| Nom De Marque: | Cisco |
| Numéro De Modèle: | N3K-C3064PQ-10GE-B |
| Quantité De Produit: | 1 |
| Prix: | Négociable |
The Cisco N3K-C3064PQ-10GE Nexus 3064-E switch is a single-rack unit Ethernet switch designed for high-performance data center environments. This enterprise-grade switching solution features VLAN support, comprehensive storm control mechanisms, Weighted Random Early Detection (WRED), and Rapid Spanning Tree Protocol (RSTP) support.
The switch provides wire-rate Layer 2 and Layer 3 switching and supports both standard and reverse airflow schemes. It comes standard with dual AC power supplies, port-side exhaust "B" type airflow, and a rack kit. Standard fans (port-side intake) are available upon request.
| Part Number | N3K-C3064PQ-10GE |
| Device Type | Switch - 48 Ports - L3 - Managed |
| Dimensions | Rack Mount - 1U (17.3" x 19.9" x 1.7") |
| Performance | Switching Capacity: 1.28 Tbps | Forwarding Performance: 960 Mpps |
| Capacity | Virtual Interfaces (VLANs): 4096 | MSTP Instances: 64 | Rapid Spanning Tree Protocol Example: 512 |
CISPR 22 Class A, BSMI CNS 13438 Class A, CISPR 24, EN 61000-3-2, VCCI Class A ITE, EN 61000-3-3, EN55024, EN55022 Class A, AS/NZS 60950-1, ICES-003 Class A, RoHS, FCC CFR47 Part 15, EN300-386, IEC 60950-1, EN 60950-1, UL 60950-1 Second Edition, CSA C22.2 No. 60950-1, GB 4943
Enterprise Performance: The Cisco N3K-C3064PQ-10GE-B Nexus 3064-E delivers reliable end-to-end connectivity for mid-size data centers, enterprise campus core networks, and high-density server deployments. Built on Cisco's resilient switching architecture, it ensures low-latency data transmission critical for cloud computing, big data analysis, and enterprise business systems.
Intelligent Management: Powered by Cisco NX-OS operating system with comprehensive traffic scheduling, access control, and quality of service optimization. Supports automated network deployment and dynamic configuration adjustment for improved operational efficiency.
Optimized Design: Reverse airflow design enables efficient heat dissipation in diverse data center cabinet deployments. Redundant hardware protection mechanisms enhance reliability and minimize unexpected downtime.