Ethernexion Network Operating System (ENOS) is a high-performance, commercial-grade OS built for enterprise campuses, IoT, WAN edge, and data center networks. Powered by proven protocol stacks and validated through years of R&D and real-world deployment, it delivers carrier-grade reliability.
With a disaggregated, hardware-independent architecture that separates control and forwarding planes, ENOS ensures scalable, secure, and efficient networking across modern infrastructures.
ENOS leverages an advanced, modular architectural design centered around high cohesion, low coupling, and absolute isolation.
Independent daemons for protocols, services, and drivers ensure fault isolation, process resilience, and on-demand dynamic service activation.
Continuous heartbeat monitoring with real-time health auditing and automated, stateful recovery ensures maximum uptime and service continuity.
Unified HAL abstracts hardware differences, enabling silicon-agnostic compatibility and consistent APIs across diverse switching chipsets.
ENOS delivers a comprehensive feature set designed to meet diverse operational needs, Fine-Grained Layer 2 Access, High-Performance Ring Network Protection, Metro Ethernet gateways, Complex L3 Cross-Domain Routing, and High-Density Data Center convergence.
Sub-50ms failover via multi-protocol protection and hardware stacking ensures resilient, scalable, and continuously available campus and core networks.
Production-ready EVPN-VXLAN enables large-scale multi-tenancy, cross-DC Layer 3 isolation, and optimized control-plane learning with reduced ARP flooding.
RDMA-optimized fabric combines intelligent buffering with PFC and ECN to deliver zero packet loss, ultra-low latency, and high throughput.
YANG-based models, NETCONF/RESTCONF APIs, and streaming telemetry enable programmable, automated, and real-time network operations at scale.
From granular Layer 2 access to Layer 3 cross-domain routing and high-density data center convergence, one unified OS addresses all networking scenarios.
Granular access control with ring protection mechanisms including ERPS and Smart-Link.
Cross-domain routing protocols (BGP, OSPF, etc.) with independent process isolation to guarantee control plane stability.
High-performance forwarding and policy provisioning capabilities for gateway and aggregation deployment scenarios.
VRF-based isolation and cross-regional expansion for public, private and hybrid cloud environments.
Minimal runtime footprint by default; dedicated service daemons are dynamically instantiated only when their corresponding features are explicitly enabled.
RESTCONF JSON/XML streaming configuration, with native compatibility for existing automation and orchestration toolchains.
< 50ms
Carrier-Grade Failover Time
0
Packet Loss Rate
100%
Fault Isolation
1
Unified Logical System
Platforms commonly mapped to this reference design.
告知园区、数据中心或智算场景、规模与时间表,我们可协助 BOM 对齐与 PoC 规划。
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浏览指南与发布说明From campus access to AI Intelligent Computing Fabric, one unified operating system spans the full lifecycle of planning, deployment and operations.
