High-Density Colocation

Accommodate high-performance computing (HPC) and artificial intelligence (AI) workloads with high-density colocation cabinets. Built to deliver modern and efficient cooling, robust power infrastructure, and secure and scalable space for the most demanding environments.

High-Density Colocation Revolutionizes Business Growth

16 kW

per rack (air-cooled).

Rapid resolution

to safeguard operational continuity.

99.985%

SLA-backed power availability.

Scalable connectivity

for demanding workloads.

Architecture

Performance-Optimized Architecture

Cooling and Cabinets location

Cold aisle containment with high-efficiency racks, blanking panels, and raised-floor air injection. Engineered to support high-density deployments without requiring liquid cooling.

Network

Dual top-of-rack switching with redundant uplinks to the spine layer. Integrated with Tier-1 transit providers and dedicated dark fiber for inter-site connectivity.

Data cabling

Fiber, copper, and management cables organized in low-profile trays, separated by type to optimize airflow, enhance safety, and enable rapid maintenance.

Power

Dual (A+B) three-phase power delivery from independent, fault-tolerant blocks. Color-coded and actively monitored to ensure load balancing and operational safety.

Elite Network Fabric

Global Connectivity &
Ultra-Low Latency

Carrier-Neutral Peering & IX Connectivity

Enterprise clients benefit from full BGP support, direct access to top-tier European Internet Exchanges and a neutral interconnection policy enabling optimized latency and carrier flexibility.

Tier 1 IP Transit Providers

We maintain direct uplinks to Tier-1 providers including NTT, Cogent, and Colt. This ensures multi-homed redundancy, consistent throughput, and globally optimized routing paths—without intermediary bottlenecks.

Resilient Network Architecture

Our leaf-spine architecture ensures deterministic performance and robust fault isolation. Redundant network paths, multi-chassis link aggregation, and dual power domains per switch create a resilient platform engineered for uninterrupted operations.

High-Speed Inter-Data Center Links

AMS3 is interconnected with other partner data center locations via high-capacity metro dark fiber, with scalable upgrade potential. This connectivity supports regional failover, active-active routing, and seamless workload distribution across sites.

Core Network Design

In-rack management is logically and physically isolated. Server uplinks terminate on dual leafs, which are connected to core spines in a fully non-blocking mesh—engineered for east-west and north-south traffic symmetry.

Cross-Connect & Patch Panel Capabilities

Redundant pre-cabled patch panels in each row allow low-latency interconnects to carriers, clients, and on-premise workloads. Sufficient capacity is reserved for future expansions without service interruption.

Use cases

Solutions for Demanding
Enterprise Workflows

GPU-Intensive Workloads

Deploy compute-heavy infrastructure for ML, AI, or data processing workloads with high-density racks supporting up to 16 kW per cabinet. Air-cooled configurations, optimized airflow, and structured thermal zones ensure reliable operation without requiring liquid cooling.

Fintech & iGaming

Ensure compliance readiness, IP address continuity, and contractual uptime commitments for regulated environments. Partner data centers provide secure power redundancy, high-density cabinet capacity, and resilient network performance—ideal for backend systems supporting transactional workloads and real-time risk analysis.

Streaming & Content Delivery

Run video, audio, or interactive platforms on infrastructure engineered for low-latency delivery and broad regional coverage. High-capacity server connectivity and diverse Tier-1 uplinks ensure efficient traffic distribution and consistent end-user experience.

Featured Components of
High-Density Colocation

High-Performance Computing Power

Support demanding workloads such as AI accelerators and accelerated GPU computing with rack densities in excess of 16 kW using direct to chip and liquid-air cooling solution.

Peering & Interconnection Access

Connect to regional and global exchange points in a carrier-neutral environment, with flexible routing and peering options.

Upstream Transit Availability

Access multiple Tier 1 providers for high-performance internet transit, delivered with redundancy and full routing autonomy.

Network Resilience Design

SBuilt-in failover and redundant uplink paths ensure network continuity and stability under all load conditions.

Metro-Scale Data Center Links

Dedicated fiber paths between facilities support cross-site replication, distributed infrastructure, and high availability.

Cross-Connect Infrastructure

Structured patch panels and labeled interconnects enable efficient, low-latency connectivity between tenants, carriers, and service zones.

Why Us

Why Dataweb Global Group?

Dataweb Global is chosen by enterprises that need infrastructure tailored to performance, compliance, and reliability.

Global Coverage

Interconnected data center locations and network infrastructure enable consistent performance, regional resilience, and seamless reach across key markets.

Security and Compliance

Facilities and operations are designed to meet stringent governance requirements, safeguard sensitive workloads, and support adherence to industry and regional regulations.

Hardware and Supply Chain Excellence

Strategic vendor partnerships and streamlined logistics ensure timely hardware availability, optimized configurations, and lifecycle continuity for critical infrastructure.

faq

Frequently Asked Questions

How do you handle power delivery for high-density racks?

Each cabinet is provisioned with dual three-phase PDUs on separate power feeds, supplied from independent distribution sources and color-coded for clarity. The redundant design supports seamless failover, reduces the risk of human error during maintenance, and sustains continuous operation under heavy compute loads.

What industries benefit most from high-density colocation?

High-density infrastructure is well-suited for sectors with intensive processing needs, including financial services, gaming, scientific research, media, and AI/ML workloads.

Can high-density racks be reconfigured as requirements evolve?

Yes. Rack layouts, power allocation, and connectivity can be adjusted to accommodate changes in workload density, hardware type, or network topology.

High-Density Colocation