What is TurbOS®?
TurbOS® is an all-in-one high-performance computing (HPC) operating system designed to simplify and accelerate the deployment of supercomputing resources. Whether you're running complex simulations, training AI models, or processing massive datasets, TurbOS transforms a collection of computersor servers into a powerful, easy-to-manage supercomputer.
With TurbOS, you can stand up a fully functional HPC cluster in hours—not days—while optimizing workloads across CPUs and GPUs for peak performance.
Turn-Key Simplicity
Pre-configured for optimal HPC infrastructure performance
Scalable Performance
Seemlessly add more compute power as your needs grow.
Effortless Management
A unified system for job scheduling, resource allocation, and monitoring.
Built for Security
Supports unclassified, classified, and controlled environments
TurbOS® Makes CPUs & GPUs Work in Parallel
In high-performance computing (HPC), complex problems are solved faster by breaking them into smaller tasks that run simultaneously—a method known as parallel computing. This approach utilizes both Central Processing Units (CPUs) and Graphics Processing Units (GPUs):
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CPUs: Often referred to as the 'brains' of the computer, CPUs handle a wide range of tasks. They are optimized for sequential processing, executing instructions one after another.
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GPUs: Originally designed for rendering images and videos, GPUs excel at handling multiple tasks at the same time. They are optimized for parallel processing, making them ideal for tasks like simulations and data analysis.
By leveraging both CPUs and GPUs in parallel computing, HPC systems can perform numerous calculations simultaneously, significantly reducing the time required for data processing and complex computations.
TurbOS® Automates Your Work For You
Slurm Workload Manager is pre-loaded and configured to efficiently manage your job scheduling, allocates resources such as CPUs or GPUs, provides a framework for starting, executing, and monitoring work, and controls access to the compute nodes.
Reliable system
Efficiently schedules jobs, ensuring that resources are allocated and executed in a timely manner.
Resource Allocation
Easily manage a variety of CPU and GPU resources, enabling your team to allocate their work quickly and easily.
Work Management
Comprehensive framework for starting, executing, and monitoring work, streamlining the workflow and enhancing productivity.
Access Control
Control access to compute nodes, ensuring that only authorized users can access resources, enhancing security and preventing unauthorized access.
How TurbOS® is Constructed
It all begins with a robust Linux-based operating system... and we Hoonified it to create the ultimate turn-key supercomputing operating system.
Enterprise Linux
Built on Fedora-based distributions (e.g., Rocky Linux, RedHat Linux, etc.), an enterprise-grade operating system known for its high degree of customization, stability, and security.
Hoonified Runtime Environment
A software suite designed for high-performance computing, including utilities, compilers, and packages, tailored for Intel x86-64 and NVIDIA systems to support code development, testing, and enhancement.
Hoonified Application Zone
Our software stack is designed to maximize customer applications for speed, with tools to create and configure new apps, supporting the latest AI and ML technologies such as CUDA, TensorFlow, and PyTorch.
Interactive Desktop
The included desktop environment offers highly customizable features such as multiple workspaces, advanced window management, a file manager, a centralized system settings application, and a software center for easy application management.
TurbOS® Supported Applications
The following applications are currently supported and optimized within TurbOS and we continue to add more. If you don't see your application, let us know!
A fully integrated particle physics Monte Carlo simulation package used for the interaction and transport of particles in matter.
A computational fluid dynamics software package used for simulating fluid flow over complex geometries, particularly in aerospace applications.
A code for cosmological simulations, designed for modeling the formation and evolution of large-scale structure in the universe.
A software toolkit for the simulation of the passage of particles through matter, used in high energy physics and medical physics.
A versatile package used for molecular dynamics simulations, particularly for bio-molecular systems such as proteins, lipids, and nucleic acids.
A high-level programming language and interactive environment for numerical computation, visualization, and programming.
A parallel molecular dynamics simulation software designed for high-performance simulations of large biomolecular systems.
A computational fluid dynamics software package used for simulating fluid flow and heat transfer in complex geometries.
A code coupling ADVANTG with SCALE to provide automated variance reduction parameters for continuous-energy Monte Carlo simulations.
A Monte Carlo radiation transport simulation code used for nuclear reactor design, radiation shielding, and medical physics applications.
A powerful computational fluid dynamics software for simulating high-speed reactive flows, shock waves, and multi-material interactions.
A widely-used molecular dynamics simulation software for studying materials science, chemistry, and biology at the atomic and molecular scales.
We Welcome your Questions
We equip our customers with simplified, secure, and on-demand parallel computing capabilities with optimal applications and workflows.