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A short definition of the typical elements of an HPC cluster.
A short definition of the typical elements of an HPC cluster.


; Batch Scheduler
;<span id="Batch_Scheduler">‎</span>Batch Scheduler
: The software that distributes the compute [[Jobs]] of the users on the available resources (compute nodes).
: The software that distributes the [[#Compute_Job|compute jobs]] of the users on the available resources (compute nodes).


; Batch Script
;<span id="Batch_Script">‎</span>Batch Script
: A [[script]] that contains information in the form of special [[comment]]s at the beginning of the script which contain information about how many compute resources of what kind are needed.
: A [[#Script|script]] that contains information in the form of special comments at the beginning of the script which contain information about how many compute resources of what kind are needed.


; Batch System
;Batch System
: See Batch Scheduler
: See [[#Batch_Scheduler|Batch Scheduler]]


;<span id="Core">‎</span>Core
; Core
: The physical unit that can independently execute the instructions of a program on a CPU. Modern CPUs generally have multiple cores.
: The physical unit that can independently execute the instructions of a program on a CPU. Modern CPUs generally have multiple cores.


; Compute Job
;<span id="Compute_Job">‎</span>Compute Job
: A calculation you want to run on one of the compute nodes and for which you have written a [[batch script]] and which will automatically start on one of the compute nodes after [[submit]]ting the job
: A calculation you want to run on one of the compute nodes and for which you have written a [[#Batch_Script|batch script]] and which will automatically start on one of the compute nodes after [[#Submit|submit]]ting the job


;<span id="CPU">‎</span>CPU
; CPU
: Central Processing Unit. It performs the actual computation in a compute node. A modern CPU is composed of numerous cores and layers of cache.
: Central Processing Unit. It performs the actual computation in a compute node. A modern CPU is composed of numerous [[#Core|cores]] and layers of cache.


;<span id="CPU_Time">‎</span>CPU Time
; CPU time
: The time that CPUs have spent to calculate something. If 10 CPU cores calculate something for 1 hour each (even if it happens within the same hour), then 10 CPU-hours have been used for this calculation.
: The time that CPUs have spent to calculate something. If 10 CPU [[#Core|cores]] calculate something for 1 hour each (even if it happens within the same hour), then 10 CPU-hours have been used for this calculation.


;<span id="GPU">‎</span>GPU
; GPU
: Graphics Processing Unit. GPUs in HPC clusters are used as high-performance accelerators and are particularly useful to process workloads in Machine Learning (ML) and Artificial Intelligence (AI) more efficiently. The software has to be explicitly designed to use GPUs. CUDA and OpenACC are the most popular platforms in scientific computing with GPUs.
: Graphics Processing Unit. GPUs in HPC clusters are used as high-performance accelerators and are particularly useful to process workloads in Machine Learning (ML) and Artificial Intelligence (AI) more efficiently. The software has to be explicitly designed to use GPUs. CUDA and OpenACC are the most popular platforms in scientific computing with GPUs.


;<span id="HPC">‎</span>HPC
; HPC
: Short for '''H'''igh '''P'''erformance '''C'''omputing
: Short for '''H'''igh '''P'''erformance '''C'''omputing


; HPC Cluster
;<span id="HPC Cluster">‎</span>HPC Cluster
: Collection of compute nodes with (usually) high bandwidth and low latency communication. They can be accessed via login nodes.
: Collection of compute nodes with (usually) high bandwidth and low latency communication. They can be accessed via login nodes.


; Hyperthreading
;<span id="Hyperthreading">‎</span>Hyperthreading
: Modern computers can be configured so that one real compute-[[core]] appears like two "logical" cores on the system. These two "hyperthreads" can sometimes do computations in parallel, if the calculations use two different sub-units of the compute-core - but most of the time, two calculations on two hyperthreads run on the same physical hardware and both run half as fast as if one thread had a full core. Some programs (e.g. gromacs) can profit from running with twice as many threads on hyperthreads and finish 10-20% faster if run in that way.
: Modern computers can be configured so that one real compute-[[#Core|core]] appears like two "logical" cores on the system. These two "hyperthreads" can sometimes do computations in parallel, if the calculations use two different sub-units of the compute-core - but most of the time, two calculations on two hyperthreads run on the same physical hardware and both run half as fast as if one thread had a full core. Some programs (e.g. gromacs) can profit from running with twice as many threads on hyperthreads and finish 10-20% faster if run in that way.


; Job
;Job
: See Compute Job
: See [[#Compute_Job|Compute Job]]


; Job System
;Job System
: See Batch Scheduler
: See [[#Batch_Scheduler|Batch Scheduler]]


;<span id="Moab">‎</span>Moab
; Moab
: A batch system software
: A batch system software


;<span id="MPI">‎</span>MPI
; Multithreading
: Standard for the Message Passing Interface, mainly for distributed memory machines (like HPC Clusters with many compute nodes, each a shared memory system with many cores) scaling from one node to thousands of compute nodes.
: Multithreading means that one computer program runs calculations on more than one compute-core using several logical "threads" of serial compute instructions to do so (eg. to work through different and independent data arrays in parallel). Specific types of multithreaded parallelization are [[OpenMP]] or [[MPI]].


;<span id="Multithreading">‎</span>Multithreading
; Node
: Multithreading means that one computer program runs calculations on more than one compute-[[#Core|core]] using several logical "threads" of serial compute instructions to do so (eg. to work through different and independent data arrays in parallel). Specific types of multithreaded parallelization are [[#OpenMP|OpenMP]] or [[#MPI|MPI]].

;<span id="Node">‎</span>Node
: An individual computer with one or more sockets, part of an HPC cluster.
: An individual computer with one or more sockets, part of an HPC cluster.


;<span id="OpenMP">‎</span>OpenMP
; Parallelization
: Specification for Shared Memory parallelization based on Threads for many-core CPUs and GPUs.
: Making it possible for programs to calculate parts of the problem they want to solve in parallel.


;<span id="Parallelization">‎</span>Parallelization
; RAM
: Enabling programs to calculate parts of the problem in parallel, reducing overall wallclock time (albeit with some parallelization overhead like runtime environment, communication and synchronization).
: Random Access Memory. It is used as the working memory for the cores.


;<span id="RAM">‎</span>RAM
; Runtime // Wall Clock Time
: Random Access Memory. It is used as the working memory for the [[#Core|cores]].
: The time a calculation needs to run. The term "Wall Clock Time" is used to distinguish it from [[CPU time]].


;<span id="Runtime">‎</span>Runtime
; Scaling
: The time a calculation needs to run (see [[#CPU_Time|CPU Time]] and [[#Wall_Clock_Time|Wall Clock Time]]).

;<span id="Scaling">‎</span>Scaling
: dividing a problem in several sub-problems creates additional work for taking track of the sub-problems and assembling the pieces to solve the whole problem. At some point this additional work becomes larger than the work spent on calculating the actual problem. A problem is called to "scale well", if little such additional work is needed.
: dividing a problem in several sub-problems creates additional work for taking track of the sub-problems and assembling the pieces to solve the whole problem. At some point this additional work becomes larger than the work spent on calculating the actual problem. A problem is called to "scale well", if little such additional work is needed.


; Script
;<span id="Script">‎</span>Script
: A set of instructions that the computer runs one after another, but that is not compiled into computer-instructions like a program.
: A set of instructions that the computer runs one after another, but that is not compiled into computer-instructions like a program.


: Simultaneous Multithreading
;Simultaneous Multithreading
; See Hyperthreading
: See [[#Hyperthreading|Hyperthreading]]


: SMT
;SMT
; See Hyperthreading
: See [[#Hyperthreading|Hyperthreading]]


; SLURM
;<span id="SLURM">‎</span>SLURM
: A batch system software
: A batch system software


; Socket
;<span id="Socket">‎</span>Socket
: Physical socket where the CPU capsules are placed. Often used as a synonym to CPU if a computer has more than one socket and one wants to make clear that only one of the CPU chips sitting in one socket is meant.
: Physical socket where the CPU capsules are placed. Often used as a synonym to CPU if a computer has more than one socket and one wants to make clear that only one of the CPU chips sitting in one socket is meant.


; Submit
;<span id="Submit">‎</span>Submit
: Send a compute job into the queue to wait until it can run on a compute node
: Send a compute job into the queue to wait until it can run on a compute node


; Thread
;<span id="Thread">‎</span>Thread
: Logical unit that can be executed independently.
: Logical unit that can be executed independently within a process, sharing resources such as allocated memory, open files and signal handlers.

;<span id="Wall_Clock_Time">‎</span>Wall Clock Time
The term "Wall Clock Time" is used to distinguish it from [[#CPU_Time|CPU time]] (see [[#Runtime|Runtime]]).

Latest revision as of 14:29, 6 February 2024

A short definition of the typical elements of an HPC cluster.

Batch Scheduler
The software that distributes the compute jobs of the users on the available resources (compute nodes).
Batch Script
A script that contains information in the form of special comments at the beginning of the script which contain information about how many compute resources of what kind are needed.
Batch System
See Batch Scheduler
Core
The physical unit that can independently execute the instructions of a program on a CPU. Modern CPUs generally have multiple cores.
Compute Job
A calculation you want to run on one of the compute nodes and for which you have written a batch script and which will automatically start on one of the compute nodes after submitting the job
CPU
Central Processing Unit. It performs the actual computation in a compute node. A modern CPU is composed of numerous cores and layers of cache.
CPU Time
The time that CPUs have spent to calculate something. If 10 CPU cores calculate something for 1 hour each (even if it happens within the same hour), then 10 CPU-hours have been used for this calculation.
GPU
Graphics Processing Unit. GPUs in HPC clusters are used as high-performance accelerators and are particularly useful to process workloads in Machine Learning (ML) and Artificial Intelligence (AI) more efficiently. The software has to be explicitly designed to use GPUs. CUDA and OpenACC are the most popular platforms in scientific computing with GPUs.
HPC
Short for High Performance Computing
HPC Cluster
Collection of compute nodes with (usually) high bandwidth and low latency communication. They can be accessed via login nodes.
Hyperthreading
Modern computers can be configured so that one real compute-core appears like two "logical" cores on the system. These two "hyperthreads" can sometimes do computations in parallel, if the calculations use two different sub-units of the compute-core - but most of the time, two calculations on two hyperthreads run on the same physical hardware and both run half as fast as if one thread had a full core. Some programs (e.g. gromacs) can profit from running with twice as many threads on hyperthreads and finish 10-20% faster if run in that way.
Job
See Compute Job
Job System
See Batch Scheduler
Moab
A batch system software
MPI
Standard for the Message Passing Interface, mainly for distributed memory machines (like HPC Clusters with many compute nodes, each a shared memory system with many cores) scaling from one node to thousands of compute nodes.
Multithreading
Multithreading means that one computer program runs calculations on more than one compute-core using several logical "threads" of serial compute instructions to do so (eg. to work through different and independent data arrays in parallel). Specific types of multithreaded parallelization are OpenMP or MPI.
Node
An individual computer with one or more sockets, part of an HPC cluster.
OpenMP
Specification for Shared Memory parallelization based on Threads for many-core CPUs and GPUs.
Parallelization
Enabling programs to calculate parts of the problem in parallel, reducing overall wallclock time (albeit with some parallelization overhead like runtime environment, communication and synchronization).
RAM
Random Access Memory. It is used as the working memory for the cores.
Runtime
The time a calculation needs to run (see CPU Time and Wall Clock Time).
Scaling
dividing a problem in several sub-problems creates additional work for taking track of the sub-problems and assembling the pieces to solve the whole problem. At some point this additional work becomes larger than the work spent on calculating the actual problem. A problem is called to "scale well", if little such additional work is needed.
Script
A set of instructions that the computer runs one after another, but that is not compiled into computer-instructions like a program.
Simultaneous Multithreading
See Hyperthreading
SMT
See Hyperthreading
SLURM
A batch system software
Socket
Physical socket where the CPU capsules are placed. Often used as a synonym to CPU if a computer has more than one socket and one wants to make clear that only one of the CPU chips sitting in one socket is meant.
Submit
Send a compute job into the queue to wait until it can run on a compute node
Thread
Logical unit that can be executed independently within a process, sharing resources such as allocated memory, open files and signal handlers.
Wall Clock Time

The term "Wall Clock Time" is used to distinguish it from CPU time (see Runtime).