Cisco DS-CWDM-1610= 数据表
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Intelligent network services—Uses VSAN technology for hardware-enforced, isolated environments within a single physical fabric, access
control lists (ACLs) for hardware-based intelligent frame processing, and advanced traffic management features such as Fibre Channel
Congestion Control (FCC) and fabric-wide quality of service (QoS) to facilitate migration from SAN islands to enterprise-wide storage
networks.
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Advanced FICON services—Supports FICON environments, including cascaded FICON fabrics, VSAN-enabled intermix of mainframe and
open systems environments, and N_Port ID virtualization for mainframe Linux partitions. CUP (Control Unit Port) support enables in-
band management of Cisco MDS 9200 Series switches from the mainframe management console.
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Comprehensive network security framework—Supports RADIUS and TACACS+, Fibre Channel Security Protocol (FC-SP), Secure File
Transfer Protocol (SFTP), Secure Shell (SSH) Protocol, and Simple Network Management Protocol Version 3 (SNMPv3) implementing
Advanced Encryption Standard (AES), VSANs, hardware-enforced zoning, ACLs, and per-VSAN role-based access control.
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Sophisticated diagnostics—Provides intelligent diagnostics, protocol decoding, and network analysis tools as well as integrated Call Home
capability for added reliability, faster problem resolution, and reduced service costs.
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Open platform for intelligent storage applications—Provides the intelligent services necessary for hosting and/or accelerating storage
applications such as network-hosted volume management, data migration and backup. Storage services modules can be installed in any
Cisco MDS 9500 or MDS 9200 series chassis to provide application hosting and/or acceleration intelligence in the fabric.
Virtual SANs
Ideal for efficient, secure SAN consolidation, VSANs allow more efficient storage network utilization by creating hardware-based isolated
environments with a single physical SAN fabric or switch. Each VSAN can be zoned as a typical SAN and maintains its own fabric services for
added scalability and resilience. VSANs allow the cost of SAN infrastructure to be shared among more users, while ensuring absolute
segregation of traffic and retaining independent control of configuration on a VSAN-by-VSAN basis.
Integrated SAN Routing
In another step toward deploying efficient, cost-effective, consolidated storage networks, the Cisco MDS 9216A multilayer fabric switch
supports IVR, the industry’s first routing functionality for Fibre Channel. IVR allows selective transfer of data between specific initiators and
targets on different VSANs while maintaining isolation of control traffic within each VSAN. With IVR, data can transit VSAN boundaries
while maintaining control plane isolation, thereby maintaining fabric stability and availability. Integrated IVR eliminates the need for external
routing appliances, greatly increasing routing scalability while delivering line-rate routing performance, simplifying management, and
eliminating the challenges associated with maintaining separate systems. Integrated IVR means lower total cost of SAN ownership.
Multiprotocol Intelligence
The Cisco MDS 9216A architecture enables multilayer and multiprotocol functionality, allowing it to transparently integrate new transport
technologies for maximum flexibility. Beginning with Fibre Channel, FICON, iSCSI, and FCIP, the Cisco MDS 9216A is a robust
multiprotocol platform designed for deployment of cost-optimized storage networks. Users can implement up to 10-Gbps Fibre Channel or
FICON for high-performance applications, iSCSI over Ethernet for cost-effective connectivity to shared storage pools, and FCIP
for connectivity between data centers.
Open Platform for Intelligent Storage Applications
The Cisco MDS 9216A multilayer fabric switch provides an open platform that delivers the intelligence and advanced features required to make
multilayer intelligent SANs a reality, including hardware-enabled innovations to host or accelerate applications for data migration, data
replication, serverless backup, network-hosted volume management and more. Hosting and/or accelerating these applications in the network can
dramatically improve scalability, availability, security and manageability of the storage environment—resulting in increased utility and lower
total cost of ownership (TCO).