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SQL Tuning

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In D & A Projects, building efficient SQL Queries is critical to achieving the Extraction and Load Batch cycles to complete faster and to meet the desired SLAs. The below observations are towards following the approaches to ensure writing SQL queries that meet the Best Practices to facilitate performance improvements.

Tuning Approach

Pre-Requisite Checks

Before we get into subjecting a SQL Query against Performance Improvements, below are steps to be adopted:

  • Deep Dive into the current SQL Query
    • Complexity of the SQL (# of Tables/Joins/Functions)
    • Design of the SQL Query (Sub-Query/Correlated Sub-Query/Join/Filter Sequences)
    • Whether Best Practices followed: Is it modularized? When joined, does it contain functions and derivations?
  • Verify the As-Is Metrics of the SQL
    • Duration to return 1st record and first 100 records
    • Extract the Explain Plan Metrics
      • Cost (Resource Usage)
      • Cardinality (# of Rows returned per Task Operations)
      • Access Method (Full Table/ROWID/Index Unique/Full Index/Index Skip Scan)
      • Join Method (Hash/Nested-Loop/Sort-Merge/Outer Join)
      • Join Order (Multiple tables join sequence)
      • Partition
      • Parallel Processing (Exec on Multiple Nodes)

After ensuring the above prerequisites are taken care of and possible bottlenecks identified, tuning practices can be applied to the SQL Query for performance improvements.

Tuning Guidelines

Basic Guidelines are listed below:

  • Query Design Perspective
    • Extract only the required columns in the code via SELECT (instead of SELECT *)
    • Use Inner joins well ahead of Outer joins
    • Filters applied ahead with Inner Joins rather than at the end using WHERE clause
    • Avoid Sub-queries and Correlated Sub-queries as much as possible
    • Create TEMP tables
      • to hold Sub-Query logic
      • to Modularize Complex Logic with related Columns and Derivations
      • to hold a reference list of values (used as Joins instead of IN clause)
      • to hold Functions, Calculations, and Derivations Attributes for later JOIN with Tables
      • to hold Complex Query Logic and subsequently apply RANK()/ROW_NUMBER()
    • Create Physical tables (instead of TEMP) if high volume
    • Drop the TEMP or Physical tables after intermediate processing completes
    • Complex Query with too many LEFT joins can be broken into parts and then JOINed
    • Avoid Duplicates as early as possible before subjecting the Derived tables to JOINs
    • On MPP DBs, do not use DISTRIBUTION for Smaller tables
    • On MPP DBs, DISTRIBUTION column-based joins provide faster results
  • Functions Perspective
    • Use EXISTS instead of IN if presence alone requires to be checked
    • Instead of MINUS, use LEFT JOIN with IS NULL condition
    • If DISTINCT causes slowness, try ROW_NUMBER() to select 1 record out of Multiples
    • Do not use Functions on Joins
  • DBA Perspective
    • Collect STATISTICS
    • Create Indexes (Single/Multiple) (on frequently used Joins/Predicates as required)
    • Create Partitions (for Optimized Scans)
  • Space and Computing Perspective
    • Increase the DB Server storage space
    • Increase the DB Server Computing Abilities
    • Multi-Node Processing of Queries

Conclusion

On a high level, below are the inferences:

  • Check Explain Plan
  • Subject the Query to effective Design
  • Focus on DBA, Space, and Computing Abilities
  • Follow the Best Practices

Thoughts on “SQL Tuning”

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Rajesh Ranga Rao

Rajesh has over a decade and a half of experience in managing data warehousing & data analytics BUs with ETL DEV and support experience in banking and healthcare domains offering data analysis, transformation, and loading to support the BI requirements of the clients.

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