Adaptive Infrastructure Platform

BlueEast RightScale™.
Engineered for Distributed Accelerated Compute.

An adaptive, power-agnostic infrastructure platform built for the rapidly evolving demands of distributed accelerated compute. Deploy quickly, scale intelligently, and increase compute density — without costly infrastructure redesign or stranded capital.

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10 MW
Power Capacity Per Node
3–6 wks
Factory to Commissioned
100+ kW
Per-Rack Density Support
>97%
Wall-to-Rack Efficiency
<0.1%
DC Ripple — Near-Zero Output
What We Build

BlueEast RightScale™ — a new category of adaptive infrastructure.

BlueEast RightScale™ ships as a fully integrated adaptive infrastructure platform — power, cooling, control, and compute infrastructure in one factory-tested system.

Platform
48VDC safe-power distribution with advanced busbar topology, mesh-node resiliency, and power-agnostic architecture. Supports virtually any primary energy strategy — grid, storage, hybrid, or renewable.
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Technology
Big Wheel Poly-Draw DC power conversion — rotating platform with multiple independent draw-points. Natural load-sharing, inherent redundancy, and multi-source flexibility built into the architecture.
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🌐
Applications
AI inference, regional edge compute, government, private cloud, and stranded energy monetization. One adaptive platform supports every deployment context — without redesign.
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Core Platform

Adaptive Infrastructure. Not Assembled Components.

Every BlueEast RightScale™ platform is factory-integrated and pre-tested. Three deeply engineered systems — power, thermal, and control — designed to work as one adaptive infrastructure architecture.

Power-Agnostic Architecture.
No Conversion at the Rack.

Multi-source integration with proprietary Big Wheel Poly-Draw platform. Ripple-free DC output, ringing-free conversion, passive surge levelling, and full galvanic corrosion protection — properties that require active electronics in competing architectures, but are inherent to the rotating conversion topology.

  • Output: Stabilised −48 VDC · <0.1% ripple
  • Isolation: Electro-mechanical · positive-ground · ground-loop-free
  • Protection: Surge levelling · overload redistribution · EMP hardened

Three Cooling Modes.
One Adaptive Platform.

Direct-to-chip liquid cooling, immersion-ready, with rear-door heat exchanger fallback. Engineered for racks exceeding 100 kW.

  • Liquid Capture: 70–85% of IT heat
  • Target PUE: <1.2 in favorable climates
  • Cooling Modes: Free-air, adiabatic, closed-loop

AI-Native Control.
Sub-Second Response.

AI/SCADA integration with predictive maintenance, anomaly detection, and workload-aware dispatch. Real-time digital twin with automated failover orchestration.

  • Platform: ESCOlutions energy management
  • Telemetry: Sub-second loop closure
  • Integration: Open API for DCIM/ITSM
Restricted — Authorized Access Only
Competitive Intelligence

Market Analysis Report

Proprietary competitive analysis for BE Power and Data LLC internal use. Enter your access code to reveal the full report inline.

Competitive Intelligence — Confidential

BlueEast vs. the Market.
No Contest.

How BlueEast RightScale™'s 48V DC mesh architecture, multi-mode cooling, and 10MW Node capacity make every competitor a generation behind.

Overall Platform Score — 8 Technical Dimensions (1–10 Scale)
BE Power and Data LLC
BlueEast RightScale™ 10MW Node
9.1/10
Industry-leading across power architecture, cooling flexibility, density, and AI/HPC readiness
Intelliflex
OctoPod (AI/HPC)
5.8/10
Strong cooling, limited by conventional AC distribution and lower module capacity
Intelliflex
IMDC 6.0 (Mining)
4.9/10
Mining-only, no AI/HPC capability, PSU conversion losses reduce effective density
Score Breakdown

BlueEast leads on every dimension

BlueEast scores 9–10 across all eight criteria. Competitors remain in the 2–7 mid-range regardless of dimension.

BlueEast RightScale™ 10MW Node BE Power and Data LLC
9.1
OctoPod Intelliflex AI/HPC
5.8
IMDC 6.0 Intelliflex Blockchain
4.9
Dimension
BlueEast RightScale™
OctoPod
IMDC 6.0
Visual Comparison

The BlueEast polygon envelops the competition

On every radar axis, BlueEast surrounds both competitors entirely.

BlueEast RightScale™
OctoPod
IMDC 6.0
BlueEast dominates all dimensions.
Key Differentiators

Four reasons BlueEast wins the specification

+57%
Overall score vs. nearest competitor
9.1 vs OctoPod's 5.8 — a systematic architectural advantage, not a feature difference.
+48%
More compute per megawatt vs. IMDC
~285 miners/MW vs. IMDC's 192. Eliminating PSU conversion losses via 48V DC native delivery is a direct cash advantage per MW contracted.
Cooling modes vs. IMDC's single option
Immersion, direct-to-chip, and free-air all native. One platform, any workload.
0
Single points of failure in power plane
48V DC mesh topology with 6 PCUs and cross-connects — no single failure drops a load.
Head-to-Head

Feature-by-feature: BlueEast wins every row

BlueEast RightScale™ — BE Power and Data

The only platform engineered for what comes next

  • 48V DC mesh busbar — zero rack-level AC/DC conversion. 500kW–1MW recovered per node.
  • 10MW per node — largest single-unit capacity available.
  • Immersion + DLC + free-air cooling, all native. Any workload, one architecture.
  • Grid-optional — Big Wheel Poly-Draw accepts solar, CAES, grid, and generator simultaneously.
  • Ready for 48V DC native miners and NVIDIA 800V GPU hardware today.
  • Mesh topology — zero single points of failure in power distribution.
  • AI/HPC, mining, government, edge, stranded energy — every deployment context.
Intelliflex OctoPod

Strong cooling, constrained by AC power

  • AC busway — rack conversion losses remain.
  • 7.5MW per block — 25% below BlueEast capacity.
  • ~DLC and air native, immersion optional.
  • Grid-connected only — no off-grid capability.
  • ~Claims 800V readiness but AC distribution remains.
  • Single-trunk busway — single point of failure.
  • Not designed for mining workloads.
Intelliflex IMDC 6.0

Purpose-built for mining. Limited to mining.

  • 415V AC to PSU — 5–8% conversion loss. ~192 miners/MW.
  • 6MW per module — smallest of the three.
  • ~Immersion only — no GPU/server applicability.
  • No grid-optional or multi-source capability.
  • No compatibility with 48V DC native next-gen miners.
  • Redundant loops — no mesh topology equivalent.
  • No AI, HPC, edge, or general compute capability.
Full Specification Matrix

Where BlueEast wins — row by row

Complete feature-by-feature breakdown across power, cooling, compute, and deployment.

FeatureBlueEast RightScale™ ✦OctoPodIMDC 6.0
Power Architecture
Power distribution 48V DC nativeExclusiveAC busway415V AC
Conversion loss at rack 0%Best in class5–8%5–8%
Power topology Mesh — no SPOFBest in classSingle trunkRedundant loops
Grid-optional NativeExclusive
Multi-source input Solar+CAES+grid+genExclusive
Unit capacity 10 MWLargest7.5 MW6 MW
Cooling
All 3 cooling modes Immersion+DLC+airExclusive DLC+air only Immersion only
Per-rack capacity 100+ kWBest in class75+ kWASIC only
Target PUE <1.21.20–1.401.03–1.09 (mining)
Compute & Workloads
Miners per input MW ~285+48% vs IMDCN/A~192
Wall-to-rack efficiency >97%Best in class~92–95%~92–95%
AI / GPU
Blockchain / mining
Government / defense EMP-hardenedExclusive
Deployment
Factory to commissioned 3–6 weeksBest in class8–16 weeks8–16 weeks
Stranded energy use CAES, flared gasExclusive

Exclusive = only on BlueEast  ·  Best in class = leads metric  ·  ~ = partial  ·  May 2026 data.

Built by Engineers. For Engineers.

"We design and build our own engineered products, associated software, and electronics. We're practical innovators — not just systems integrators. Because we build, own, and operate our equipment, we engineer for reliability and life."

— Blueflux Engineering Principles

Adaptive Infrastructure

Deploy Intelligent Infrastructure.

Partner with BlueEast to bring adaptive, power-agnostic compute infrastructure to your deployment context — from pilot to production, without stranded infrastructure investment.

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