Proprietary Modular Data Center

The HydroContainer.
Built for extreme scale.

Karnaugh's proprietary direct liquid-to-chip cooling modular data center. Engineered for high-density bitcoin mining with a fully closed-loop hydronic system.

LIVE SYSTEM VIEW
System Diagram

Inside the HydroContainer

1 MW. 14 racks. 140 miners. 10 miners per rack. 2 pump skids. 2 roof-mounted dry coolers. 2 power hubs. Modular by design.

ROOF MOUNTED ROOF MOUNTED DRY COOLER — L Closed-loop · Row Left DRY COOLER — R Closed-loop · Row Right CISCO SW L1 10 × MINERS MicroBT U-form Hydro ×10 per rack RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW L2 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW L3 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW L4 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW L5 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW L6 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW L7 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW R1 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW R2 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW R3 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW R4 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW R5 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW R6 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API CISCO SW R7 10 × MINERS RACK PDU HPDU HYDRO PORTS IND PWR MON SNMP·API ◀◀ COLD SUPPLY HOT RETURN ▶▶ COLD SUPPLY ▶▶ ◀◀ HOT RETURN PUMP SKID — L Single Pump · Closed Loop Flow Meter · Pressure Mon. PUMP SKID — R Single Pump · Closed Loop Flow Meter · Pressure Mon. IDF — 6U Distribution Switch All 14 Access SWs upstream Karnaugh API · REST LEFT POWER HUB Independent Utility Feed → HPDU → Rack PDU → Miners Individual per-outlet power monitoring & control · Live API Per-miner telemetry · Karnaugh curtailment native RIGHT POWER HUB Independent Utility Feed → HPDU → Rack PDU → Miners Individual per-outlet power monitoring & control · Live API Per-miner telemetry · Karnaugh curtailment native 14 racks · 140 miners · 2 rows · 1 pump per row (closed loop) · 2 dry coolers (roof) · 14 Cisco access switches · 1 IDF distribution switch · 2 independent power hubs
Key Features

Engineered for extreme mining.

01
Closed-Loop System
Dedicated pump skid + roof-mounted dry cooler per row. Fully isolated — service one side without touching the other.
2× PUMP SKIDS · 2× DRY COOLERS
02
HPDU + Rack PDU Power Chain
HPDU → rack PDU → miners. Per-outlet monitoring and control on every miner.
HPDU → RACK PDU → MINER
03
Cisco Top-of-Rack Switch Per Rack
14 Cisco access switches — one pre-installed per rack. All uplink to a central 6U IDF distribution switch inside the container.
14 ACCESS SWs · 1 IDF 6U
04
Purpose-Built
Racks, manifolds, and PDUs dimensioned for U-form hydro miners. 10 per rack, 7 racks per row, 140 total. 1 MW.
140 MINERS · U-FORM FACTOR
05
Fully Turnkey Delivery
Arrives site-ready. Cabling pre-fitted. Switches pre-configured. Pump skids commissioned. Connect utility, fill the loop, rack the miners.
SITE-READY · PLUG & MINE
06
API-Ready
Every sensor, PDU outlet, pump, and switch exposed via REST API on day one. Telemetry, curtailment, alerting — no integration work required.
API-FIRST
API Integration

Every sensor. One clean API.

All HydroContainer metrics are exposed via a REST API that integrates natively with the Karnaugh management platform — or connects to any third-party monitoring, alerting, or DCIM system you already use.

  • Real-time polling and webhook push events
  • Historical time-series data with configurable retention
  • Threshold-based alert subscriptions per sensor
  • Per-row power isolation — query each hub independently
  • Native Karnaugh dashboard integration from day one
GET /api/v1/container/{id}/sensors
// Live sensor snapshot — all systems { "container_id": "hc-001", "timestamp": "2026-02-25T08:28:06Z", "cooling": { "supply_temp_c": 28.4, "return_temp_c": 41.2, "delta_t": 12.8, "flow_rate_lpm": 340.5, "system_pressure_bar": 2.1, "pump_1_status": "running", "pump_1_rpm": 2850, "pump_2_status": "standby", "leak_detected": false }, "power": { "hub_left_kw": 412.6, "hub_right_kw": 434.7, "total_kw": 847.3, "power_factor": 0.98, "pue": 1.08 }, "environment": { "ambient_temp_c": 23.1, "dry_cooler_fan_rpm": 1420 } }
Monitoring & Sensors

Total visibility. Down to every sensor.

The HydroContainer ships with a comprehensive sensor network covering every aspect of mechanical, electrical, and environmental performance.

🌡
Supply Temperature
Inlet fluid temperature on the cold supply manifold. High-precision RTD sensors with ±0.1°C accuracy.
Live via API
🔥
Return Temperature
Outlet fluid temperature on the hot return manifold. Monitors delta-T across the system for efficiency tracking.
Live via API
🔆
Pressure Sensors
System pressure transducers on supply and return loops. Alerts on pressure drop or abnormal readings.
Live via API
🔳
Leak Detection
Distributed floor-level leak detection sensors throughout the cooling zone. Instant alert on any moisture event.
Live via API
🌊
Flow Rate
Inline flow meters measuring coolant volume per minute. Detects pump degradation before failure occurs.
Live via API
🏠
Ambient Temperature
Multiple ambient sensors throughout the electrical and networking compartment, monitored by the AC unit.
Live via API
🔄
Pump Status & Speed
Dual redundant pumps with individual speed, status, run-hours, and fault monitoring. Auto-failover on fault.
Live via API
Power Monitoring
Per-row, per-circuit metering: kW, kWh, power factor, voltage, current, and frequency via dual intelligent PDUs.
Live via API
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Ready to deploy?

Contact our team to discuss capacity, delivery timelines, and site specifications. We’ll configure the right solution for your operation.

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