Overview
SYNRGS provides end-to-end design and technical advisory to ensure every powered land, shell, or turnkey development meets hyperscaler, AI/ML, and enterprise performance standards. From early concept development to detailed engineering review, we align power, cooling, connectivity, and site infrastructure into integrated, build-ready design frameworks that accelerate approvals and reduce technical risk.
Our team works at the intersection of utilities, A&E partners, contractors, and cloud operators — translating complex design requirements into actionable, scalable solutions tailored for multi-MW and multi-GW deployments.
What We Deliver
Pre-Development Technical Scoping
We establish the technical foundation for each project by defining:
- load profiles and MW ramp requirements
- preliminary electrical and mechanical strategy
- water, cooling, and thermal-management pathways
- utility interconnection and substation integration needs
- phasing and scalability models (50MW → multi-GW)
This ensures design intent aligns with tenant expectations from day one.
Hyperscaler-Aligned Design Requirements
We interpret and integrate cloud and AI operator specifications into project design, including:
- white space layouts and power densities
- mechanical topologies (air, liquid, hybrid, immersion)
- redundancy standards (N, N+1, 2N+)
- sustainability and PUE optimization targets
- physical, cyber, and operational resiliency criteria
Our frameworks mirror hyperscaler internal design guides, increasing LOI conversion and streamlining technical approvals.
Architectural & Engineering Oversight
SYNRGS manages and evaluates A&E partners to ensure design excellence and constructability. Services include:
- schematic design and basis-of-design validation
- electrical one-line and mechanical system review
- civil, structural, and site engineering oversight
- value engineering and optimization analysis
- design-to-budget alignment and constructability assessment
We ensure technical accuracy, feasibility, and cost efficiency from concept through final design.
Power, Cooling & Utility Integration
Our team oversees the integration of critical infrastructure components, including:
- substation siting and transmission routing
- generator strategy and backup power architecture
- chilled water, adiabatic, RO, or alternative cooling systems
- water supply, discharge, and environmental management
- fiber, backhaul, and carrier connectivity planning
This creates synchronized infrastructure systems designed for long-term reliability and expansion.
Technology Strategy for AI & High-Density Compute
As AI clusters escalate power density and resiliency requirements, we deliver specialized advisory on:
- high-density mechanical solutions (liquid-to-rack, direct-to-chip, immersion)
- thermal safety, containment, and heat-reclaim options
- GPU/ASIC load modeling
- deployment sequencing to support rapid tenant expansion
Clients stay ahead of emerging technical specifications and market transitions.
Cost Modeling & Commercial Review
We help ensure every design decision supports both technical goals and financial outcomes through:
- capex/opex modeling
- technical risk evaluation
- schedule impact assessment
- bid package review and procurement support
- contractor selection and commercial alignment
Our approach balances technical rigor with investor and developer economics.
Why Clients Choose SYNRGS
- Hyperscaler-calibrated design expertise
Every requirement, from electrical topology to cooling strategy, is aligned with hyperscaler and AI operator standards. - Technical clarity that accelerates approvals
Well-structured design packs reduce back-and-forth with tenants, utilities, and capital partners. - Risk reduction across the development lifecycle
We identify and resolve technical constraints early — avoiding costly redesigns and schedule delays. - Scalability built in from day one
Designs anticipate future power ramps, capacity additions, and AI-driven density increases.
Outcome: Build-Ready Designs That Scale With Demand
SYNRGS converts complex technical requirements into clear, actionable designs — bridging utilities, engineering partners, construction teams, and hyperscaler expectations to deliver projects that scale quickly, operate efficiently, and meet global performance standards.
