ONLINE COURSE: Node-Level Performance Engineering

Enterprises & SME Research & Science
ONLINE COURSE: Node-Level Performance Engineering


March 17, 2021: This course was extended with an additional 4th day on performance tools, presented by ZIH, TU Dresden.

This course will be provided as ONLINE course (using Zoom).

This course covers performance engineering approaches on the compute node level. Even application developers who are fluent in OpenMP and MPI often lack a good grasp of how much performance could at best be achieved by their code. This is because parallelism takes us only half the way to good performance. Even worse, slow serial code tends to scale very well, hiding the fact that resources are wasted. This course conveys the required knowledge to develop a thorough understanding of the interactions between software and hardware. This process must start at the core, socket, and node level, where the code gets executed that does the actual computational work. We introduce the basic architectural features and bottlenecks of modern processors and compute nodes. Pipelining, SIMD, superscalarity, caches, memory interfaces, ccNUMA, etc., are covered. A cornerstone of node-level performance analysis is the Roofline model, which is introduced in due detail and applied to various examples from computational science. We also show how simple software tools can be used to acquire knowledge about the system, run code in a reproducible way, and validate hypotheses about resource consumption. Finally, once the architectural requirements of a code are understood and correlated with performance measurements, the potential benefit of code changes can often be predicted, replacing hope-for-the-best optimizations by a scientific process.

This course provides - via lectures, demos, and hands-on labs - scientific training in Computational Science, and in addition, the scientific exchange of the participants among themselves.


Day 1

08:45        Enter the Zoom meeting
09:00        Welcome – Intro
09:30        Computer architecture for software developers part 1
10:00        Coffee break
10:15        Computer architecture for software developers part 1 cont.
10:45        Hands-on: Warmup (login etc.)
11:00        Computer architecture for software developers part 2
11:45        Hands-on: Divide benchmark
12:30        Lunch
13:30        Tools: Topology and affinity, frequency
14:00        Hands-on: likwid-topology and likwid-pin
14:15        Roofline Model: Basics
15:15        Hands-on: Microarchitectural exploration
16:00-        Open end

Day 2

08:45        Enter the Zoom meeting
09:00        Tools: Performance counters
09:30        Hands-on: performance counters and memory bandwidth
10:00        Optimal use of parallel resources: SIMD
11:00        Coffee break
11:15        Hands-on: SIMD in MiniMD
12:15        Optimal use of parallel resources:  ccNUMA
13:00        Lunch
14:00        Performance Engineering: Basic skills
14:45        Coffee break
15:00        Hands-on: Dense Matrix Vector Multiplication
16:00-        Open end

Day 3

08:45        Enter the Zoom meeting
09:00        Roofline case study: Jacobi smoother
10:00        Coffee break
10:15        Hands-on: Matrix free CG solver part 1
11:15        Coffee break
11:30        Roofline case study: SpMVM
12:30        Lunch
13:30        ECM Performance model
14:15        Coffee break
14:30        Hands-on: Matrix free CG solver part 2 (optimizatons)
16:00        Farewell & feedback

Day 4

08:45        Enter the Zoom meeting
                 Tools-Day (tba.)

Detailed Program



  • Our approach to performance engineering
  • Basic architecture of multicore systems: threads, cores, caches, sockets, memory
  • The important role of system topology

Tools topology & affinity in multicore environments

  • Overview
  • likwid-topology and likwid-pin

Microbenchmarking for architectural exploration

  • Properties of data paths in the memory hierarchy
  • Bottlenecks
  • OpenMP barrier overhead

Roofline model: basics

  • Model assumptions and construction
  • Simple examples
  • Limitations of the Roofline model

Tools: hardware performance counters

  • Why hardware performance counters?
  • likwid-perfctr
  • Validating performance models

Roofline case studies

  • Dense matrix-vector multiplication
  • Sparse matrix-vector multiplication
  • Jacobi (stencil) smoother

Optimal use of parallel resources

  • Single Instruction Multiple Data (SIMD)
  • Cache-coherent Non-Uniform Memory Architecture (ccNUMA)
  • Simultaneous Multi-Threading (SMT)

Extending Roofline: The ECM performance model

Optional: Pattern-based performance engineering 


Participants should be able to work on the Linux command line. They must have basic knowledge in programming with Fortran or C, and basic OpenMP.


The course language is English.


Dr. habil. Georg Hager and Dr.-Ing. Jan Eitzinger (formerly Treibig) (RRZE/HPC, Uni. Erlangen)


Before the course, the course material and an updated agenda will be available here.
An older version of this course with most of the material (including the audio information) can also be viewed in the ONLINE Parallel Programming Workshop.


via online registration form.


for registration is June 13 , 2021.


Members of German universities and public research institutes: none.
Members of universities and public research institutes within Europe or PRACE-member countries: none.
Members of other universities and public research institutes: 240 EUR.
Others: 600 EUR.
(Includes coffee breaks in case of courses on site.)


Travel Information and Accommodation

see our How to find us page.


HLRS is part of the Gauss Centre for Supercomputing (GCS), which is one of the six PRACE Advanced Training Centres (PATCs) that started in Feb. 2012. The mandate for the PATCs is as follows: "The PRACE Advanced Training Centres will serve as European hubs of advanced, world-class training for researchers working in the computational sciences." (see D3.2.3)
This course is a PATC course, see also the PRACE Training Portal and Events. For participants from public research institutions in PRACE countries, the course fee is sponsored through the PRACE PATC program.

HLRS is also member of the Baden-Württemberg initiative bwHPC-C5.
This course is also provided within the framework of the bwHPC-C5 user Support.

Local Organizer

Rolf Rabenseifner phone 0711 685 65530,
Lucienne Dettki phone 0711 685 63894,