In the ever-growing complexity of computer architectures, code optimization has become the main route to keep pace with hardware advancements and effectively make use of current and upcoming High Performance Computing systems.
Have you ever asked yourself:
- Where does the performance of my application lay?
- What is the maximum speed-up achievable on the architecture I am using?
- Is my implementation matching the HPC objectives?
In this workshop, we will answer these questions and provide a unique opportunity to learn techniques, methods and solutions on how to improve code, how to enable the new hardware features and how to use the roofline model to visualize the potential benefits of an optimization process.
We will begin with a description of the latest micro-processor architectures and how the developers can efficiently use modern HPC hardware, in particular the vector units via SIMD programming and AVX-512 optimization and the memory hierarchy.
The attendees are then conducted along the optimization process by means of hands-on exercises and learn how to enable vectorization using simple pragmas and more effective techniques, like changing data layout and alignment.
The work is guided by the hints from the Intel® compiler reports, and using Intel® Advisor.
We provide also an N-body code, to support the described optimization solutions with practical hands-on.
The course is a PRACE training event.
Through a sequence of simple, guided examples of code modernization, the attendees will develop awareness on features of multi and many-core architecture which are crucial for writing modern, portable and efficient applications.
A special focus will be dedicated to scalar and vector optimizations for the latest Intel® Xeon® Scalable processor, code-named Skylake, which is going to be utilized in the upcoming SuperMUC-NG machine at LRZ. The tutorial will have presentations and demo session.
We will provide to the attendees access to Skylake processors and Intel® tools using VM instances provided by Google Cloud Platform.
The workshop interleaves frontal and practical sessions. Here the outline:
09:45-10:30 Login to Google cloud machines
10:30-11:00 Coffee Break
11:00-12:00 Code modernization approach
12:00-12:30 Scalar optimization
13:30-14:30 Compiler autovectorization
14:30-15:00 Data layout from AoS to SoA
15:00-15:30 Coffee Break
15:30-16:00 Memory access optimization
16:00-16:30 SDLT (Intel SIMD Layout Templates)
16:30-17:00 Explicit vectorization
17:00-17:45 Skylake optimization
09:00-09:30 Introduction to roofline model
09:30-10:30 Intel Advisor analysis
10:30-11:00 Coffee Break
11:00-12:30 Intel Advisor hands-on
13:30-14:00 What’s new in Intel Advisor 2019
14:00-15:00 Introduction to MKL
15:00-15:30 Coffee Break
15:30-16:30 Hands-on MKL
16:30-17:00 What’s new in Intel Parallel Studio 2019
17:00-17:30 Open discussion and feedback
Please bring your own laptop (with X11 support and an ssh client installed) for the hands-on sessions! For GUI applications we require the installation of vncviewer (https://www.realvnc.com/en/connect/download/viewer/ )”.
About the Lecturers
Fabio Baruffa is a software technical consulting engineer in the Developer Products Division (DPD) of the Software and Services Group (SSG) at Intel. He is working in the compiler team and provides customer support in the high performance computing (HPC) area. Prior at Intel, he has been working as HPC application specialist and developer in the largest supercomputing centers in Europe, mainly the Leibniz Supercomputing Center and the Max-Plank Computing and Data Facility in Munich, as well as Cineca in Italy. He has been involved in software development, analysis of scientific code and optimization for HPC systems. He holds a PhD in Physics from University of Regensburg for his research in the area of spintronics device and quantum computing.
Luigi Iapichino holds a position of scientific computing expert at LRZ and he is member of the Intel Parallel Computing Center (IPCC). His main tasks are code modernization for many-core systems, and HPC support. He got in 2005 a PhD in physics from TU München, working at the Max Planck Institute for Astrophysics. Before moving to LRZ in 2014, he worked at the Universities of Würzburg and Heidelberg, involved in research projects related to computational astrophysics.
|Attendees should be comfortable with either C/C++ or Fortran programming language and basic Linux command, like make and ssh. The installation of the VNC viewer is helpful. No previous experience in vectorization and parallelization is required and profiling tools, as well.|
|Exercises:||We will provide to the attendees access to Skylake processors and Intel® tools using VM instances provided by Google Cloud Platform. Please bring your own laptop (with an ssh client installed) for the hands-on sessions!|
|Further information:||Travel info, hotel info, course page at LRZ|
|Dr. Volker Weinberg (LRZ)|
|Lecturers:||Luigi Iapichino (LRZ), Fabio Baruffa (Intel), Zakhar Matveev (Intel)|