HubBucket HPC

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HubBucket HPC is a High Performance Computing (HPC) Research and Development (R&D) Division of HubBucket Inc ("HubBucket'), that focuses on Scientific Research, Scientific Exploration, and Scientific Discoveries

High Performance Computing (HPC)
High Performance Computing (HPC)
HubBucket HPC | High Performance Computing Division of HubBucket Inc

We conduct High Performance Computing (HPC) Research and Development (R&D) for Scientific Research, e.g., Astronomy, Astrophysics, Astrobiology, Biology, Cosmology, Dark Matter, Dark Energy, Gravitational Waves, Globular Clusters, (Lyman Alpha Blob LABs) Supernova, Magnetars, Pulsars, Quasars, Black Holes, Supermassive Black Holes, the Cosmic Web, Aerospace, Particle Physics / High Energy Physics (HEP), Quantum Physics, Quantum Mechanics, Fusion Research (Fusion Energy / Fusion Power), etc.

HubBucket HPC | High Performance Computing Division of HubBucket Inc

The HubBucket HPC (High Performance Computing) Division of HubBucket Inc ("HubBucket") conducts Technology Research and Development (R&D) that focuses on High Performance Computing (HPC) with a focus on Scientific Research, Scientific Exploration, and Scientific Discovery.


What is High Performance Computing (HPC)?

High performance computing (HPC) is the practice of aggregating computing resources to gain performance greater than that of a single workstation, server, or computer. HPC can take the form of custom-built supercomputers or groups of individual computers called clusters. HPC can be run on-premises, in the cloud, or as a hybrid of both. Each computer in a cluster is often called a node, with each node responsible for a different task.

Controller nodes run essential services and coordinate work between nodes, interactive nodes or login nodes act as the hosts that users log in to, either by graphical user interface or command line, and compute or worker nodes execute the computations. Algorithms and software are run in parallel on each node of the cluster to help perform its given task. HPC typically has three main components: compute, storage, and networking.

HPC allows companies and researchers to aggregate computing resources to solve problems that are either too large for standard computers to handle individually or would take too long to process. For this reason, it is also sometimes referred to as Supercomputing.

HPC is used to solve problems in academic research, science, design, simulation, and business intelligence. HPC’s ability to quickly process massive amounts of data powers some of the most fundamental aspects of today’s society, such as the capability for banks to verify fraud on millions of credit card transactions at once, for automakers to test your car’s design for crash safety, or to know what the weather is going to be like tomorrow.

HubBucket HPC | High Performance Computing Division of HubBucket Inc

How does High Performance Computing (HPC) work in the 21st Century?

A standard computing system solves problems primarily by using serial computing. It divides the workload into a sequence of tasks and then runs the tasks one after the other on the same processor.

Massively Parallel Computing:

Parallel computing runs multiple tasks simultaneously on numerous computer servers or processors. HPC uses massively parallel computing, which uses tens of thousands to millions of processors or processor cores.

Computer Clusters (also called HPC Clusters):

An HPC cluster comprises multiple high-speed computer servers networked with a centralized scheduler that manages the parallel computing workload. The computers, called nodes, use either high-performance multi-core CPUs or—more likely today—GPUs, which are well suited for rigorous mathematical calculations, machine learning (ML) models and graphics-intensive tasks. A single HPC cluster can include 100,000 or more nodes. Linux is the most widely used operating system for running HPC clusters. Other operating systems include Windows, Ubuntu and Unix.

High Performance Computing (HPC) components:

All the other computing resources in an HPC cluster—such as networking, memory, storage and file systems—are high speed and high throughput. They are also low-latency components that can keep pace with the nodes and optimize the computing power and performance of the cluster.

Message Passing Interface (MPI):

HPC workloads rely on a message passing interface (MPI), a standard library and protocol for parallel computer programming that allows users to communicate between nodes in a cluster or across a network.

HubBucket HPC | High Performance Computing Division of HubBucket Inc

HubBucket Inc ("HubBucket") is a completely (100%) Self-Funded / Bootstrapped, Research and Development (R&D) organization. HubBucket Inc ("HubBucket") was legally founded in 2016 in New York State (NYS) by Mr. VonVictor Valentino Rosenchild, who is the Founder, Chairman, President/CEO of HubBucket Inc.

HubBucket Inc ("HubBucket") is currently only located in the Untied States of America (USA); New York State (NYS); Brooklyn, NY. HubBucket Inc ("HubBucket") supports and promotes Diversity, Equity, and Inclusion (DEI) in Science, Technology, Engineering, and Mathematics (STEM) fields, professions / jobs, internships, education, institutions, agencies, organizations, and businesses.

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