Hyperscale AI Data Center Design-Build Solutions
ESDMC provides design-build solutions for next-generation AI data center facilities engineered to support ultra-high-density compute environments, advanced cooling architectures, and mission-critical uptime requirements. We specialize in facilities designed for AI/ML workloads, GPU clusters, and accelerated computing, where rack densities, thermal loads, and power infrastructure significantly exceed traditional data center benchmarks.
Built for the Next Generation of Compute
AI-driven infrastructure is redefining data center design parameters:
- Rack densities moving from 10–20 kW (traditional) to 80 kW – 300+ kW per rack
- Campus-scale deployments exceeding 100MW+ critical load
- Increasing reliance on liquid cooling (direct-to-chip and immersion)
- Higher demands on power quality, redundancy, and thermal stability
ESDMC aligns design and construction execution with these realities—bridging the gap between conceptual engineering and field-level constructability to deliver facilities that perform under sustained, high-output compute loads.
Core Capabilities
Site Selection, Power Strategy & Feasibility
- Utility capacity analysis (substation proximity, redundancy options, dual-feed viability)
- Evaluation of available MW capacity and interconnection timelines
- Land planning for phased campus deployments
- Flood zone, elevation, and resiliency planning (critical for coastal and hurricane-prone regions)
- Fiber access, latency considerations, and carrier diversity
Mission-Critical Design Coordination
- Integrated coordination across civil, structural, architectural, mechanical, electrical, and controls
- Planning for Tier III / Tier IV-equivalent resiliency strategies
- Space planning for high-density data halls, support infrastructure, and future expansion
- Structural coordination for high floor loading and equipment density
- BIM-driven clash detection and constructability validation
High-Density Cooling Infrastructure
- Design-build execution for liquid cooling-ready environments, including:
- Direct-to-chip liquid cooling systems
- Rear door heat exchangers
- Immersion cooling readiness (single-phase / two-phase)
- Coordination of:
- CDU (Coolant Distribution Units)
- Secondary fluid loops
- Heat rejection systems (cooling towers, dry coolers, hybrid systems)
- Integration of hot aisle / cold aisle containment and hybrid air/liquid strategies
- Mechanical redundancy
- Optimization for PUE reduction and thermal efficiency under variable AI loads
Electrical Infrastructure & Power Distribution
- Utility-to-rack power architecture including:
- Medium voltage distribution
- Switchgear and paralleling gear
- Generators and fuel systems (diesel / alternative fuels)
- UPS systems (centralized and distributed architectures)
- Design and construction for high-density rack distribution:
- Redundancy strategies:
- Power quality and harmonics mitigation for AI workloads
- Future-proofing for increasing rack densities and evolving hardware requirements
Design-Build Delivery Model
- Single-source accountability from pre-construction through commissioning
- Early procurement strategies for long-lead equipment:
- Switchgear
- Generators
- Cooling systems
- Phased turnover for accelerated deployment of data halls
- Reduced risk through early trade partner integration
Commissioning & Operational Readiness
- Level 1–5 commissioning coordination
- Integrated systems testing (IST)
- Functional performance testing of:
- Electrical systems
- Mechanical systems
- Controls and monitoring systems
- QA/QC processes aligned with mission-critical standards
- Documentation, training, and turnover protocols for operations teams
Why team with us?
- Purpose-built for AI and high-performance computing environments
- Experience coordinating complex MEP systems at scale
- Strong focus on constructability in high-density environments
- Design-build model optimized for speed to market
- Ability to execute in phased, live, or expansion environments
- Deep understanding of thermal, electrical, and spatial constraints in AI facilities
