Hình ảnh
RG-N18006-X Series Data Center Core Switch with 6-Slot Chassis and Zero Midplane for Cloud Architecture Networks
The RG-N18006-X is the next-generation high-performance core switch launched by Ruijie Networks. Can be deployed in Internet and campus data centers based on service requirements.
Model
Dòng
Tính năng nổi bật
- Midplane-free design and Clos orthogonal architecture, ensuring non-blocking data forwarding
- 6-slot chassis, various ports, and 24 GB large cache on a single card, better handling data center surge traffic
- Midplane-free design, direct airflow, and cold and hot airflow isolation, greatly improving heat dissipation efficiency
- Counter-rotating fan design, improving heat dissipation efficiency; titanium-level power supply, delivering up to 96% power conversion efficiency
Thông số chi tiết chính
Midplane-Free Design
New Architecture
Pioneer in the platform with 100 Tbit/s switching capacity and zero midplane, upgrading the core
engine of a data center to a new level
Innovative energy-saving design, ensuring product quality
All-round virtualization, allowing network resources to be allocated on demand
Core Switch with the Most Powerful
Performance in the World, Greatly
Improving Data Center Capacity
Rich interface types are provided to meet requirements of various access modes. Line-rate line cards
at the highest density in the industry are supported.
A single card provides a 24 GB buffer for storing burst traffic of data centers.
The CLOS multi-level multi-plane switching architecture ensures data forwarding, without blocking and
provides continuous bandwidth upgrade and service support.
Pioneer in the Platform with 100 Tbit/s Switching
Capacity and Zero Midplane, Upgrading the Core Engine
of a Data Center to a New Level
Service line cards are directly connected to switch fabric modules, so that data can be directly transmitted to the switch fabric modules, which dramatically reduces the transmission loss.
The switch transmission efficiency and device performance are improved continuously, supporting smooth upgrade in the coming 10 years.
Innovative Energy-Saving Design Ensuring Quality
High Performance
The RG-N18006-X provides rich interfaces to support various access modes.
A single line card supports up to 48 x 100GE ports, 36 x 40GE ports, and 144 x 10GE ports.
The RG-N18006-X provides line-rate line cards with industry-leading high density, and supports a maximum of 768 x 100GE, 576 x 40GE, and 2304 x 10GE line-rate ports.
Graphical Card-Grade GDDR5 SDRAM
With Capacity improved by 33% compared with other products in the industry, and 24 GB buffer of a single line card to store burst traffic of data centers.
Cell-based Clos Architecture, Delivering
Non-Blocking Data Forwarding
The RG-N18006-X uses the new Clos multi-stage multi-plane switching architecture to isolate the forwarding plane from the control plane. That is, switch
fabric modules and supervisor engines can be configured independently. The cell-based switching architecture ensures non-blocking data forwarding,
allowing continuous bandwidth upgrade and service support.
Next-Generation Multi-Process
Modular Operating System
RGOS 11.X, Ensuring High
System Stability
Multi-process modular design, high software stability
Hot patch technology, ensuring nonstop services upon software upgrade
OpenFlow 1.3, allowing smooth upgrade to SDN networks
More powerful virtualization features and association of VSU and VSD.
Midplane-Free Design, Achieving
Significant Bandwidth Upgrade
During operation, RG-N18006-X can be upgraded by using higher-specification line cards and switch fabric modules.
The RG-N18006-X allows smooth upgrade across generations, for example, upgrade from 50GE to 400GE, satisfying requirements in the coming 10 years.
Orthogonal Connection Between Service Cards and Switch Fabric
Modules, Reducing Signal Transmission Interference by 8%
Highly Rugged Chassis Construction Design
Supporting Midplane-Free Design
The midplane of the original device can provide support. When the midplane is removed, Ruijie Networks provides a solid chassis structure through
the design of the rail, reinforcing ribs on both sides of the chassis, and reinforcing partition card inside the chassis.
Accurate Interconnection Between Line Cards and Switch Fabric Modules with Zero Midplane
The patented design of 5-level accurate guiding ensures accurate
interconnection between line cards and switch fabric modules.
Line cards are positioned through the limit post and inserted into the chassis through rails.
The positioning pin of the keel corrects the line card direction.
and the line card direction is further corrected using the connector cover and pin,
thereby achieving accurate guiding.
Midplane-Free Design Provides Direct Airflow
Greatly Improving the Heat Dissipation Efficiency
Ruijie Networks is the pioneer in using front-to-rear direct airflow in the 100 Tbit/s switch. The cold airflow is isolated from the hot airflow, which is combined with the heat dissipation design
of the data center equipment room.
The design improves RG-N18006-X's heat dissipation efficiency, reduces system wind resistance, lowers energy consumption, and helps build a green and energy-saving data center.
The Panel of Each Service Line Card is Bent Within 30 Degrees and
the Open Area is as High as 106%, Doubling the Air Intake
Counter-Rotating Fan Design Improves Heat
Dissipation Efficiency and Greatly Reduces Fan Noises
Service Line Cards Adopt the Design of No PHY Chip
Reducing the Power Consumption by More than 5.63%
VSD - 1:N Virtualization
VSU 3.0 technology can virtualize multiple physical devices into one logical device, and VSD can virtualize one switch into multiple logical devices.
The two technologies substantially simplify the network architecture and pool network resources.
VSD - 1:N Virtualization
VSU 3.0 technology can virtualize multiple physical devices into one logical device, and VSD can virtualize one switch into multiple logical devices.
The two technologies substantially simplify the network architecture and pool network resources.
Comprehensive Virtualization
VSU and VSD can be associated to virtualize multiple Newton switches into one logical switch, and then to virtualize this logical switch into subordinate logical switches.
Network resources can be fully integrated and pooled, and flexibly allocated on demand.
Specifications
Hardware Specifications
| Hardware Specifications |
RG-N18006-X |
|
| Module slots |
6 (2 for supervisor modules) |
|
| Switch fabric module slots |
6 |
|
| Fan module |
Three fan module slots |
|
| Power module |
Four power module slots |
|
| Switching capacity |
28.8 Tbps |
|
| Packet forwarding rate |
17,280 Mpps |
|
| Large buffer |
Ultralarge distributed buffer design and 200 ms buffer for each port to prevent packet loss in burst traffic |
|
| Dimensions |
442 mm x 956 mm x 308.4 mm, 7 RU |
|
| Weight |
49 kg (including the fan) |
|
| Power supply |
RG-PA3000I-F: AC: 90 VAC to 290 VAC HVDC: 192 VDC to 288 VDC |
|
| Ventilation type |
Front-to-rear ventilation |
|
| Maximum Power Consumption |
19000 W |
|
| MTBF |
≤ 200,000 hours |
|
| Operating temperature |
0ºC to 40ºC (32ºF to 104ºF) |
|
| Storage temperature |
–40ºC to +70ºC (–40ºF to +158ºF) |
|
| Operating humidity |
10% to 90% RH (non-condensing) |
|
| Storage humidity |
5% to 95% RH (non-condensing) |
|
| Working altitude |
–500 m to 5000 m above the ground |
|
Software Specifications
| Software Specifications |
RG-N18006-X |
| Device virtualization |
Virtual Switching Unit 3.0 |
| Data center features |
VXLAN bridge VXLAN gateway BGP-EVPN VXLAN VXLAN mapping IPv6 VXLAN over IPv4 M-LAG |
| SDN |
OpenFlow 1.3. |
| Traffic analysis |
sFLOW IPFIX NetFlow |
| L2 features |
Jumbo frame IEEE 802.3ad (static link aggregation, LACP, cross-card link aggregation, cross-device link aggregation) IEEE 802.1Q STP, RSTP, MSTP GVRP QinQ LLDP Static MAC addresses, address filtering, and limit on the number of MAC addresses |
| IPv4 features |
Static routing, RIP, OSPF, IS-IS, and BGP4 VRRP ECMP Policy-based routing |
| IPv6 features |
Static routing, OSPFv3, BGP4+, IS-ISv6, and MLDv1/v2 VRRPv3 ECMP Policy-based routing Pingv6, Telnetv6, FTPv6, TFTPv6, DNSv6, ICMPv6 |
| Multicast |
IGMP v1/v2/v3 IGMP Snooping IGMP Proxy MLDv1, MLDv2 Multicast static routing Fast leave |
| ACL |
Standard, extended, and expert-level ACLs Global ACLs Ingress/Egress ACLs IPv6 ACLs |
| QoS |
Mapping of IEEE 802.1p, DSCP, and ToS priorities Port-based rate limit |
| Reliability |
Independent switch fabric modules and independent supervisor engines to implement thorough separation of the forwarding plane from the control plane 1+1 redundancy for supervisor modules N+1 redundancy for switch fabric modules N+M redundancy for power supply modules and fan modules Midplane-free design to avoid single point of failures Hot swapping of components Hot patching BPDU guard/Loop guard/Root guard ISSU NSR DLDP FRR Micro-segmentation security isolation GR for OSPF/IS-IS/BGP BFD for VRRP/OSPF/BGP4/ISIS/ISISv6/static routing |
| Security |
Network Foundation Protection Policy (NFPP) and CPU protection policy (CPP) to prevent protocol packet attacks Prevention against DDoS, ARP, and ICMP attacks DAI, port security, IP source guard, and protected ports uRPF RADIUS and TACACS user login authentication, password security, hierarchical user management, and password protection Source IP address restriction Function of not sending unknown multicast packets to the CPU Suppression of unknown multicast, unknown broadcast, and unknown multicast packets SSHv2, providing encrypted security channels for user login ITU-T Y.1731 Prevention against MAC address flapping Plaintext and MD5 ciphertext authentication for OSPF, RIPv2, and BGP4 packets |
| Management |
Console/AUX Modem/Telnet/SSH2.0 CLI configuration FTP, TFTP, Xmodem, and SFTP SNMP V1/V2c/V3 NETCONF RMON NTP clock Fault alarm and auto-recovery System operation logging Traffic analysis Zero-touch provisioning (ZTP) Reliable network service (RNS), which probes specific services provided by the peer device to monitor the service availability Telemetry Buffer status monitoring and traffic microburst identification Port mirroring, traffic mirroring, and ERSPAN Physical ports on all line cards support the routing mode and IP addresses can be configured independently. Monitoring of fan modules and power supply modules |
Safety and Regulatory Compliance
| Specification |
RG-N18006-X |
| Safety |
● EN 62368-1 ● IEC 62368-1 ● NM EN 62368-1 ● NM CEI 62368-1 ● UL 62368-1 ● CSA C22.2#62368-1 ● GB 4943.1 |
| Electromagnetic Compatibility (EMC) |
● EN 55032 ● EN IEC 61000-3-2 ● NM EN CEI 61000-3-2 ● EN 61000-3-3 ● NM EN 61000-3-3 ● EN 55035 ● NM EN 55035 ● ETSI EN 300 386 ● FCC CFR Title 47, Part 15, Subpart B ● ANSI C63.4-2014 ● ICES-003 Issue 7 ● GB/T 9254.1 |
| Environment |
● 2011/65/EU EN 50581 ● 2012/19/EU EN 50419 ● (EC) No.1907/2006 ● GB/T 26572 |
*For more country-specific regulatory information and approvals, contact your local sales agency.
Order Information
The configuration procedure for the RG-N18000-X series switches is as follows:
● Select the chassisand supervisor module.
● Select the powersupply module
● Select the switch fabric module.
● Select the line card.
● Select the optical transceiver.
Switch Chassis and Supervisor Engines
| Model |
Description |
| RG-N18018-X |
18-slot chassis (without power module), equipped with fans |
| RG-N18010-X |
10-slot chassis (without power module), equipped with fans |
| RG-N18006-X |
6-slot chassis (without power module), equipped with fans |
| M18000X-CM |
Supervisor module of RG-N18010-X and RG-N18018-X. It is used in combination with type-C switch fabric modules and CB cards. |
| M18000X-CM II |
2nd-generation supervisor module of RG-N18000-X and RG-N18018-X. It is used in combination with type-C switch fabric modules and CB cards. |
| M18006X-CM II |
2nd-generation supervisor module of RG-N18006-X. It is used in combination with type-C switch fabric modules and CB cards. |
| M18000X-CM X |
Supervisor module of RG-N18000-X and RG-N18018-X. It is used in combination with type-E switch fabric modules and CE cards. |
Power Modules
| Model |
Description |
| RG-PA2700I |
Power module of RG-N18000-X series (available for redundancy, AC, 2700 W, 16 A) |
| RG-PA3000I-F |
Power module of RG-N18000-X series (available for redundancy, AC, 3000 W, 16 A) |
Switch Fabric Modules
| Model |
Description |
| M18018X-FE-C II |
Type-C switch fabric module II of RG-N18018-X |
| M18018X-FE-C V |
Type-C switch fabric module V of RG-N18018-X |
| M18010X-FE-C I |
Type-C switch fabric module I of RG-N18010-X |
| M18010X-FE-C II |
Type-C switch fabric module II of RG-N18010-X |
| M18006X-FE-C I |
Type-C switch fabric module I of RG-N18006-X |
| M18010X-FE-E II |
Type-E switch fabric module II of RG-N18010-X |
| M18018X-FE-E IV |
Type-E switch fabric module IV of RG-N18018-X |
Line Cards
| Model |
Description |
| M18000X-36QXS-CB |
CB card, providing 36 × 40GE optical ports (QSFP+) |
| M18000X-36CQ-CB |
CB card, providing 36 × 100GE optical ports (QSFP28) |
| M18000X-18CQ-CB |
CB card, providing 18 × 100GE optical ports (QSFP28) |
| M18000X-18QXS18CQ-CB |
CB card, providing 18 × 40GE optical ports (QSFP+) and 18 × 100G Ethernet optical ports (QSFP28) |
| M18000X-12QXS12CQ-CB |
CB card, providing 12 × 40GE optical ports (QSFP+) and 12 × 100G Ethernet optical ports (QSFP28) |
| M18000X-6QXS6CQ-CB |
CB card, providing 6 × 40GE optical ports (QSFP+) and 6 × 100G Ethernet optical ports (QSFP28) |
| M18000X-48XS2CQ-CB |
CB card, providing 48 × 10GE optical ports (SFP+) and 2 × 100G Ethernet optical ports (QSFP28) |
| M18000X-48XT2CQ-CB |
CB card, providing 48 × 10GE electrical ports (RJ45) and 2 × 100G Ethernet optical ports (QSFP28) |
| M18000X-48CQ-CE |
CE card, providing 48 × 100GE optical ports (QSFP28), used in combination with type-E switch fabric modules |
| M18000X-48DC-CE |
CE card, providing 48 × 200GE optical ports (QSFP56), used in combination with type-E switch fabric modules |
100GBASE Series Optical Modules
| Model |
Description |
| 100G-QSFP-SR-MM850 |
100G SR module, QSFP28 form factor, MPO, 850 nm, 100 m (328.08 ft.) over MMF |
| 100G-QSFP-LR4-SM1310 |
100G LR4 module, QSFP28 form factor, Duplex LC, 1310 nm, 10 km (32,808.40 ft.) over SMF |
| 100G-QSFP-iLR4-SM1310 |
100G iLR4 module, QSFP28 form factor, Duplex LC, 1310 nm, 2 km (6,561.68 ft.) over SMF |
| 100G-QSFP-ER4-SM1310 |
100G ER4 module, QSFP28 form factor, Duplex LC, 1310 nm, 40 km (131,233.59 ft.) over SMF |
| 100G-AOC-10M |
100G QSFP28 AOC cable, 10 m (32.81 ft.) |
| 100G-AOC-5M |
100G QSFP28 AOC cable, 5 m (16.40 ft.) |
40GBASE Series Optical Modules
| Model |
Description |
| 40G-QSFP-SR-MM850 |
40G SR module, QSFP+ form factor, MPO, 150 m (492.13 ft.) over MMF |
| 40G-QSFP-LR4-SM1310 |
40G LR4 module, QSFP+ form factor, Duplex LC, 10 km (32,808.40 ft.) over SMF |
| 40G-QSFP-LSR-MM850 |
40G LSR module, QSFP+ form factor, MPO, 400 m (1,312.34 ft.) over MMF |
| 40G-QSFP-iLR4-SM1310 |
40G iLR4 module, QSFP+ form factor, Duplex LC, 2 km (6,561.68 ft.) over SMF |
| 40G-QSFP-LX4-SM1310 |
40G LX4 module, QSFP+ form factor, Duplex LC connector, 150 m (492.13 ft.) over OM3/OM4 MMF, or 2 km (6,561.68 ft.) over SMF |
| 40G-AOC-30M |
40G QSFP+ AOC cable, 30 m (98.43 ft.) |
| 40G-AOC-5M |
40G QSFP+ AOC cable, 5 m (16.40 ft.) |
10GBASE Series Optical Modules
| Model |
Description |
| XG-LR-SM1310 |
10G LR module, SFP+ form factor, Duplex LC, 10 km ((32,808.40 ft.) over SMF |
| XG-SFP-ER-SM1550 |
10G ER module, SFP+ form factor, Duplex LC, 40 km (131,233.60 ft.) over SMF |
| XG-SFP-LR-SM1310 |
10G LR module, SFP+ form factor, Duplex LC, 10 km ((32,808.40 ft.) over SMF |
| XG-SFP-SR-MM850 |
10G SR module, SFP+ form factor, Duplex LC, 300 m (984.25 ft.) over MMF |
| XG-SFP-ZR-SM1550 |
10G ZR module, SFP+ form factor, Duplex LC, 80 km (262,467.19 ft.) over SMF |
| XG-SR-MM850 |
10G SR module, SFP+ form factor, Duplex LC, 300 m (984.25 ft.) over MMF |
| XG-SFP-AOC5M |
10G SFP+ AOC cable, 5 m (16.40 ft.) |
| XG-SFP-AOC3M |
10G SFP+ AOC cable, 3 m (9.84 ft.) |
| XG-SFP-AOC1M |
10G SFP+ AOC cable, 1 m (3.28 ft.) |
1000BASE Series Optical Modules
| Model |
Description |
| GE-SFP-LH40-SM1310-BIDI |
1G LH module, SFP form factor, BIDI LC, 40 km (131,233.60 ft.) over SMF |
| GE-SFP-LX20-SM1310-BIDI |
1G LX module, SFP form factor, BIDI LC, 20 km (65,616.80 ft.) over SMF |
| GE-SFP-LX20-SM1550-BIDI |
1G LX module, SFP form factor, BIDI LC, 20 km (65,616.80 ft.) over SMF |
| MINI-GBIC-LH40-SM1310 |
1G LH module, SFP form factor, Duplex LC, 40 km (131,233.60 ft.) over SMF |
| MINI-GBIC-LX-SM1310 |
1G LX module, SFP form factor, Duplex LC, 10 km (32,808.40 ft.) over SMF |
| MINI-GBIC-SX-MM850 |
1G SR module, SFP form factor, Duplex LC, 550 m (1,804.46 ft.) over MMF |
| MINI-GBIC-ZX80-SM1550 |
1G ZX module, SFP form factor, Duplex LC, 80 km (262,467.19 ft.) over SMF |
1000BASE Series Electrical Modules
| Model |
Description |
| Mini-GBIC-GT(F) |
1G SFP copper module, SFP form factor, RJ45, 100 m (328.08 ft.) over Cat 5e/6/6a |
| Mini-GBIC-GT |
1G SFP copper module, SFP form factor, RJ45, 100 m (328.08 ft.) over Cat 5e/6/6a |
