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  • Informatica Data Quality 10.4.1
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Table of Contents

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  1. Preface
  2. Analyst Service
  3. Catalog Service
  4. Content Management Service
  5. Data Integration Service
  6. Data Integration Service Architecture
  7. Data Integration Service Management
  8. Data Integration Service Grid
  9. Data Integration Service REST API
  10. Data Integration Service Applications
  11. Enterprise Data Preparation Service
  12. Interactive Data Preparation Service
  13. Informatica Cluster Service
  14. Mass Ingestion Service
  15. Metadata Access Service
  16. Metadata Manager Service
  17. Model Repository Service
  18. PowerCenter Integration Service
  19. PowerCenter Integration Service Architecture
  20. High Availability for the PowerCenter Integration Service
  21. PowerCenter Repository Service
  22. PowerCenter Repository Management
  23. PowerExchange Listener Service
  24. PowerExchange Logger Service
  25. SAP BW Service
  26. Search Service
  27. System Services
  28. Test Data Manager Service
  29. Test Data Warehouse Service
  30. Web Services Hub
  31. Application Service Upgrade
  32. Appendix A: Application Service Databases
  33. Appendix B: Connecting to Databases from Windows
  34. Appendix C: Connecting to Databases from UNIX or Linux
  35. Appendix D: Updating the DynamicSections Parameter of a DB2 Database

Application Service Guide

Application Service Guide

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Logical Data Transformation Manager

Logical Data Transformation Manager

The logical Data Transformation Manager (LDTM) optimizes and compiles jobs.
The LDTM can perform the following optimizations:
Filter data to reduce the number of rows to be processed.
The LDTM applies optimization methods to filter data and reduce the number of rows to be processed. For example, the LDTM can use early selection optimization to move a filter closer to the source. It can use pushdown optimization to push transformation logic to a database. It can use the cost-based optimization method to change the join processing order. When you develop a mapping, you can choose an optimizer level that determines which optimization methods the LDTM can apply to the mapping.
Determine the partitioning strategy to maximize parallel processing.
If you have the partitioning option, the Data Integration Service can maximize parallelism for mappings and profiles. The LDTM dynamically determines the optimal number of partitions for each pipeline stage and the best way to redistribute data across each partition point.
Determine the data movement mode to optimize processing of ASCII characters.
The LDTM determines whether to use the ASCII or Unicode data movement mode for mappings that read from a flat file or relational source. The LDTM determines the data movement mode based on the character sets that the mapping processes. When a mapping processes all ASCII data, the LDTM selects the ASCII mode. In ASCII mode, the Data Integration Service uses use one byte to store each character, which can optimize mapping performance. In Unicode mode, the service uses two bytes for each character.
After optimizing a mapping, the LDTM compiles the optimized mapping and makes it available to the execution Data Transformation Manager (DTM) to run.
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