Syngrid
v4.2Syngrid Energy OSGlobal · 41 regions

AI Orchestration for
Energy Infrastructure

Optimize industrial energy systems in real time with autonomous AI coordination across grids, facilities, and compute networks.

View infrastructure
LATENCY
<8 ms
UPTIME
99.999%
NODES
12,418
SYN-OPS · LIVEREGION / NA-WEST-7SHIFT / 03:14:08 UTC
NETWORK TOPOLOGY · 412 NODES
ROUTINGNOMINALSTANDBY
DC-NA-01DCHUB-NA-04HUBFAC-NA-12FACDC-NA-07DCGRID-NA-ΔGRIDBAT-21BATFAC-NA-08FACEDGE-09EDGEREN-PV-3RENLOG-12LOGDC-NA-19DCHUB-NA-02HUB
GRID DRAW↑ 4.21 MW
184.62 MW
BATTERY STATECHARGE
78.4 %
COOLING ΔTOPTIMAL
−12.8 °C
AUTONOMOUS EVENT LOGREC ●
  • 03:14:07REBALNode DC-EU-04 → shifted 2.4 MW to DC-EU-09OK
  • 03:14:05FORECASTSpike predicted +18.2% @ 04:02 UTCOK
  • 03:14:02COOLAisle 7 setpoint −1.2°C · ΔPUE −0.04OK
  • 03:13:59STORAGEBattery bank B-21 discharge throttledOK
Operating infrastructure for06 / 41 disclosed
HALCYONHYPERSCALE
MERIDIANLOGISTICS
AXIOM/INDMANUFACTURING
NORDPOWERENERGY OPS
VECTOR-9INDUSTRIAL
OBSIDIANCOMPUTE

Infrastructure was never built for machine-speed demand.

Modern industrial systems operate on coordination loops measured in hours. AI workloads, distributed generation, and volatile grids now move in milliseconds. The gap is widening.

P-01intra-day spread

Energy volatility

±42%

Grid prices and supply shift minute-by-minute. Static control logic cannot react fast enough to protect margins.

P-02load by 2030

Rising compute demand

3.1×

Hyperscale and AI workloads have made power the bottleneck for industrial growth.

P-03avg. wasted draw

Inefficient load distribution

17%

Facilities run in isolation. Energy is over-provisioned at one node while another throttles.

P-04mean alarm time

Unstable peak consumption

08:14

Demand spikes trigger penalty pricing, cooling failures, and emergency curtailment.

P-05siloed systems

Fragmented control

6+

BMS, EMS, SCADA, and battery systems each speak their own protocol — no shared truth.

One control plane.
Four operational primitives.

Each module ships with industrial-grade APIs and runs autonomously at the edge or inside your private cloud.

M.01AUTONOMOUS · ONLINE

Autonomous Load Balancing

AI redistributes energy demand across infrastructure nodes in real time, holding facilities at optimal draw without operator input.

  • Sub-second rebalancing
  • Per-node demand contracts
  • Constraint-aware routing
N-0140%N-0252%N-0364%N-0476%
M.02AUTONOMOUS · ONLINE

Predictive Grid Intelligence

Forecast demand spikes and infrastructure instability with horizon models trained on your facility telemetry.

  • 72-hour load forecast
  • Anomaly pre-detection
  • Tariff-aware scheduling
T-24H↑ SPIKE +18.2% @ 04:02T+24H
M.03AUTONOMOUS · ONLINE

Cooling Optimization Engine

Reduce data center and industrial cooling inefficiencies through closed-loop thermal coordination.

  • Aisle-level ΔT control
  • PUE optimization −0.18
  • Predictive setpoint shift
AISLE THERMAL MAP · −12.8°C ΔT
M.04AUTONOMOUS · ONLINE

Distributed Energy Coordination

Synchronize batteries, on-site renewables, generators, and backup systems as one programmable resource.

  • Multi-asset orchestration
  • Behind-the-meter coordination
  • Grid-export economics
SYNBATPVGENGRIDDCFAC

A live operating picture of
civilization-scale energy flow.

REGION INDEX · 08 / 41● LIVE
REGIONSTATEDRAWΔ 60MPROFILE
NA-WEST-7OPERATIONAL184.6 MW+02.1%
NA-EAST-3OPERATIONAL212.4 MW−00.8%
EU-NORTH-1REBAL98.7 MW+12.4%
EU-CENT-4OPERATIONAL141.2 MW−04.2%
APAC-J-2OPERATIONAL168.0 MW+01.6%
APAC-S-1STANDBY022.4 MW+00.0%
LATAM-1OPERATIONAL077.9 MW−02.0%
MENA-2OPERATIONAL112.6 MW+03.4%
AI DECISION STREAM21,418 OPS/SEC
  • 03:14:20ROUTE → 4.2 MW DC-NA-04 → DC-NA-09
  • 03:14:19FORECAST → SPIKE +18.2% @ 04:02 UTC
  • 03:14:18BAT.B-21 → DISCHARGE THROTTLE 12%
  • 03:14:17COOL → AISLE-7 SETPOINT −1.2°C
  • 03:14:16ROUTE → 1.8 MW FAC-EU-08 → GRID-EU-Δ
  • 03:14:15TARIFF → PEAK WINDOW 17:00–19:00 LOCAL
  • 03:14:14REN.PV-3 → SURPLUS 2.6 MW → BAT-21
  • 03:14:13ALERT → DC-NA-19 PUE TREND +0.04
  • 03:14:12ROUTE → 3.1 MW HUB-NA-04 → DC-NA-07
  • 03:14:11POLICY → CARBON-OPT MODE ENGAGED
  • 03:14:10ROUTE → 4.2 MW DC-NA-04 → DC-NA-09
  • 03:14:09FORECAST → SPIKE +18.2% @ 04:02 UTC
  • 03:14:08BAT.B-21 → DISCHARGE THROTTLE 12%
  • 03:14:07COOL → AISLE-7 SETPOINT −1.2°C
  • 03:14:06ROUTE → 1.8 MW FAC-EU-08 → GRID-EU-Δ
  • 03:14:05TARIFF → PEAK WINDOW 17:00–19:00 LOCAL
  • 03:14:04REN.PV-3 → SURPLUS 2.6 MW → BAT-21
  • 03:14:03ALERT → DC-NA-19 PUE TREND +0.04
  • 03:14:02ROUTE → 3.1 MW HUB-NA-04 → DC-NA-07
  • 03:14:01POLICY → CARBON-OPT MODE ENGAGED

→ Bloomberg-terminal-grade operational picture for industrial energy

From connection to autonomy in three controlled stages.

STEP / 01STAGE
01/ 03

Connect Infrastructure

Bridge BMS, SCADA, EMS, batteries, and meters via Syngrid Edge. Read-only by default. Hours to deploy.

MODBUSBACNETOPC-UARESTMQTT
STEP / 02STAGE
02/ 03

Train Optimization Models

Models are fit to your facility, your tariffs, your physical constraints. Auditable. Versioned. Replayable.

TELEMETRYTARIFF GRAPHCONSTRAINTSDIGITAL TWIN
STEP / 03OUTCOME
03/ 03

Deploy Autonomous Coordination

Promote from advisory → supervised → autonomous. Operator override remains absolute at every stage.

EDGEMULTI-REGIONFAILSAFEAUDIT

Built to operate
mission-critical infrastructure.

Syngrid runs inside the perimeter, on your hardware, under your security boundary. Every decision is logged. Every action is reversible. Every override is absolute.

ISO 27001CERT
SOC 2 TYPE IICERT
NIS2READY
IEC 62443ALIGNED
EDGE

Edge deployment

Runs in-facility with no outbound dependency for control loops.

INTG

Secure industrial integrations

TLS 1.3, mTLS, hardware-rooted identity, signed firmware.

API

Real-time orchestration APIs

Sub-100 ms decision API for routing, dispatch, and dispatch override.

TWIN

Infrastructure digital twins

Replay any 5-minute window, simulate counterfactuals, before deploying.

MULTI

Multi-region deployment

Active/active across 41 regions with sovereign data residency options.

AUDIT

Compliance & audit

ISO 27001, SOC 2 Type II, NIS2-ready, full decision provenance.

MAINT

Predictive maintenance

Component-level failure prediction routed into your CMMS of choice.

RBAC

Operator-grade RBAC

Per-asset permissions, hardware key enforcement, dual-control changes.

FIG.01AGG.PEAK
31%

reduction in peak energy waste

Avg. across deployed sites, FY measurement

FIG.02OPS.RATE
18M+

infrastructure decisions per day

Routing, dispatch, throttling, and forecasting

FIG.03AUTONOMY
24/7

autonomous optimization

Operator override absolute · sub-second handoff

Operate every facility from a single situational console.

SYN-CONSOLE / GLOBALOPERATOR / k.morris@axiom-indCLEARANCE / L3-AUTO
EFF.SCORE 94.2ALERTS 02REC ●
INFRASTRUCTURE HEALTH
94EFFICIENCY
88AVAILABILITY
72HEADROOM
FACILITIES ONLINE148 / 152
AUTONOMY MODEL3 · SUPERVISED-AUTO
CARBON INTENSITY312 gCO₂/kWh
AI OPTIMIZATION ROUTING · 60M WINDOW
T1T2T3T4T5OPTIMIZED — 184.6 MWBASELINE — 218.1 MW
PREDICTIVE ALERTS
  • A-217DC-NA-19 / PUE drift trend +0.04
  • A-218TARIFF / peak window 17:00 local
  • I-091BAT.B-21 / cycle health 92%
  • I-092REN-PV-3 / surplus dispatched
FACILITY COORDINATION · 12 OF 152NETWORK EFFICIENCY SCORE 94.2 / 100
F-01
60
F-02
73
F-03
86
F-04
99
F-05
72
F-06
85
F-07
98
F-08
71
F-09
84
F-10
97
F-11
70
F-12
83

Power infrastructure at
machine speed.

Bring Syngrid into your control room. Pilot deployments operational in 14 days, autonomous coordination in under 90.

· Avg. response time < 4h business