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Developer Guide for Intel® Integrated Performance Primitives
Legal Information
What's New
Getting Help and Support
Notational Conventions
Getting Started with Intel® Integrated Performance Primitives
Finding Intel® IPP on Your System
Setting Environment Variables
Compiler Integration
Building Intel® IPP Applications
Using Intel® IPP Examples
Intel® IPP Examples Directory Structure
Building Intel® IPP Examples
Finding the Intel® IPP Documentation
Intel® Integrated Performance Primitives Theory of Operation
Dispatching
Function Naming Conventions
Data-domain
Primitive vs. Variant Name
Data Types
Descriptor
Parameters
Intel® Integrated Performance Primitives Domain Details
Library Dependencies by Domain
Linking Your Application with Intel® Integrated Performance Primitives
Linking Options
Automatically Linking Your Microsoft* Visual Studio* Project with Intel IPP
Using Intel® Integrated Performance Primitives Platform-Aware Functions
Using Intel® Integrated Performance Primitives Threading Layer (TL) Functions
Finding Intel® IPP TL Source Code Files
Building Intel® IPP TL Libraries from Source Code
Automatically Getting Performance Benefits with Intel® IPP Threading Layer
Using Custom Library Tool for Intel® Integrated Performance Primitives
System Requirements for Custom Library Tool
Operation Modes
Building a Custom DLL with Custom Library Tool
Using Console Version of Custom Library Tool
Using Integration Wrappers for Intel® Integrated Performance Primitives
Programming Considerations
Core and Support Functions
Channel and Planar Image Data Layouts
Regions of Interest
Managing Memory Allocations
Cache Optimizations
Programming with Intel® Integrated Performance Primitives in the Microsoft* Visual Studio* IDE
Configuring the Microsoft* Visual Studio* IDE to Link with Intel® IPP
Using the IntelliSense* Features
Appendix A. Performance Test Tool Command-Line Options
Appendix B. Intel® IPP Threading and OpenMP* Support
Setting Number of Threads
Using Shared L2 Cache
Avoiding Nested Parallelization