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CISCO Nexus 6001, 1Ru Switch, Fixed (N6K-C6001-64T)

CISCO Nexus 6001, 1Ru Switch, Fixed (N6K-C6001-64T)

Artikelnr: N6K-C6001-64T
Produkt: Ethernet
Portar: 48
Hastighet: 10Gbps
320.699:-  [256.559,20 ex moms]
På lager i butik (Spånga): Ej i lager
Hos leverantören: Ej i lager

På lager i butik: Produkten finns för omgående leverans. Datorpaket har 1-3 dagars leveranstid.

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Ej i lager: Produkten finns inte på lager, obekräftad leveranstid.

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Cisco Nexus 6001 1 RU Switch, Fixed 48P of 10G BaseT and 4P QSFP; 2 PS, 3 Fans

Cisco Nexus 6001T - The Cisco Nexus 6001T is a 1RU 10 and 40 Gigabit Ethernet switch offering wire-speed performance for up to sixty-four 10 Gigabit Ethernet ports (using Quad Small Form-Factor Pluggable [QSFP] breakout cables) for Ethernet and FCoE traffic. It has an overall throughput of 1.28 terabits per second (Tbps). TheCisco Nexus 6001T offers 48 fixed 1/10G BASE-T and four 40 Gigabit Ethernet QSFP+ ports. Each 40 Gigabit Ethernet port can be split into four 10 Gigabit Ethernet ports using a QSFP breakout cable. The Cisco Nexus 6001T delivers low port-to-port latency of approximately 3.3 microsecond and low jitter independent of packet size using cut-through switching architecture and with features enabled. QSFP interface supports 1 microsecond latency. The hardware of 6001T is capable of supporting FCoE over 10G BASE-T interface The Cisco Nexus 6001T can be deployed in multiple scenarios - direct-attach 10 and 40 Gigabit Ethernet server-access and high‑density fabric extender aggregation deployments, leaf and spine designs, and compact aggregation - to build scalable Cisco Unified Fabric across a diverse set of physical and virtual server environments in the data center.

Cisco Nexus 6001 Switch

In today’s data centers, virtualization deployments have become commonplace, and this trend is increasing rapidly with the availability of 10 Gigabit Ethernet servers at attraction prices. The combination of increased adoption of these servers and applications with higher bandwidth requirements is increasing the need for dense 10 and 40 Gigabit Ethernet switching. Moreover, data center architecture is evolving as customers seek to build large-scale nonblocking fabrics to accommodate different applications.

The Cisco® Nexus® 6001 Switch is part of a robust fabric that can scale significantly to meet data center growth, deliveringarchitecturalflexibility that enables any data center to be a more agile, cost-effective, and efficient environment. The Cisco Nexus 6001 Switch is an important component of the Cisco Unified Data Center architecture, complementing existing Cisco Nexus switches. The Cisco Nexus 6001 is an energy-efficient switch that offers high port density in one rack unit (1RU), supports 10 and 40 Gigabit Ethernet and Fibre Channel over Ethernet (FCoE), provides integrated Layer 2 and 3 features at wire speed, and offers low latency of approximately 1 microsecond for any packet size. With a choice of front-to-back (port side exhaust) and back-to-front (port side intake) airflow options, the switch is designed for a broad range of traditional data center and large-scale virtualized cloud deployments.

The Nexus 6001 Switch runs the industry-leading Cisco NX-OS Software operating system, providing customers with features and capabilities that are widely deployed around the world. Cisco NX-OS Software is a purpose-built data center operating system designed for performance, resiliency, scalability, manageability, and programmability. It meets Ethernet and storage networking requirements, providing a robust and comprehensive feature set that can meet the demanding requirements of virtualization and automation in present and future data centers. The Cisco enhanced fabric solution allows the transparent integration of the virtual and physical devices on a unified network. In addition, the comprehensive Cisco NX-OS service set can be used to create unique innovations for customized solutions.

The Cisco Nexus 6001 Switch is well-suited to meet the challenging demands of virtualized and cloud-based deployments. The switch is designed with the Cisco high-performance application-specific integrated circuit (ASIC) and is excellent for integrating and connecting a virtual environment to the high-performance servers in a data center. The Nexus 6001 switch is excellent for top-of-rack (ToR) deployments such as direct-attach 10 Gigabit Ethernet server-access and fabric extender aggregation deployments and leaf and spine designs to build scalable Cisco Unified Fabric in data centers. This platform can be deployed in the middle of the row (MoR, in server racks) or at the end of the row (EoR, in network racks) in a data center.

  • Optimization for virtualization and cloud deployments: Today, high-performance servers deployed in the cloud can support many more virtual machines and workloads than ever before. The requirement to deploy new servers on demand puts additional strain on the network fabric. The Cisco Nexus 6001 Switch addresses this challenge by providing scalability and performance, making it an excellent platform for meeting current and future needs.
  • Density and resilience: Built for today’s data centers, the switches are designed just like the servers they support. Ports and power connections are at the rear, close to server ports, helping keep cable lengths as short as possible and delivering to rack servers benefits traditionally offered only on blade servers. Hot‑swappable power and fan modules can be accessed from the front panel, where status lights offer an at-a-glance view of switch operation. Front-to-back or back-to-front cooling is consistent with server designs, supporting efficient data center hot- and cold-aisle designs. Serviceability is enhanced with all customer-replaceable units accessible from the front panel.
  • Energy efficiency: The Cisco Nexus 6001 Switch helps data centers operate within their space, power, and cooling parameters while reducing their carbon footprints. The switch power supplies are also capable of maintaining 90 percent efficiency at load conditions of as low as 25 percent utilization. This capability allows the switch to make efficient use of power while still being appropriately sized to support the conditions of a full system load.
  • Low latency: The Cisco Nexus 6001 with cut-through switching supports approximately 1 microsecond of port-to-port latency for any packet size with features enabled.
  • Intelligent Cisco Switched Port Analyzer (SPAN) and Encapsulated SPAN (ERSPAN): SPAN and ERSPAN can be used for troubleshooting and robust monitoring of traffic. The SPAN and ERSPAN capabilities in the Cisco Nexus 6001 Switch are nondisruptive, with only extra bandwidth capacity used for SPAN and ERSPAN traffic. Enhancements include more efficient allocation of bandwidth to SPAN and ERSPAN traffic whereby any fabric bandwidth not used for data traffic can be allocated to SPAN or ERSPAN traffic. The switch can support up to 31 line-rate SPAN and ERSPAN sessions.
  • Flexible buffer management: The Cisco Nexus 6001 Switch supports a 25-MB packet buffer shared by every 3 ports of 40 Gigabit Ethernet or every 12 ports of 10 Gigabit Ethernet. The flexible buffer management capability on the Cisco Nexus 6001 Switch allows dynamic tuning of the shared and dedicated buffer size in the event of congestion.
  • Multicast enhancements: The Cisco Nexus 6001 Switch supports line-rate Layer 2 and 3 multicast throughput for all frame sizes. It offers optimized multicast replication through the fabric and at the egress point. Support is provided for 32,000 multicast routes and for Internet Group Management Protocol (IGMP) snooping tables in hardware. Multicast enhancements include flow-based hashing for multicast traffic over a PortChannel and enhanced Bidirectional Protocol-Independent Multicast (Bidir-PIM) support. The switch also supports IP-based forwarding for IGMP snooping.



Cisco Nexus 6001: Layer 2 and 3 hardware forwarding at 1.28 Tbps
Support for up to 256,000 combined entries of MAC addresses and APR entries
Low-latency of approximately 1 microsecond using cut-through forwarding for predictable, consistent traffic latency regardless of packet size, traffic pattern, or features enabled on 40 and 10 Gigabit Ethernet interfaces
25-MB buffer per 3x 40 Gigabit Ethernet QSFP interfaces
Line-rate traffic throughput on all ports


Cisco Nexus 6001P: 48 fixed 1/10 Gigabit Ethernet SFP+ and 4 fixed 40 Gigabit Ethernet QSFP+ports, with 10 and 40 Gigabit Ethernet FCoE support on all respective ports
Cisco Nexus 6001T: 48 fixed 1/10 Gigabit BASE-T and 4 fixed 40 Gigabit Ethernet QSFP+ ports, with 10 and 40 Gigabit Ethernet FCoE support on all respective ports
40 Gigabit Ethernet ports can be converted to 10 Gigabit Ethernet interfaces through QSFP+breakout cable
Fabric extension through the Cisco Nexus 2200

Layer 2 Features

Layer 2 switch ports and VLAN trunks
IEEE 802.1Q VLAN encapsulation
Support for up to 4000 VLANs
Support for up to 4000 access control list (ACL) entries
Rapid Per-VLAN Spanning Tree Plus (PVRST+) (IEEE 802.1w compatible)
Multiple Spanning Tree Protocol (MSTP) (IEEE 802.1s): 64 instances
Spanning Tree PortFast
Spanning Tree root guard
Spanning Tree Bridge Assurance
Cisco EtherChannel technology (up to 16 ports per EtherChannel)
Cisco vPC technology
vPC configuration synchronization
vPC Shutdown
Link Aggregation Control Protocol (LACP): IEEE 802.3ad
Advanced PortChannel hashing based on Layer 2, 3, and 4 information
Jumbo frames on all ports (up to 9216 bytes)
Pause frames (IEEE 802.3x)
Storm control (unicast, multicast, and broadcast)
Private VLANs
Private VLAN over trunks (isolated and promiscuous)
Private VLANs over vPC and EtherChannels
VLAN remapping
Cisco FabricPath
EvPC and vPC+ with Cisco FabricPath
Cisco Adapter FEX
Cisco Data Center VM-FEX
Support for up to 24 fabric extenders (Layer 2) with each switch

Layer 3 Features

Layer 3 interfaces: Routed ports, switch virtual interface (SVI), PortChannels, subinterfaces, and PortChannel subinterfaces
Support for up to 32,000 IPv4 and 8000 IPv6 host prefixes
Support for up to 8000 multicast routes (IPv4)
Support for up to 8000 IGMP snooping groups
Support for 4000 Virtual Routing and Forwarding (VRF) entries
Support for up to 4096 VLANs
Equal-Cost Multipathing (ECMP) up to 64 ways
4000 flexible ACL entries
Routing protocols: Static, Routing Information Protocol Version 2 (RIPv2), Enhanced Interior Gateway Routing Protocol (EIGRP), Open Shortest Path First Version 2 (OSPFv2), Border Gateway Protocol (BGP) and Intermediate System-to-Intermediate System (IS-IS)
IPv6 routing protocols: Static, OPFv3, BGPv6, and EIGRPv6
IPv6 VRF-lite
BFD support: OSPFv2, BGPv4, EIGRP, VRFs
Policy Based Routing (IPv4 and IPv6)
Hot-Standby Router Protocol (HSRP) and Virtual Router Redundancy Protocol (VRRP)
IPdirect Broadcast
vPC+ Routing Protocol Peering
ACL: Routed ACL with Layer 3 and 4 options to match ingress and egress ACL
Multicast: Protocol Independent Multicast Version 2 (PIMv2) sparse mode, Source-Specific Multicast (SSM), Bidir-PIM, Multicast Source Discovery Protocol (MSDP), IGMPv2 and v3, and Multicast VLAN Registration (MVR)
VRF: VRF-lite (IP VPN); VRF-aware unicast; and BGP-, OSPF-, RIP-, and VRF-aware multicast
Unicast Reverse Path Forwarding (uRFP) with ACL; strict and loose modes
Jumbo frame support (up to 9216 bytes)
Support for up to 24 fabric extenders on each Cisco Nexus 6001

Quality of Service (QoS)

Layer 2 IEEE 802.1p (class of service [CoS])
8 unicast queues and 8 multicast queues per port
Per-port QoS configuration
CoS trust
Port-based CoS assignment
Modular QoS CLI (MQC) compliance: IPv4 and IPv6
ACL-based QoS classification (Layers 2, 3, and 4)
Flexible TCAM Carving
MAC/ARP Hardware Carving
MQC CoS marking
Per-port virtual output queuing
CoS-based egress queuing
Egress strict-priority queuing
Egress port-based scheduling: Weighted Round-Robin (WRR)
Control Plan Policing (CoPP): IPv4 and IPv6


Ingress ACLs (standard and extended) on Ethernet and virtual Ethernet ports
Standard and extended Layer 2 ACLs: MAC addresses, protocol type, etc.
Standard and extended Layer 3 and 4 ACLs: IPv4 and IPv6, Internet Control Message Protocol (ICMP and ICMPv6), TCP, User Datagram Protocol (UDP), etc.
Ingress Policing
VLAN-based ACLs (VACLs)
Port-based ACLs (PACLs)
Named ACLs
Optimized ACL distribution
ACLs on virtual terminals (VTYs)
ACL logging (IPv4 only)
Dynamic Host Configuration Protocol (DHCP) snooping with Option 82
Dynamic Address Resolution Protocol (ARP) Inspection
IP source guard
DHCP relay - up to 32 destinations
Ethernet Port Security

High-Availability Features

ISSU for Layer 2
Hot-swappable field-replaceable power supplies and fan modules
N+1 and N+N power redundancy
N:1 fan module redundancy
N+1 fan module redundancy


Switch management using 10/100/1000-Mbps management or console ports
CLI-based console to provide detailed out-of-band management
In-band switch management
Port-based locator and beacon LEDs
Configuration synchronization
Configuration rollback
Secure Shell Version 2 (SSHv2)
Authentication, authorization, and accounting (AAA)
Syslog (8 servers)
Embedded packet analyzer
SNMPv1, v2, and v3 (IPv4 and IPv6)
Enhanced SNMP MIB support
XML (NETCONF) support
Remote monitoring (RMON)
Advanced Encryption Standard (AES) for management traffic
Unified username and passwords across CLI and SNMP
Microsoft Challenge Handshake Authentication Protocol (MS-CHAP)
Digital certificates for management between switch and RADIUS server
Cisco Discovery Protocol Versions 1 and 2
SPAN on physical, PortChannel and VLAN
Ingress and egress packet counters per interface
Network Time Protocol (NTP)
Cisco Generic Online Diagnostics (GOLD)
Comprehensive bootup diagnostic tests
Embedded Event Manager
Cisco Call Home
Cisco Smart Call Home
Default Interface
Cisco Fabric Manager
Cisco DCNM
CiscoWorks LAN Management Solution (LMS)

Data Center Bridging

CEE- and IEEE-compliant priority flow control (PFC; per-priority Pause frame support)
PFC link distance support: 300m
CEE-compliant Data Center Bridging Exchange (DCBX) Protocol
CEE- and IEEE-compliant enhanced transmission selection

FCoE Features (Require Storage Services License)

T11 standards-compliant FCoE (FC-BB-5)
T11 FCoE Initialization Protocol (FIP) (FC-BB-5)
Any 10 or 40 Gigabit Ethernet port configurable as FCoE
SAN administration separate from LAN administration
Fibre Channel forwarding (FCF)
Fibre Channel enhanced port types: VE, and VF
Direct attachment of FCoE targets
Fabric Device Management Interface (FDMI)
Fibre Channel ID (FCID) persistence
Distributed device alias services
In-order delivery
Port tracking
Cisco FCoE_NPV technology
N-port identifier virtualization (NPIV)
Fabric services: Name server, registered state change notification (RSCN), login services, and name-server zoning
Per-VSAN fabric services
Cisco Fabric Services
Distributed device alias services
Host-to-switch and switch-to-switch FC-SP authentication
Fabric Shortest Path First (FSPF)
Standard zoning
Enhanced zoning
Cisco Fabric Analyzer
Cisco Data Center Network Manager - SAN
Storage Management Initiative Specification (SMI-S)
Boot from SAN over vPC and Enhanced vPC (EvPC)
VSAN trunking
Fabric Device Management Interface (FDMI)
Fibre Channel ID (FCID) persistence
Distributed device alias services
In-order delivery
Port tracking
Cisco NPV technology
Fabric binding for Fibre Channel
Port security
Fibre Channel traceroute
Fibre Channel ping
Fibre Channel debugging


Generic MIBs


Layer 3 MIBs


Ethernet MIBs


Configuration MIBs


Monitoring MIBs


Security MIBs


Miscellaneous MIBs



Industry Standards

IEEE 802.1D: Spanning Tree Protocol
IEEE 802.1p: CoS prioritization
IEEE 802.1Q: VLAN tagging
IEEE 802.1Qaz: Enhanced transmission selection
IEEE 802.1Qbb: Per-priority Pause
IEEE 802.1s: Multiple VLAN instances of Spanning Tree Protocol
IEEE 802.1w: Rapid reconfiguration of Spanning Tree Protocol
IEEE 802.3: Ethernet
IEEE 802.3ad: LACP with fast timers
IEEE 802.3ae: 10 Gigabit Ethernet
SFF 8431 SFP+ CX1 support

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