system namespaces: • U-SQL specific (e.g., for SQL.MAP) • All provided by system.dll system.core.dll system.data.dll, System.Runtime.Serialization.dll, mscorelib.dll (e.g., System.Text, System.Text.RegularExpressions, System.Linq) • Add all other .Net Framework Assemblies with: REFERENCE SYSTEM ASSEMBLY [System.XML]; • Enumerating Assemblies • Powershell command • U-SQL Studio Server Explorer • DROP ASSEMBLY db.assembly; Create assemblies Reference assemblies Enumerate assemblies Drop assemblies VisualStudio makes registration easy!
  19. 19. USING clause 'USING' csharp_namespace | Alias '=' csharp_namespace_or_class. Examples: DECLARE @ input string = "somejsonfile.json"; REFERENCE ASSEMBLY [Newtonsoft.Json]; REFERENCE ASSEMBLY [Microsoft.Analytics.Samples.Formats]; USING Microsoft.Analytics.Samples.Formats.Json; @data0 = EXTRACT IPAddresses string FROM @input USING new JsonExtractor("Devices[*]"); USING json = [Microsoft.Analytics.Samples.Formats.Json.JsonExtractor]; @data1 = EXTRACT IPAddresses string FROM @input USING new json("Devices[*]");
  20. 20. https://github.com/Azure/usql/tree/master/Examples/TweetAnalysis
  21. 21. • Simple Patterns • Virtual Columns • Only on EXTRACT for now (On OUTPUT by early 2017) File Sets Simple pattern language on filename and path @pattern string = "/input/{date:yyyy}/{date:MM}/{date:dd}/{*}.{suffix}"; • Binds two columns date and suffix • Wildcards the filename • Limits on number of files (Current limit 800-3000 is increased in special preview) Virtual columns EXTRACT name string , suffix string // virtual column , date DateTime // virtual column FROM @pattern USING Extractors.Csv(); • Refer to virtual columns in query predicates to get partition elimination • Warning gets raised if no partition elimination was found
  22. 22. https://github.com/Azure/usql/tree/master/Examples/TweetAnalysis
  23. 23. Meta Data Object Model ADLA Account/Catalog Database Schema [1,n] [1,n] [0,n] tables views TVFs C# Fns C# UDAgg Clustered Index partitions C# Assemblies C# Extractors Data Source C# Reducers C# Processors C# Combiners C# Outputters Ext. tables User objects Refers toContains Implemented and named by Procedures Creden- tials MD Name C# Name C# Applier Table Types Legend Statistics C# UDTs
  24. 24. • Naming • Discovery • Sharing • Securing U-SQL Catalog Naming • Default Database and Schema context: master.dbo • Quote identifiers with []: [my table] • Stores data in ADL Storage /catalog folder Discovery • Visual Studio Server Explorer • Azure Data Lake Analytics Portal • SDKs and Azure Powershell commands Sharing • Within an Azure Data Lake Analytics account • Across ADLA accounts that share same primary ADLS accounts: • Referencing Assemblies • Calling TVFs and referencing tables and views Securing • Secured with AAD principals at catalog and Database level
  25. 25. • Views for simple cases • TVFs for parameterization and most cases VIEWs and TVFs Views CREATE VIEW V AS EXTRACT… CREATE VIEW V AS SELECT … • Cannot contain user-defined objects (e.g. UDF or UDOs)! • Will be inlined Table-Valued Functions (TVFs) CREATE FUNCTION F (@arg string = "default") RETURNS @res [TABLE ( … )] AS BEGIN … @res = … END; • Provides parameterization • One or more results • Can contain multiple statements • Can contain user-code (needs assembly reference) • Will always be inlined • Infers schema or checks against specified return schema
  26. 26. Procedures CREATE PROCEDURE P (@arg string = "default“) AS BEGIN …; OUTPUT @res TO …; INSERT INTO T …; END; • Provides parameterization • No result but writes into file or table • Can contain multiple statements • Can contain user-code (needs assembly reference) • Will always be inlined • Can contain DDL (but no CREATE, DROP FUNCTION/PROCEDURE)
  27. 27. • Script variables for scalars • Overwritable defaulting • Constant compile-time vs runtime expression evaluation Script Variables & Parameters DECLARE @variable SqlArray<int> = new SqlArray<int>{1,2}; DECLARE @variable = new SqlArray<int>{1,2}; • Provides named and typed scalar expressions • Option to infer the type of the scalar variable DECLARE EXTERNAL @parameter = "string value"; • Provides overwriteable defaulting of a scalar variable • Allows external parameter models (e.g., Azure Data Factory) DECLARE CONST @const_expression = "my "+@parameter; • Checks and guarantees that expression is evaluated at compile time, otherwise errors.
  28. 28. • CREATE TABLE • CREATE TABLE AS SELECT Tables CREATE TABLE T (col1 int , col2 string , col3 SQL.MAP<string,string> , INDEX idx CLUSTERED (col2 ASC) PARTITION BY (col1) DISTRIBUTED BY HASH (driver_id) ); • Structured Data, built-in Data types only (no UDTs) • Clustered Index (needs to be specified): row-oriented • Fine-grained distribution (needs to be specified): • HASH, DIRECT HASH, RANGE, ROUND ROBIN • Addressable Partitions (optional) CREATE TABLE T (INDEX idx CLUSTERED …) AS SELECT …; CREATE TABLE T (INDEX idx CLUSTERED …) AS EXTRACT…; CREATE TABLE T (INDEX idx CLUSTERED …) AS myTVF(DEFAULT); • Infer the schema from the query • Still requires index and distribution (does not support partitioning)
  29. 29. When to use Tables Benefits of Table clustering and distribution • Faster lookup of data provided by distribution and clustering when right distribution/cluster is chosen • Data distribution provides better localized scale out • Used for filters, joins and grouping Benefits of Table partitioning • Provides data life cycle management (“expire” old partitions) • Partial re-computation of data at partition level • Query predicates can provide partition elimination Do not use when… • No filters, joins and grouping • No reuse of the data for future queries If in doubt: use sampling (e.g., SAMPLE ANY(x)) and test.
  30. 30. • ALTER TABLE ADD/DROP COLUMN Evolving Tables ALTER TABLE T ADD COLUMN eventName string; ALTER TABLE T DROP COLUMN col3; ALTER TABLE T ADD COLUMN result string, clientId string, payload int?; ALTER TABLE T DROP COLUMN clientId, result; • Meta-data only operation • Existing rows will get • Non-nullable types: C# data type default value (e.g., int will be 0) • Nullable types: null
  31. 31. https://github.com/Azure/usql/tree/mas ter/Examples/TweetAnalysis
  32. 32. U-SQL Joins Join operators • INNER JOIN • LEFT or RIGHT or FULL OUTER JOIN • CROSS JOIN • SEMIJOIN • equivalent to IN subquery • ANTISEMIJOIN • Equivalent to NOT IN subquery Notes • ON clause comparisons need to be of the simple form: rowset.column == rowset.column or AND conjunctions of the simple equality comparison • If a comparand is not a column, wrap it into a column in a previous SELECT • If the comparison operation is not ==, put it into the WHERE clause • turn the join into a CROSS JOIN if no equality comparison Reason: Syntax calls out which joins are efficient
  33. 33. U-SQL Analytics Windowing Expression Window_Function_Call 'OVER' '(' [ Over_Partition_By_Clause ] [ Order_By_Clause ] [ Row _Clause ] ')'. Window_Function_Call := Aggregate_Function_Call | Analytic_Function_Call | Ranking_Function_Call. Windowing Aggregate Functions ANY_VALUE, AVG, COUNT, MAX, MIN, SUM, STDEV, STDEVP, VAR, VARP Analytics Functions CUME_DIST, FIRST_VALUE, LAST_VALUE, PERCENTILE_CONT, PERCENTILE_DISC, PERCENT_RANK, LEAD, LAG Ranking Functions DENSE_RANK, NTILE, RANK, ROW_NUMBER
  34. 34. “Top 5”s Surprises for SQL Users • AS is not as • C# keywords and SQL keywords overlap • Costly to make case-insensitive -> Better build capabilities than tinker with syntax • = != == • Remember: C# expression language • null IS NOT NULL • C# nulls are two-valued • PROCEDURES but no WHILE • No UPDATE, DELETE, nor MERGE
  35. 35. https://github.com/Azure/usql/tree/master/Examples/ImageApp https://blogs.msdn.microsoft.com/azuredatalake/2016/06/27/how-do-i-combine-overlapping-ranges- using-u-sql-introducing-u-sql-reducer-udos/ Start Time - End Time - User Name 5:00 AM - 6:00 AM - ABC 5:00 AM - 6:00 AM - XYZ 8:00 AM - 9:00 AM - ABC 8:00 AM - 10:00 AM - ABC 10:00 AM - 2:00 PM - ABC 7:00 AM - 11:00 AM - ABC 9:00 AM - 11:00 AM - ABC 11:00 AM - 11:30 AM - ABC 11:40 PM - 11:59 PM - FOO 11:50 PM - 0:40 AM - FOO Start Time - End Time - User Name 5:00 AM - 6:00 AM - ABC 5:00 AM - 6:00 AM - XYZ 7:00 AM - 2:00 PM - ABC 11:40 PM - 0:40 AM - FOO Copyright Camera Make Camera Model Thumbnail Michael Canon 70D Michael Samsung S7
  36. 36. User-Defined Extractors User-Defined Outputters User-Defined Processors • Take one row and produce one row • Pass-through versus transforming User-Defined Appliers • Take one row and produce 0 to n rows • Used with OUTER/CROSS APPLY User-Defined Combiners • Combines rowsets (like a user-defined join) User-Defined Reducers • Take n rows and produce m rows (normally m<n) Scaled out with explicit U-SQL Syntax that takes a UDO instance (created as part of the execution): • EXTRACT • OUTPUT • PROCESS • COMBINE • REDUCE What are UDOs? Custom Operator Extensions Scaled out by U-SQL
  37. 37. UDO Tips and Warnings • Tips when Using UDOs: • READONLY clause to allow pushing predicates through UDOs • REQUIRED clause to allow column pruning through UDOs • PRESORT on REDUCE if you need global order • Hint Cardinality if it does choose the wrong plan • Warnings and better alternatives: • Use SELECT with UDFs instead of PROCESS • Use User-defined Aggregators instead of REDUCE • Learn to use Windowing Functions (OVER expression) • Good use-cases for PROCESS/REDUCE/COMBINE: • The logic needs to dynamically access the input and/or output schema. E.g., create a JSON doc for the data in the row where the columns are not known apriori. • Your UDF based solution creates too much memory pressure and you can write your code more memory efficient in a UDO • You need an ordered Aggregator or produce more than 1 row per group
  38. 38. U-SQL Language Philosophy Declarative Query and Transformation Language: • Uses SQL’s SELECT FROM WHERE with GROUP BY/Aggregation, Joins, SQL Analytics functions • Optimizable, Scalable Expression-flow programming style: • Easy to use functional lambda composition • Composable, globally optimizable Operates on Unstructured & Structured Data • Schema on read over files • Relational metadata objects (e.g. database, table) Extensible from ground up: • Type system is based on C# • Expression language IS C# • User-defined functions (U-SQL and C#) • User-defined Aggregators (C#) • User-defined Operators (UDO) (C#) U-SQL provides the Parallelization and Scale-out Framework for Usercode • EXTRACTOR, OUTPUTTER, PROCESSOR, REDUCER, COMBINER, APPLIER Federated query across distributed data sources REFERENCE MyDB.MyAssembly; CREATE TABLE T( cid int, first_order DateTime , last_order DateTime, order_count int , order_amount float, ... ); @o = EXTRACT oid int, cid int, odate DateTime, amount float FROM "/input/orders.txt" USING Extractors.Csv(); @c = EXTRACT cid int, name string, city string FROM "/input/customers.txt" USING Extractors.Csv(); @j = SELECT c.cid, MIN(o.odate) AS firstorder , MAX(o.date) AS lastorder, COUNT(o.oid) AS ordercnt , AGG<MyAgg.MySum>(c.amount) AS totalamount FROM @c AS c LEFT OUTER JOIN @o AS o ON c.cid == o.cid WHERE c.city.StartsWith("New") && MyNamespace.MyFunction(o.odate) > 10 GROUP BY c.cid; OUTPUT @j TO "/output/result.txt" USING new MyData.Write(); INSERT INTO T SELECT * FROM @j;
  39. 39. Unifies natively SQL’s declarativity and C#’s extensibility Unifies querying structured and unstructured Unifies local and remote queries Increase productivity and agility from Day 1 forward for YOU! Sign up for an Azure Data Lake account and join the Public Preview http://www.azure.com/datalake and give us your feedback via http://aka.ms/adlfeedback or at http://aka.ms/u-sql-survey! This is why U-SQL!
  40. 40. Additional Resources Blogs and community page: • http://usql.io (U-SQL Github) • http://blogs.msdn.microsoft.com/mrys/ • http://blogs.msdn.microsoft.com/azuredatalake/ • https://channel9.msdn.com/Search?term=U- SQL#ch9Search Documentation and articles: • http://aka.ms/usql_reference • https://azure.microsoft.com/en- us/documentation/services/data-lake-analytics/ • https://msdn.microsoft.com/en-us/magazine/mt614251 ADL forums and feedback • http://aka.ms/adlfeedback • https://social.msdn.microsoft.com/Forums/azure/en- US/home?forum=AzureDataLake • http://stackoverflow.com/questions/tagged/u-sql
  41. 41. Explore Everything PASS Has to Offer FREE ONLINE WEBINAR EVENTS FREE 1-DAY LOCAL TRAINING EVENTS LOCAL USER GROUPS AROUND THE WORLD ONLINE SPECIAL INTEREST USER GROUPS BUSINESS ANALYTICS TRAINING VOLUNTEERING OPPORTUNITIES PASS COMMUNITY NEWSLETTER BA INSIGHTS NEWSLETTERFREE ONLINE RESOURCES
  42. 42. Session Evaluations ways to access Go to passSummit.com Download the GuideBook App and search: PASS Summit 2016 Follow the QR code link displayed on session signage throughout the conference venue and in the program guide Submit by 5pm Friday November 6th to WIN prizes Your feedback is important and valuable. 3
  43. 43. Thank You Learn more from Michael Rys usql@microsoft.com or follow @MikeDoesBigData

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