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Description

Charg is a platform for managing the lifecycle of AI infrastructure, converting established enterprise-grade supercomputing systems into adaptable cloud environments for AI and high-performance computing. The public HPC cloud offered by Charg allows access to resources ranging from a single GPU to an extensive 60+ PFLOPS cluster, enabling teams to harness supercomputing capabilities without the need to own or maintain the physical hardware. It utilizes advanced CRAY supercomputers and the robust NVIDIA DGX architecture, which integrates clustered NVIDIA V100 GPUs with 200 GbE InfiniBand networking and extensive all-flash CEPH storage, ensuring low-latency and high-throughput performance. Charg is specifically designed to handle intensive AI tasks, scientific research, and engineering computations, facilitating activities such as model training, large-scale inference, simulations, intricate data analysis, finite element analysis, and computational fluid dynamics. With an API-driven infrastructure, Charg not only scales seamlessly with existing workflows but also offers on-demand capacity, free from operational limitations, making it an ideal choice for diverse computational needs. This flexibility ensures that organizations can dynamically adjust their resources to meet changing demands without any hassle.

Description

Persistence container technology facilitates efficient operations with a lightweight approach, allowing users to pay for usage by the second instead of waiting for hours or months. The payment process, which will occur via credit card, is set for the following month. This technology offers high performance at a competitive price compared to alternative solutions. Furthermore, it is set to be deployed in the fastest supercomputer globally at Oak Ridge National Laboratory. Various machine learning applications, including deep learning, computational fluid dynamics, video encoding, 3D graphics workstations, 3D rendering, visual effects, computational finance, seismic analysis, molecular modeling, and genomics, will benefit from this technology, along with other GPU workloads in server environments. The versatility of these applications demonstrates the broad impact of persistence container technology across different scientific and computational fields.

API Access

Has API

API Access

Has API

Screenshots View All

Screenshots View All

Integrations

Keras
PyTorch
TensorFlow

Integrations

Keras
PyTorch
TensorFlow

Pricing Details

$0.99 per hour
Free Trial
Free Version

Pricing Details

$0.0992 per hour
Free Trial
Free Version

Deployment

Web-Based
On-Premises
iPhone App
iPad App
Android App
Windows
Mac
Linux
Chromebook

Deployment

Web-Based
On-Premises
iPhone App
iPad App
Android App
Windows
Mac
Linux
Chromebook

Customer Support

Business Hours
Live Rep (24/7)
Online Support

Customer Support

Business Hours
Live Rep (24/7)
Online Support

Types of Training

Training Docs
Webinars
Live Training (Online)
In Person

Types of Training

Training Docs
Webinars
Live Training (Online)
In Person

Vendor Details

Company Name

Charg

Country

United States

Website

charg.cloud/

Vendor Details

Company Name

GPUEater

Country

United States

Website

gpueater.com

Product Features

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Alternatives

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