Custom-fit modular data centers for AI and edge compute
Trusted by partners, proven in the field
Built for demanding sites and on-prem workloads, our prefabricated modular data center solutions deliver 5–150 kW per rack.
Multiple modular data center cooling options — including free-cooling — and Tier III/IV modular data center design principles ensure reliable, efficient operation in any environment.
No commitment. NDA available.
Containerized Modular Data Center Specs that Solve Real Problems
Power and density
5–150 kW per rack. Modular, containerized compute capacity for mixed workloads — scalable without overbuilding.
Cooling options
DX, chilled-water, adiabatic, or free-cooling systems built into prefabricated modules. Each container data center is tuned to site climate and energy efficiency for predictable PUE.
Environmental Hardening
Ruggedized modular enclosures for dust, sand, humidity, and vibration. Operates from –35 °C to +52 °C with optional EMP-shielded packages for mobile or remote sites.
Integrated Infrastructure
Prefabricated racks, UPS/power, cooling, fire suppression, monitoring, and access systems — a complete portable data center solution ready for fast deployment.
Availability & Scalability by Design
Built to meet Tier III/IV principles and fully tested (FAT/SAT). Modular, redeployable design enables 3–6 month custom builds and stepwise expansion of containerized sites.
Efficient Logistics
Modules sized for EU-compliant road transport to avoid oversize-load permits and escorts. Mobile, prefabricated construction shortens deployment time and lowers total cost.
Two paths to value
How ModulEdge works
Partners and OEMs
White-label-ready modular data centers you can brand as your own. Configure power (5–150 kW/rack), cooling, and hardening for each deployment. We provide engineering and modular data center construction support from design review through FAT/SAT, plus branding kits and partner collateral.
Request partner pack
Operators and Enterprises
On‑prem control with edge‑class performance. Match density and cooling to your workload and climate, then expand in modular steps with predictable TCO. Commissioned with FAT in factory and SAT on site.
Request partner pack
How modular data center design drives results
Resilience and
on‑prem control
Designed to meet Tier III-IV principles with integrated power/UPS, cooling, fire suppression, monitoring, and access/CCTV. Factory‑tested (FAT) and verified on site (SAT). Environmental hardening and vibration tolerance; optional EMP shielding.
Performance matched to workload and climate
Configure 5–150 kW per rack with flexible modular data center cooling systems (DX, chilled-water, adiabatic, free-cooling) for predictable efficiency in any region.
Predictable TCO and modular growth
Standard 20- and 40-ft data center containers with redeployable footprints. Expand capacity as demand grows - typical containerized modular data center builds complete in 3–6 months.
Contact Us
Get your configuration – Fast path to sizing
Answer a few questions and receive an indicative configuration matched to your workload, climate, and site constraints.
Real deployments, real constraints
Shielded Modular Data Center (EMP/IEMI Protection)
Fully shielded modular enclosure with verified Faraday-grade protection, EMP-rated SPDs, and concurrent-maintainable power/cooling for sensitive workloads.
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Public-Sector Modular Data Center (Energy-Efficient, Relocatable Build)
Two joined 40-ft containerized data centers hosting up to 120 kW IT load, combining hybrid free-cooling with DX systems for Tier III resilience and low OPEX.
Read the case study
Modular Data Centers for National Road-Traffic Video Capture Infrastructure
Two-site, four-module complex providing 320 kW total IT load, N+1 power and cooling, and full data replication for nationwide traffic-violation analytics.
Read the case study
Use cases
Designed to meet Tier III-IV principles with integrated power/UPS, cooling, fire suppression, and access/CCTV. Factory‑tested and verified on site (SAT). Environmental hardening and vibration tolerance; optional EMP shielding.
ENERGY AND O&G
(REMOTE SUBSTATIONS, PADS)
Low‑latency analytics and control on harsh sites with dust/humidity hardening and vibration tolerance; redeployable footprint.
MINING
(PIT AND PLANT)
Edge processing for sorting/vision and telemetry; ruggedized cooling for heat and dust.
INDUSTRIAL AUTOMATION AND ROBOTICS
Real‑time control and QA near the line; power/ cooling matched to workload and climate; designed to support Tier I–IV reliability levels, matching each project’s required balance of uptime and cost.
TELECOM
5G EDGE
Density for vRAN/MEC close to users; predictable PUE with DX/chilled‑water/adiabatic/free‑cooling options.
RENEWABLES (WIND/SOLAR/HYDRO)
Monitoring and predictive maintenance with on‑prem control; modules sized for constrained pads and remote access.
LOGISTICS
AND PORTS
Computer‑vision and IoT ingestion at the perimeter; integrated power, cooling, fire, monitoring, and access/CCTV.
How We Shape Your Data Center Together
01
DEFINE YOUR NEEDS
You share workloads, environment, and required reliability level (Tier I–IV). Together we define a technical brief for your modular data center that capturing power, cooling, security, and space constraints.
02
CONFIGURE YOUR MODULE
We translate your needs into a tailored design. You can choose from all-in-one or separate IT, power, and cooling blocks; specify rack sizes; airflow direction;
03
ALIGN SITE REQUIREMENTS
We provide detailed specs for site preparation: power feeds, fiber optics, water/cooling loops, and access points. This ensures a seamless plug-and-play connection when your data center container arrives on-site.
04
BUILD AND TEST IN FACTORY
Your modules are manufactured, equipped, and fully integrated with UPS, cooling, fire suppression, and monitoring. Before shipment, we run complete acceptance tests, so reliability is proven before it leaves the factory.
05
DEFINE YOUR CONNECT
Modules are transported on public roads (within standard dimensions), placed on your site, and connected to external utilities. No complex on-site build is needed.
06
COMMISSION AND HANDOVER
Final testing happens in your environment, and we hand over a documented, monitored, and operator-ready MDC — with the resilience and customization agreed at step one.
Book a 30-min design review
Blog
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Mobile vs Portable Modular Data Centers: Rooftop, Parking-Lot, and Temporary Capacity Playbook
Choose the right outside-first siting model — mobile data center or portable modular — with a complete playbook: use-case matching, siting checklist, and three site readiness templates.
Read the article
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Container Data Center: What a "Data Center in a Container" Really Means (and What to Specify)
Practical spec guide for containerized data centers: mechanical/electrical interfaces, transport limits, commissioning tests, monitoring integration (SNMP/Redfish/Modbus), and security baseline controls.
Read the article
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Modular vs Prefabricated vs Containerized Data Centers: Procurement Guide
Three terms that flood procurement documents. Three concepts most project teams use interchangeably. One result: mismatched bids, scope disputes, and deployments that miss the brief. This guide is for MEP architects, infrastructure agency leads, and systems integrators writing technical specifications.
Read the article
FAQ
What is a modular data center?
A modular data center is a prefabricated, container-based facility that integrates racks, power distribution, cooling, fire suppression, and security systems inside a portable enclosure. ModulEdge builds them in 20-ft and 40-ft ISO containers, supporting 4 to 16+ racks with power densities from 5 to 150 kW per rack. They ship fully tested and deploy in 3 to 6 months.
Why consider a modular data center instead of a traditional build?
Traditional data centers take years to build on-site and carry significant construction risk. Modular data centers are built in controlled factory conditions, fully tested before shipment, and deploy in months, not years. You get predictable performance, step-by-step scalability, and on-premise control without the overhead of a conventional build.
Does your infrastructure support AI inference and model fine-tuning?
Yes. Our high-density configurations start at 40 kW per rack and go up to 150 kW with direct-to-chip liquid cooling. We support NVIDIA B200, GB200, H200, H100 and AMD GPU servers. The thermal management and power infrastructure are purpose-built for sustained AI workloads at the edge.
What's the typical lead time?
Custom builds take 3 to 6 months depending on configuration complexity and site readiness for power and networking.
How do you handle hot or variable climates?
We match cooling to your climate and energy economics. Options include DX cooling (5 to 15 kW/rack), chilled water, adiabatic, free cooling, and hybrid systems (15 to 40 kW/rack). For high-density AI workloads, we offer direct-to-chip liquid cooling up to 100+ kW per rack.
Can the modules handle harsh environments?
Yes. Our modules operate from -35°C to +52°C, which is significantly wider than the industry standard range. They include dust, sand, and humidity hardening, vibration tolerance, and optional EMP/IEMI Faraday-grade shielding for critical infrastructure and defense applications.
Can we redeploy modules later?
Yes. Standard 20-ft and 40-ft ISO containers are designed for relocation. We provide placement and relocation support as part of our service.
Do you sell direct or via partners?
Both. We work with system integrators, OEM partners, and white-label channels, and we also engage directly with end clients on larger projects. Our partner program supports resellers with technical design, marketing, and delivery coordination.