Ronicity NETWORKS

REAL-TIME NETWORK INFRASTRUCTURE

Stateful Failover
for Traffic That
Cannot Drop.

Preserve live voice, contact center, broadcast, and other real-time sessions across degraded or failing networks.

ML-assisted degradation detection with deterministic L3/L4 survivability control across heterogeneous uplinks.

Traditional SD-WAN restores connectivity. Ronicity is engineered to preserve the live session itself.

<200ms

Reactive failover, deterministic across uplink failure

Predictive cutover

Near-zero packet loss when degradation is detected ahead of failure

SIP · RTP

Voice and real-time media preserved through path transition

Session continuity

Protected flows preserve identity and state across uplink failure

The Shift

The network hasn't caught up to the workload.

Enterprise traffic has moved into cloud, distributed, and real-time domains faster than the underlying network's ability to keep sessions alive through failure. The cost of transient disruption now compounds with every migration.

01 / CLOUD

Mission-critical workloads moved off-premise

Voice, contact center, and stateful applications now traverse the open internet to reach cloud and CCaaS platforms — paths the enterprise never controlled.

02 / REAL-TIME

Sessions, not packets, are the unit of value

Broadcast, SIP, video, and AI inference workloads tolerate jitter and reroute — but not session reset. Reconnecting later is no longer acceptable.

03 / DISTRIBUTION

Failure modes have shifted to the edge

Carrier brownouts, last-mile congestion, and intermittent degradation now dominate the failure profile — and they are precisely what legacy failover misses.

The Difference

Reachability is not continuity.

Legacy failover restores the route. Ronicity preserves the session. The distinction is invisible at the routing table — and decisive at the application layer.

Legacy Approach

Optimizes for reachability

Detect outage. Re-route traffic. Restore connectivity. The session — and the customer — are collateral damage.

Reactive convergence measured in seconds
Stateful flows reset on path change
Brownouts and degradation often missed entirely
Heavyweight appliances, slow operational cycles

The Ronicity Approach

Engineered for session continuity

Detect degradation before failure. Switch path while preserving the customer's IP. The disruption becomes invisible to the workload above.

Sub-200ms deterministic failover
Customer IP preserved across uplink transitions
ML-assisted brownout prediction — zero loss when triggered
Software-only, no proprietary appliance required

Platform

Built around how real-time traffic actually fails.

Each capability addresses a failure mode operators see every day — not a theoretical edge case.

Sub-200ms Deterministic Failover

Reactive uplink convergence in 80–170ms, end-to-end. ML-assisted prediction extends this to zero packet loss when degradation is detected ahead of failure.

Voice & Contact Center Survivability

SIP, RTP, and CCaaS sessions ride through uplink failures intact. The call doesn't drop. The agent doesn't reconnect.

Broadcast & Real-Time Media

SRT, RIST, WebRTC, and NDI-over-IP feeds preserved across path transitions — built for environments where the network is part of the production chain.

Stateful AI Workloads

Long-lived inference sessions, streaming model output, and agent workflows — protected against the disruption modern AI traffic patterns cannot tolerate.

Carrier-Grade Lightweight

Telco-grade reliability without the appliance overhead. Cloud-native control plane, BGP-aware data plane, deployable at the edge in minutes.

Deterministic Survivability Policies

Define what must survive, what can reset, and what takes best path — by IP, prefix, port, protocol, domain, workload class, or source identity. Critical flows preserve state; lower-priority traffic breaks out locally.

Accessible Scale

Hyperscaler concepts.
Without hyperscaler complexity.

Cloud providers and backbone operators spent years building intelligent traffic steering, anycast routing, and survivable edge architectures inside their own infrastructure. Ronicity brings those concepts to the operators who need them most — without requiring them to build hyperscale infrastructure themselves.

Deterministic failover Anycast-aware architecture BGP-native routing BYOIP support Heterogeneous uplinks Lightweight policy plane

We're not trying to rebuild the internet. We're making modern survivability practical for enterprises, MSPs, contact centers, and distributed edge networks.

Why Ronicity

Built from the failure domain outward.

Ronicity is designed by network operators who lived these failure modes firsthand — backgrounds shaped in carrier networking, route/switch infrastructure, and the contact-center platforms that run the networks our customers depend on every day.

Operator pedigree, not theoretical architecture

Every design decision traces back to a failure mode we've personally been called in to triage at 2 a.m.

Designed around real failure modes

Carrier brownouts, last-mile congestion, intermittent degradation — the failure profile that actually shows up at the edge, not the textbook outages.

Lightweight by design

No heavy appliance. No multi-week deployment cycle. Built to be deployed where the failure happens — at the edge.

# founding team — domain footprint
routing: BGP, OSPF, MPLS # carrier-grade
switching: L2/L3 edge, datacenter fabric
voice: SIP, RTP, SBC, UC platforms
contact_center: CCaaS, WFO, omnichannel
telco_edge: carrier interconnect, peering
operations: production NOC at scale

# philosophy
approach: "build what we wished existed"
bias: "operator pain > theory"

Industries

Where seconds are the unit of risk.

We focus on domains where network disruption translates directly to lost revenue, missed customers, or operational harm.

Contact Centers

CCaaS, WFH agents, omnichannel platforms — where dropped sessions become lost customers.

Unified Communications

SIP trunking, hosted PBX, UC platforms — operational continuity for voice infrastructure.

Broadcast & Live Media

SRT, RIST, WebRTC feeds and live production paths where the network is the broadcast chain.

Financial Services

Trading floors, market data, voice recording for compliance — environments where microseconds compound.

Emergency Communications

911 PSAPs, dispatch, public safety voice — where session loss carries clinical and human risk.

Stateful AI & Inference

Long-lived agent sessions, streaming inference, and model-serving infrastructure with continuity requirements.

Telco Edge

Carrier interconnect, peering edge, and operator-grade deployments where reliability is the product.

Telemedicine

Clinician-to-patient video and remote-monitoring sessions where disruption carries clinical impact.

Distributed Enterprise

Branch, remote, and hybrid-work connectivity — resilient sessions across the unpredictable last mile.

Get In Touch

For the workloads that can't go down — even briefly.

Ronicity is in active development. We're working with a select group of operators, partners, and early customers shaping the platform. If your network carries traffic that cannot drop, we'd like to hear from you.

Start the Conversation Partner Inquiries

Stateful Failover for Traffic That Cannot Drop.