HIM (Hybrid Infrastructure Mesh) is a software abstraction layer that unifies heterogeneous compute resources (GPUs, consumer devices, cloud instances) into a single distributed compute network. It turns fragmented hardware into a coherent infrastructure layer.

How does HIM reduce infrastructure costs?

HIM allows you to use existing hardware alongside cloud resources, creating a hybrid compute mesh. Instead of provisioning expensive dedicated GPU clusters, you can distribute workloads across available resources and scale dynamically.

Is HIM available as a product?

HIM is currently available through custom deployment engagements. Contact us to discuss your compute infrastructure needs.

In DevelopmentCustom deployment available

HIM

Hybrid Infrastructure Mesh

Composable Compute for Any Device

Last updated: February 2026

HIM is a software abstraction layer designed to bring compute sharing capability to GPUs and consumer devices alike, creating one unified compute network. Where traditional solutions aggregate data center GPUs, HIM extends to any compute source: enterprise servers, edge devices, even opted-in consumer hardware, all working together as a single mesh.

Available as a license for local compute networks or as a bespoke custom deployment.

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Any deviceGPUs to consumer hardware

Self-healingAutomatic workload rerouting

Zero lock-inPart of the ARCHIMEDES stack

The Compute Problem Goes Deeper Than Supply

The GPU shortage is real, but the deeper problem is utilization. Most enterprise servers run at 12–18% capacity. Millions of machines sit completely idle. The compute already exists. It just isn't connected.

10–30%

Utilization of self-operated infrastructure

6–12 months

Time to add new GPU capacity

50–100% YoY

Growth in internal AI workloads

$10B+ annually

Capital locked in idle compute

Traditional solutions address this by building more data centers or aggregating existing GPU capacity. HIM takes a fundamentally different approach: a software abstraction that turns any compute source into part of one shared, composable network. Not just data center GPUs, but enterprise servers, edge nodes, and opted-in consumer hardware.

One Mesh, Every Compute Source

HIM doesn't discriminate between compute types. Its software abstraction layer normalizes heterogeneous hardware into a unified resource pool.

Sovereign Data Centers

High-reliability nodes with guaranteed uptime and data sovereignty compliance. These form the backbone of the mesh, providing consistent compute for critical workloads.

Enterprise Infrastructure

Dedicated corporate compute resources that sit underutilized outside of peak hours. HIM reclaims this idle capacity without disrupting primary business operations.

Edge Nodes

Opted-in consumer devices like laptops, workstations, and gaming hardware, contributing idle capacity to the mesh. Lightweight agent software manages resource allocation automatically.

Industrial Hardware

Factory and manufacturing compute that runs production workloads during business hours and contributes to the mesh during off-peak periods.

Regional Server Clusters

Geographic presence for low-latency access. Regional clusters ensure workloads execute close to where they are needed, reducing round-trip time for latency-sensitive tasks.

Colocation & Hosted Infrastructure

Third-party hosted servers and colocation facilities. HIM integrates with existing hosted environments, bringing managed infrastructure into the composable mesh.

Built for Reliability

A mesh of heterogeneous hardware needs reliability engineered at every layer. HIM is designed to keep workloads running even when individual nodes are not.

Self-Healing Topology

When nodes go offline, workloads reroute automatically. The mesh continuously monitors node health and redistributes tasks without manual intervention or downtime.

Deterministic Networking

Predictable performance despite variable hardware. HIM normalizes throughput and latency across different device types so workloads get consistent execution regardless of where they run.

Heterogeneous Integration

Unifies resources from different vendors, architectures, and generations into a single abstraction layer. GPUs, CPUs, and specialized accelerators work as one pool.

Latency-Aware Scheduling

Workloads are assigned to nodes based on proximity and current load, not just availability. Latency-sensitive tasks route to the nearest capable node automatically.

Designed for Real Workloads

HIM is built for scenarios where traditional compute provisioning creates bottlenecks, cost overruns, or single points of failure.

AI Model Training

Aggregate distributed compute for large training runs. HIM assembles capacity from across the mesh, allowing organizations to train models without dedicated GPU clusters.

Inference at Scale

Distribute inference workloads across the mesh for throughput and redundancy. When demand spikes, HIM scales across available nodes rather than queuing requests.

Burst Compute

Scale beyond owned infrastructure for peak demand without long-term commitments. The mesh expands and contracts based on workload requirements.

Resilient Operations

Geographic redundancy without dedicated standby hardware. If a region goes offline, the mesh redistributes workloads across remaining nodes automatically.

ARCHIMEDES Overview ARC: Intelligent Routing EDES: Agent Orchestration

Common Questions

HIM Is Available as a Custom Deployment

HIM is currently deployed bespoke to organizations that require it. Contact us to discuss how composable compute could work for your infrastructure.

European data sovereignty by designCustom deployment to your requirementsPart of the ARCHIMEDES stack

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