Engineering for Extreme Compute Loads.

Application Areas

BNE AG plans, builds, and operates compute clusters for organizations whose AI models, simulations, or cryptography workloads push traditional IT to its limits.

At our Swiss site, fully managed, with stable energy prices and a transparent operational path.

High-Performance Systems

Swiss Data Center

24/7 Monitoring & Operations

Who is it for?

BNE AG is the right choice for teams whose compute load is strategically relevant and operationally demanding:

Businesses, research groups, AI teams, engineering departments, and security-critical organizations.

AI Models with High Resource Requirements

Training, fine-tuning, and inference of large models requiring massive parallelization.

Simulations & Numerical Methods

Financial models, material simulations, optimization methods, or risk analyses.

Cryptography & Security Applications

Compute-intensive encryption, verification, or analysis processes.

Data-Driven Research Projects

Continuous high-load jobs with sensitive or confidential datasets.

Cloud-Inefficient Workloads

Unpredictable cost development, unstable performance, or no dedicated infrastructure.

Why Traditional Setups Reach Their Limits

Compute-intensive workloads rarely fail due to individual components, but due to the combination of power, cooling, network, procurement, and operations.

01

Unstable Performance

The infrastructure cannot handle peak loads or behaves unpredictably as model sizes increase.

02

No Scaling Path

Power, cooling, or space are not prepared – growth becomes an infrastructure project with delays.

03

Opaque Cloud Costs

High-parallelization workloads quickly become uneconomical or difficult to plan with hyperscalers.

04

Operational Risks

Monitoring, response, and incident handling are distributed – no one is accountable for overall stability.

05

Compliance Hurdles

In high-compute environments, locations, access, and operational processes can often only be documented to a limited extent.

BNE AG not only gets extreme compute loads running but ensures stable continuous operation – on an infrastructure that is physically prepared, technically well-conceived, and operationally secured.

Stable Operation

Instead of “Best Effort”: Production environment with clear responsibilities.

Predictable Scaling

Instead of improvisation: Power and supply chain are designed for growth.

Clear Processes

Instead of a black box: Transparent insight into location and processes.

How We Work

The 4-Step Process

Step 01

Analysis & Design

Load profiles are continuously monitored to optimize cooling and grid load. Development of a technical architecture including risk assessment.

Step 02

Infrastructure & Installation

Delivery, installation according to playbook, cabling. Recording of all components (asset tags) and network paths.

Step 03

Operations & Monitoring

24/7 monitoring, tiered escalation scheme. Every change is documented.

Step 04

Scaling & Optimization

Phased expansions without interruption. Performance optimization based on real monitoring data.

Swiss Site

Security Zones

Reception, production area, and operational areas are clearly separated. Access rights are role-based and logged. Access to sensitive areas is only permitted when accompanied.

Defined Paths & Layout

Racks, cable routes, power distribution, and cooling paths follow a fixed layout. Service points and maintenance zones are marked. Floor loads and rack positions are documented.

Provisioned Capacity

The site has a prepared connection capacity (up to approx. 2.5 MW) as well as coordinated grid and feed-in points. This enables predictable growth.

Physical Security

Cameras monitor the relevant zones. Asset tags and serial number registers ensure clear assignment. Visits follow fixed rules.

Operations as a Process

24/7 Monitoring

24/7 monitoring (load, temperature). Alarms follow a tiered escalation scheme with defined response times.

Structured Maintenance

Maintenance in planned windows according to checklists. Change management with tests and backout plan.

Incident Handling

Fixed scheme: Detection → Stabilization → Analysis → Measures. Incidents are documented.

Security

Access logged, sensitive zones only with escort. Physical and technical security are integrated.

Power & Continuity

Power supply is a sequentially controlled technical process

Predictable Foundation

Supply secured long-term and coordinated with the grid operator. Load limits and reserves are documented.

Transparent Source

Sourced from renewable sources. Origin and quality are verifiably documented.

Load Architecture

Load profiles are continuously recorded for the optimization of cooling and grid load. Technical planning instead of financial speculation.

Constant Costs

Stable energy cost structure. Currency, taxes, and positions are consistently managed.

Growth & Scaling

01

Prepared

Connection capacity, network paths, and cooling capacities are designed for growth.

02

Rollout

Phased expansions according to installation playbook. Legacy systems continue to operate.

03

Supply Chain

Framework agreements and serial number registration. Logistics follow a repeatable scheme.

04

Full Operation

Clear timelines for expansion steps. Transparent communication until stability.

What Customers Say

"What was crucial for me was how clearly and understandably the complex topics were explained. The collaboration is professional, transparent, and characterized by genuine interest."

Roland K.

"We find the collaboration very pleasant and technically sound. The personal contact during ongoing operations is particularly valuable."

Thomas B.