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A comment was made: “One of the problems we have as HPC pro's is discussing the technologies that exist or that we support in a way that's accessible to our clients and customers who may not be as well versed in those technologies as we are." We hope this glossary is helpful.
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High performance computing. Implies a higher percentage of CPU and memory usage than typical administrative computing, or implies a program too large for, or that takes too long on, a laptop or workstation. Also HTC, high throughput computing, essentially similar but oriented to processing many small compute jobs.
Node aka Compute Node
A single computer in a box, functionally similar to a desktop computer but typically more powerful and packaged for rackmount in a datacenter. Usually two CPU sockets or four sockets with very large memory vs. one socket for a desktop. Ocelote standard nodes have 28 cores and 192GB memory.
A group of nodes connected to each other by a fast network. The network in ElGato and Ocelote is 56Gb Infiniband. What this gains for the user is the ability to connect nodes together to perform work beyond the capacity of a single node. Some jobs use hundreds of cores and terabytes of memory.
A large and powerful cluster. We currently have Ocelote and ElGato and soon a third one which will supplement the other two.
A cluster node accessible to users and dedicated to logins, editing, moving data, submitting jobs.
The head node is for managing the cluster and is not available to users.
Data mover node
A node connected to the public internet and dedicated to moving data to/from external computers. We have two DTN nodes known collectively as filexfer.hpc.arizona.edu.
A program that maintains a list of batch jobs to be executed on a cluster, ranks them in some priority order, and executes batch jobs on compute nodes as they become available. It tries to keep the cluster from being overloaded or idle. Ocelote and ElGato use PBS.
These terms are often used interchangeably, especially processor and CPU. The most straight forward way to think of the compute nodes is that they contain two physical sockets (or processor chips) which can be seen under their heatsinks. Each socket contains multiple cores. Ocelote has 2 sockets with 14 cores in each so all you need to know is that there are 28 cores (which the PBS scheduler calls ncpus. ElGato has 2 sockets with 6 cores in each, for a total of 12 cores.
A graphical processing unit, a specialized type of CPU derived from a graphics card. Effectively has hundreds of small cores. For certain tasks (those that can be effectively parallelized), a GPU is much faster than a general-purpose CPU. Ocelote has 46 Nvidia Pascal P100 (mixed precision) GPUs and ElGato has 140 Nvidia Tesla K20 (single-precision) GPU's.
A program that runs multiple tasks or software threads, each of which sees the same available memory available from the operating system, and shares that memory using one of the multiple shared memory/multi-threading communication methods (OpenMP, pthreads, POSIX shm, MPI over shared memory, etc.). Shared memory programs cannot run across multiple nodes. Implies a limit (a little less than the amount of memory in the node) to the memory size of the running program.
In software, a program or group of programs that run on multiple nodes or shared-memory instances and use programs such as MPI to communicate between the nodes. In hardware, a cluster that runs distributed-memory programs. Distributed-memory programs are limited in memory size only by job limits to support many users.
message passing interface, software standard used for most programs that use distributed memory. MPI calls lower-level functions, either networking or shared memory. On a cluster that means it can run transparently either on one node or multiple nodes. MPI has multiple implementations (OpenMPI, MVAPICH, OpenMPI or Intel MPI) that must be used consistently to both compile and run an MPI program.
A software program that cannot take advantage of multi-threading because it was written without multi-threading support. Essentially can use only one core on one node regardless of the number of cores available. Multiple single-threaded programs can be run on a single node on multiple cores.
A design element used to make fast computers affordable. Memory is arranged in levels with very small and very fast and very expensive levels close to the CPU, and each succeeding level is made larger and slower. Most modern computers have registers (very fast and of KB size), L1 to L3 or L4 cache of MB size, and main memory of GB size, or “memory” if unspecified. The operating system automatically handles staging data from main memory through the cache and registers, unless the programmer uses assembly language to control that staging. This process makes sequential access to main memory relatively fast, as large blocks of memory can be staged through the cache while computing is ongoing, but random access to main memory is relatively slow, as the processor can idle for 200 cycles while waiting for a single element of main memory.
By analogy with memory hierarchy, the practice of using multiple disk storage systems with an HPC system. Each tier of storage is larger and slower than the preceding tier. The first “scratch” tier is relatively small and fast for a disk, usually composed of SSD, and does most direct data movement to the compute nodes. The last tier may be tape or large and inexpensive disk drives and holds longer term and larger files.
scratch file system
A temporary file system, designed for speed rather than reliability, and the first tier in the storage hierarchy. Usually composed of faster disks, currently SSD.
Solid state disk, memory chips packaged with an interface that appears to the computer to be a disk drive. Faster than rotating disk drives and still more expensive, though decreasing in price over time.
Delay, or the time it takes to access a minimal message over a given network. Used to characterize networks in combination with
the amount of data that can be moved over a network per second.
VM or virtual machine
a program running on a node that emulates a computer and connects the host computer's resources to the emulated computer. The VM runs an operating system, which runs user programs, like a physical computer. Useful for programs that do not consume a lot of CPU time, and also useful to keep user programs from exceeding memory limits, and providing a way to save the state of a user program. A single powerful computer can run a number of VMs. Also container as in Docker, a form of VM that is less isolated from the host computer than is a full VM.
A program that is either multi-task (like MPI) or multi-threaded (like OpenMP) or both, in order to effectively use more cores and more nodes and get more computing done. May be either shared-memory or distributed-memory. Opposite, a serial program.
The efficiency of a parallel program, usually defined as the parallel speedup of the program divided by the number of cores occupied. Speedup is defined as the serial run time divided by the parallel run time. Usually parallel computing introduces overhead, and scaling is less than 1 or 100%. Rarely, running on multiple CPUs can make each task fit within the memory cache of each CPU, avoiding waiting for main memory access, and scaling can exceed 1. In most cases, scaling starts at 1 at 1 core (by definition) and decreases as more cores are added, until some point is reached at which adding more cores adds overhead and makes the program slower.