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Visible to Intel only — GUID: GUID-A59CE6B6-59AF-492F-B451-61DD2D590371
Developer Guide and Reference for Intel® Integrated Performance Primitives Cryptography
To see what is new with the latest release, see the Release Notes
Intel® Integrated Performance Primitives Cryptography (Intel® IPP Cryptography) is a software library that provides a comprehensive set of application domain-specific highly optimized functions for cryptography.
Starting with the 2021.9 release (Intel® oneAPI Toolkit 2024.0 release), macOS* is no longer supported in Intel® oneAPI Toolkits and components.
Several Intel-led open source developer tool projects will continue supporting macOS on Apple* Silicon including Intel® oneAPI Threading Building Blocks (oneTBB) and Intel® Implicit SPMD Program Compiler and we welcome the opportunity to work with contributors to expand support to additional tools in the future.
All macOS content has been removed from technical documentation in the 2024.1 (Intel® IPP Cryptography 2021.11) release. If you need a copy of the documentation, click the Download button in the upper right or download it from the Downloadable Documentation site.
Intel® IPP Cryptography is an add-on library that offers Intel® Integrated Performance Primitives (Intel® IPP) users a cross-platform and cross operating system application programming interface (API) for routines commonly used for cryptographic operations. Among other features, the library includes:
RSA Algorithm Functions
RSA Algorithm Functions implement the non-symmetric cryptography RSA algorithm. Subsections include reference for different encryption schemes and RSA system building functions.
Rijndael Functions
Rijndael Functions implement the symmetric iterated Rijndael block cipher with variable key and block sizes. The Rijndael cipher with 128 bit block size is also known as the Advanced Encryption Standard (AES) cipher.
Mask Generation Functions
A Mask Generation Function takes a string of arbitrary length and deterministically outputs a pseudorandom string of desired length. Mask Generation Functions are used in different cryptographic algorithms, including some RSA encryption schemes.
AES-CCM Functions
AES-CCM Functions are an implementation of the Counter with Cipher Block Chaining-Message Authentication Code (CCM) mode of operation of the AES cipher.
AES-GCM Functions
AES-GCM Functions implement the Galois/Counter Mode (GCM) of operation of the AES block cipher. GCM is an authenticated encryption algorithm, which allows you to verify the integrity of encrypted data.
Post-quantum Functions
Post-quantum Functions implement post-quantum algorithm functions.
Product and Performance Information
Performance varies by use, configuration and other factors. Learn more at https://edc.intel.com/content/www/us/en/products/performance/benchmarks/overview/. Notice revision #20201201Documentation for older versions of Intel® Integrated Performance Primitives Cryptography is available for download only. For a list of available documentation downloads by product version, see these pages:
- Introducing Intel® Integrated Performance Primitives Cryptography
- Getting Help and Support
- Notational Conventions
- Getting Started with Intel® Integrated Performance Primitives Cryptography
- Theory of Operation
- Linking Your Application with Intel® Integrated Performance Primitives Cryptography
- Using Custom Library Tool for Intel® Integrated Performance Primitives
- Programming with Intel® Integrated Performance Primitives Cryptography in the Microsoft* Visual Studio* IDE
- Performance Test Tool (perfsys) Command Line Options
- Threading and OpenMP* Support
- Preview Features
- Intel® Integrated Performance Primitives Cryptography API Reference
- Notices and Disclaimers