CompNova's agentic framework for network service providers — two Agent Farms working in concert to automate device certification, fleet management, and end-to-end network troubleshooting. One platform. Many workflows. Outcomes you can measure from week one.
5G rollouts are accelerating. Device ecosystems are fragmenting. Customer expectations for seamless connectivity have never been higher. Yet most operators still rely on siloed tools, manual correlation, and reactive troubleshooting — approaches that simply cannot scale.
The cost of this complexity is real: prolonged outages, missed SLAs, frustrated subscribers, and engineering teams buried in data they cannot act on.
AInstein is not a collection of acquired products stitched together. It is a purpose-built platform where every component shares a common AI engine, common data fabric, and common operational philosophy.
AInstein is not a product suite — it is an agentic framework. Workflows are composed from agents that collaborate within a Farm, across Farms, and with the external systems your operations team already runs. AI is the foundation, not an add-on.
Deployed across Tier 1, Tier 2, and Tier 3 operators globally, AInstein is built to meet the scale and uptime demands of production carrier networks. Every design decision is made with carrier operations in mind.
From 2G through 5G SA, Wi-Fi 6/7, Open RAN, and beyond — AInstein provides unified visibility across the entire network technology stack. No more switching between tools as your network evolves.
Cloud-native by design with full support for on-premises, private cloud, and hybrid deployments. Meet any security or regulatory requirement without compromising on capability or performance.
AInstein is an agentic framework. Each Farm packages a domain-specific set of workflows — running standalone, in collaboration with the other Farm, or alongside the external agents and systems already in your operations stack.
Automation workflows for device certification, assurance, and enterprise device management. Two solutions under one Farm: Device Agent (service assurance and certification across modern networks & devices) and GuardianAgent (unified device management and security for large enterprises).
Explore the FarmWorkflows stitched for end-to-end network troubleshooting — running standalone or in collaboration with the Device Agent Farm and external systems. Houses NetworkAgent: 100% packet-level observability with AI root cause and Adaptive Packet Compression.
Explore the FarmAInstein is an agentic framework, not a monolith. Each Agent Farm is useful on its own, more useful together, and most useful when stitched with the agents and systems your operations team already runs.
Run a single Farm — for example, the Network Agent Farm in the NOC — independently of everything else. Fastest path to value when the buyer sits inside one operational domain.
Compose Device Agent Farm and Network Agent Farm into one end-to-end workflow — e.g., a subscriber complaint that traces from the device into the packet path and back, with the root cause confirmed across both Farms.
AInstein agents publish into ServiceNow, ITSM, Splunk-style observability stacks, and Palantir Foundry / AIP — composing with whatever your operations org already runs. No rip-and-replace.
Proven outcomes. Real deployments. Measurable impact from week one.
Deployed with operators managing millions of subscribers across multiple continents.
AI-powered root cause analysis reduces mean time to repair, transforming reactive ops into proactive management.
Adaptive Packet Compression delivers forensic-level insight at carrier scale — without the backhaul and storage overhead of traditional packet capture.
Ingests data from Cisco, Nokia, Juniper, Ericsson, Samsung, and virtually any network equipment provider.
Purpose-built use cases for common carrier workflows mean operators see measurable impact within weeks, not quarters.
Request a platform demonstration and discover how AInstein can transform the way your network operates, resolves issues, and delivers for subscribers.