Reference Case
The first
10-billion-neuron
brain-inspired supercomputer
This system connects a brain-inspired heterogeneous supercomputing platform with a brain-inspired compute entity in one infrastructure layer: general compute, BPU neuromorphic compute, two-phase cooling, fanless high-power delivery, and the INN model layer working together for biomedical, industrial simulation, and frontier AI workloads.
The system combines multiple classes of chips and servers as the physical substrate for brain-inspired compute zones, with INN and related model layers assigning intelligence across the hardware stack.
Neogenint products appear as a system, not as isolated parts.
two-phase liquid cooling
Negative-pressure two-phase circulation carries heat directly away from high-power chips, supporting PUE < 1.08.
BPU chips, cards, and servers
Provides spiking-neuron compute, BI-Link interconnect, and brain-inspired card-cluster capability.
high-density general compute server
Hosts general CPU/GPU and heterogeneous compute units for dense, low-noise deployments.
45KW high-power cabinet
Provides rack-level integration for multi-server, multi-cold-plate, and power-module systems.
fanless GaN power module
54V / 3500W output, paired with two-phase cold plates for fanless high-power delivery.
brain-inspired model architecture
Supplies the intuitive neural-network model architecture and explainable inference layer.
Fuses general CPU/GPU compute with BPU heterogeneous clusters
Two-phase cooling brings system-level PUE below 1.08
High-density GPU, BPU, and general compute servers in one rack architecture
INN provides the intuitive neural model layer for brain-inspired compute
High-efficiency fanless GaN power modules
45KW intelligent high-power cabinet hosts the full system
Built for biomedical, industrial simulation, and frontier AI workloads