Hukumathi engineers active single-phase immersion cooling pods that target heat precisely where it matters most — delivering pPUE ~1.02 for AI training, HPC clusters, and hyperscale data centers.
Three precision-fabricated immersion cooling platforms engineered for consistent active thermal performance — from edge pilots to hyperscale AI deployments.
The ideal entry point for immersion cooling pilots, edge nodes, and proof-of-concept AI builds. Active flow architecture in a compact footprint.
The production workhorse. Active thermal topology delivers consistent CPU junction temps across full server load — built for 24/7 AI inference and HPC operations.
Maximum density. Purpose-built for AI training clusters and hyperscale GPU workloads where thermal margin and uptime are non-negotiable.
Active fluid circulation replaces fans, heat sinks, and wasted energy with a single engineered thermal loop — targeting heat exactly where silicon generates it.
Servers are fully immersed in non-conductive dielectric fluid inside the Trident H-CORE pod. No fans. No air gaps. No hotspots. Hardware runs cooler from the moment the loop starts.
Active pumped flow drives fluid directly across high-heat components in a targeted sequence — CPU zones receive priority flow, memory and edge zones receive calibrated secondary flow.
Heat is transferred to an external dry cooler or heat exchanger and rejected cleanly — no mechanical refrigeration, no chillers, and optional heat reuse for facility warming.
Wherever compute density pushes air cooling to its limits.
GPU arrays and LLM training rigs that push silicon to its thermal ceiling around the clock.
High core-count CPU workloads where thermal consistency directly determines compute throughput.
Retrofit air-cooled halls or greenfield builds into high-density, sub-1.03 PUE real estate.
Sealed, low-maintenance pods for on-premise AI inference at enterprise and government facilities.
At Hukumathi, Inc., we engineer immersion cooling pods for the infrastructure reality that air cooling can no longer meet. As AI workloads push server power densities beyond what fans and chillers can handle, our active single-phase immersion technology delivers a fundamentally better answer — fluid in direct contact with silicon, carrying heat away before it becomes a problem.
We designed the Trident H-CORE series from first principles: active flow architecture that targets heat at the component level, not just the rack level. The result is a system that achieves pPUE ~1.02, eliminates chiller infrastructure, and runs 24 servers per pod with the thermal margin AI hardware demands.
Hukumathi is headquartered in California and serves AI data centers, HPC operators, and hyperscale infrastructure builders who need cooling that keeps pace with compute — not the other way around.
Talk to our engineering team about your density targets, facility constraints, and deployment timeline. We configure every Trident H-CORE pod to your infrastructure — not the other way around.
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