Solutions
Management and Optimization of Supercomputers
HPC Development
We offer advanced supercomputing solutions with modular and scalable architecture for data centers, scientific research and processing-intensive industries.
Technology and Benchmarking
Benchmarking performance and selecting optimal technologies.
Project Conceptualization
Strategic design of HPC architectures adapted to each use case.
Cooling Technology
Efficient cooling systems for maximum operability.
Energy Systems and Cooling Technologies
Robust and sustainable energy infrastructure for computing clusters.
Development Modular Engineering
Each module can be developed, tested and maintained separately, and then integrated into a complete system. This approach improves flexibility, scalability, maintainability, and speed of deployment:
Modular hardware
It uses interchangeable compute nodes, storage drives, and network components in blade or rack-mounted chassis for easy upgrade and maintenance.
Data Center Modularity
Deploy pre-built, containerized HPC clusters that can be quickly scaled or relocated.
Modular software
Build layered HPC software stacks (e.g., operating systems, middleware, compilers, MPI libraries) that can be developed or updated independently.
Development Procure
Selection, acquisition and logistics of critical components.
Implementation Models
From engineering to implementation, we develop HPC solutions tailored to your needs.
Infrastructure
On-Premise
Locally installed data centers.
In the Cloud
(Cloud-Based)
HPC as a service on cloud platforms.
Configuration
Hybrid
Optimized combination of local and cloud resources.
Edge
Computing
Distributed HPC close to data sources.
Solutions
HPC Development
We offer advanced supercomputing solutions with modular and scalable architecture for data centers, scientific research and processing-intensive industries.
Benchmarking performance and selecting optimal technologies.
Strategic design of HPC architectures adapted to each use case.
Efficient cooling systems for maximum operability.
Robust and sustainable energy infrastructure for computing clusters.
HPC - Technology and Benchmarking
Benchmarking performance and selecting optimal technologies.
HPC - Project Conceptualization
Strategic design of HPC architectures adapted to each use case.
HPC - Cooling Technology
Efficient cooling systems for maximum operability.
HPC - Energy Systems and Cooling Technologies
Robust and sustainable energy infrastructure for computing clusters.
Development Modular Engineering
Each module can be developed, tested and maintained separately, and then integrated into a complete system. This approach improves flexibility, scalability, maintainability, and speed of deployment:
It uses interchangeable compute nodes, storage drives, and network components in blade or rack-mounted chassis for easy upgrade and maintenance.
Deploy pre-built, containerized HPC clusters that can be quickly scaled or relocated.
Build layered HPC software stacks (e.g., operating systems, middleware, compilers, MPI libraries) that can be developed or updated independently.
Modular hardware
It uses interchangeable compute nodes, storage drives, and network components in blade or rack-mounted chassis for easy upgrade and maintenance.
Data Center Modularity
Deploy pre-built, containerized HPC clusters that can be quickly scaled or relocated.
Modular software
Build layered HPC software stacks (e.g., operating systems, middleware, compilers, MPI libraries) that can be developed or updated independently.
Development Procure
Selection, acquisition and logistics of critical components.
Implementation Models
From engineering to implementation, we develop HPC solutions tailored to your needs.
Locally installed data centers.
HPC as a service on cloud platforms.
Optimized combination of local and cloud resources.
Distributed HPC close to data sources.
Infrastructure
On-Premise
Locally installed data centers.
In the Cloud
(Cloud-Based)
HPC as a service on cloud platforms.
Configuration
Hybrid
Optimized combination of local and cloud resources.
Edge
Computing
Distributed HPC close to data sources.
Services
Development Integration & Escalation
Assembly, configuration and expansion of an HPC system to ensure its operation as a unified, high-performance environment, capable of meeting current and future computing demands:
Integration
- Connection of computing, storage and network components.
- Installation and configuration of the software stack (programmers, compilers, etc.).
- Ensure interoperability and performance optimization for specific workloads.
- Installation and configuration of the software stack (programmers, compilers, etc.).
- Ensure interoperability and performance optimization for specific workloads.
Scaling
- Vertical scaling: Improved performance of individual nodes (e.g. more memory, faster CPUs).
- Horizontal scaling: Adding more nodes to increase parallel processing capacity.
- Guarantee the scalability of applications and infrastructure.
- Horizontal scaling: Adding more nodes to increase parallel processing capacity.
- Guarantee the scalability of applications and infrastructure.
Development Cloud
We guarantee operational continuity with monitoring, adjustments and specialized technical support, adapted to each environment.
Self-managed HPC over IaaS
Full control over virtual infrastructure.
Fully Managed HPC in the Cloud (HPCaaS)
Fully managed HPC in the cloud
Hybrid HPC (On-Premise + Cloud Bursting)
Bursting between local and cloud on demand.
Containerized HPC (Cloud-Native)
HPC based on microservices and containers.
Dedicated Bare Metal HPC in the Cloud
Maximum performance on physical servers.
Execution of Tasks by Bursting towards the Cloud
Temporary expansion of capacity in the cloud.
Development AI training
We accelerate artificial intelligence processes through HPC platforms specialized in model storage, training and optimization.
Big Data Storage
Management of large volumes of structured and unstructured data with high performance.
AI model development
Construction of intelligent architectures with machine and deep learning techniques.
Training AI models
Efficient optimization and training of models using parallel computing resources and accelerators such as GPUs.
Maintenance and Support
Post-Implementation
Ensures continued stability, performance, and usability of an HPC system after deployment.
System monitoring and alerts
Tools such as Nagios, Prometheus or Ganglia monitor the status and performance of the system.
Hardware maintenance
Component replacement, firmware updates and RMA services at the vendor level.
User support and technical support
Ticketing systems (e.g. JIRA, ServiceNow) and technical documentation for users.
Performance tuning
Profiling tools (e.g. Intel VTune, NVIDIA Nsight) to optimize workloads.
Task scheduling and resource management
Support for tools such as Slurm, PBS or LSF for queue management and tuning.
Software and security update
Regularly patching the operating system, libraries (e.g. OpenMPI, CUDA) and vulnerability fixes.
Backup and disaster recovery
Implementation of data backup, snapshot and failover systems.
Capacity planning and scaling support
Usage analysis to guide updates or expansion strategies.
Do you need more processing capacity for your data and innovation challenges?
Our supercomputing services are designed to enhance complex projects in scientific, financial and industrial sectors.
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