Atn 910da Datasheet Top 2021 | Huawei
The physical design allows for carrier-grade durability, making it resilient enough to operate at the extreme edge of distributed architectures.
| Port Type | Quantity | Description | |-----------|----------|-------------| | | 8 | Combo ports (shared with SFP slots on some variants) | | 100/1000BASE-X (SFP) | 16 | Standard Gigabit SFP slots | | 10GE (SFP+) | 4 | Uplink ports, backward compatible with GE SFP | | Console Port | 1 | RJ45, for local management | | Management Port | 1 | 10/100/1000BASE-T out-of-band management | | Alarm Port | 2 | Input/Output alarm dry contacts | | USB 2.0 | 1 | For file transfer and software upgrades |
: Despite its 1U height and 220mm depth, it offers an 800 Gbps switching capacity, making it one of the most space-efficient high-capacity routers in the industry.
balances a high-throughput forwarding plane with a space-saving form factor. The device fits standard cabinets alongside wireless baseband units (BBUs). Specification Details 1U Fixed Chassis (442mm Width × 220mm Depth) Switching Capacity 800 Gbps (Bidirectional) Port Configuration 4×100GE/50GE + 16×25GE/10GE/GE + 8×10GE/GE/FE Routing Protocols OSPFv2/v3, IS-IS/IS-ISv6, BGP4/4+, Static Routing 5G / Next-Gen Features SR/SRv6, EVPN, FlexE slicing, iFIT performance telemetry Clock Synchronization 1588v2, SyncE, 1588 ATR/ACR, Atom GPS Operating Temperature Extreme industrial range: -40°C to +65°C Power Redundancy Dual hot-swappable AC or DC modules (1+1 backup) Port Density and Interface Flexibility huawei atn 910da datasheet top
: Provides an 800 Gbps switching capacity within a compact 1U form factor.
The ATN 910D-A is positioned as the flagship model within the ATN 910D series, often described as the "industry's largest capacity 1U router". To understand its lifecycle, it is crucial to distinguish it from other models. While the entire ATN 910 series (including older models like ATN 910B) may have announced end-of-life (EOS) for older software versions, the . For instance, the Huawei enterprise parts catalog lists its End-of-Marketing (EOM) as December 31, 2030, and its End-of-Service-Life (EOS) support as December 31, 2035, indicating a long-term availability and support plan. This differentiates it from older legacy models that may be approaching EOS, like the ATN 910B.
Converges mobile, residential, and business traffic onto a single, unified IP network. To understand its lifecycle, it is crucial to
(typically used for high-bandwidth core or aggregation uplinks).
The router supports a 1+1 hot-backup power configuration. Operators can order the chassis with dual DC feeds, dual AC feeds, or mixed deployments depending on terminal site requirements.
The device also includes separate ports for clock synchronization (CLK/TOD) and alarm management (ALM/ALMO). The cooling system operates on a left-side intake, right-side exhaust airflow pattern to manage thermal dissipation effectively. Core Deployment Scenarios
The platform simplifies IP transport by deploying Segment Routing over IPv6 (SRv6). SRv6 eliminates legacy, multi-layered protocol stacks like LDP and RSVP-TE. Instead, it uses source routing embedded directly inside standard IPv6 headers. This setup establishes end-to-end paths across wide-area networks, minimizes routing table overhead, and enables fast-reroute (FRR) protection within 50 milliseconds. Network Slicing via FlexE
Managing thousands of distributed edge sites requires deep network visibility. The platform supports . Unlike active synthetic probing, iFIT embeds metadata into live service packets to measure actual network latency, packet drop ratios, and jitter in real-time. This functionality connects directly with SDN controllers to support automated anomaly detection and self-healing route optimizations. Core Deployment Scenarios