Category: 10GbE storage

10GBASE-T is a technology that runs 10Gb Ethernet over familiar Category 6/6a cables for distances up to 100m and is terminated by the ubiquitous RJ-45 jack. Till now, most datacenter copper cabling has been special Direct Attach cables for distances up to 7m terminated by an SFP+ connector. To work, data center switches need matching SFP+ connectors, meaning new switches are required for any data center making the move from 1GbE to 10GbE. 10GBASE-T is generating a lot of interest in 2012 as the first single-chip implementations at lower power (fanless) and lower cost (competitive with Direct Attach NICs) come to market. A data center manager now has an evolutionary way to incorporate 10GbE that exploits the cabling and switches already in place. The cost savings from preserving existing cabling alone can be tremendous.

But is 10GBASE-T up to the task of carrying storage traffic? The bit-error rate technical tests of 10GBASE-T look promising. 10GBASE-T is meeting the 10-12 BER requirements of all the relevant Ethernet and storage specifications. We expect NAS and iSCSI to move rapidly to take advantage of the deployment cost savings offered by 10GBASE-T. Admins responsible for NAS and iSCSI storage over Ethernet should find 10GBASE-T meets their reliability expectations.

But what about Fibre Channel over Ethernet (FCoE)? Note that storage admins responsible for FC and/or FCoE are among the most risk-adverse people on the planet. They especially need to be confident that any new technology, no matter how compelling its benefits, doesn’t appreciably increase the risk of data loss. For this reason, they are adopting FCoE very slowly, though the economics make FCoE very compelling. So a broad market transition to FCoE over 10GBASE-T is likely to take some time regardless.

Cisco announced in June 2012 a new 5000-series Nexus switch supporting up to 68 ports of “FCoE-ready” 10GBASE-T. Cisco has made the investment to support storage protocols, including FCoE, over 10GBASE-T in this switch and is committed to working with the industry to do the testing to prove its robustness. In fact, some eager end-users are getting ahead of this testing, and, based on results from their own stress tests, moving now to storage over 10GBASE-T deployments, including FCoE.

Every major speed and capabilities transition for Ethernet has engendered skeptics. The transition to running storage protocols over 10GBASE-T is no different. General consensus is that the “jury is out” for FCoE over 10GBASE-T. The interoperability and stress testing to prove reliability isn’t complete. And storage admins will generally want to see reports from multiple deployments before they move. But the long-term prognosis for storage – NAS, iSCSI, and FCoE — over 10GBASE-T is looking very encouraging.

10GBASE-T is a technology that runs 10Gb Ethernet over familiar Category 6/6a cables for distances up to 100m and is terminated by the ubiquitous RJ-45 jack. Till now, most datacenter copper cabling has been special Direct Attach cables for distances up to 7m terminated by an SFP+ connector. To work, data center switches need matching SFP+ connectors, meaning new switches are required for any data center making the move from 1GbE to 10GbE. 10GBASE-T is generating a lot of interest in 2012 as the first single-chip implementations at lower power (fanless) and lower cost (competitive with Direct Attach NICs) come to market. A data center manager now has an evolutionary way to incorporate 10GbE that exploits the cabling and switches already in place. The cost savings from preserving existing cabling alone can be tremendous.

But is 10GBASE-T up to the task of carrying storage traffic? The bit-error rate technical tests of 10GBASE-T look promising. 10GBASE-T is meeting the 10-12 BER requirements of all the relevant Ethernet and storage specifications. We expect NAS and iSCSI to move rapidly to take advantage of the deployment cost savings offered by 10GBASE-T. Admins responsible for NAS and iSCSI storage over Ethernet should find 10GBASE-T meets their reliability expectations.

But what about Fibre Channel over Ethernet (FCoE)? Note that storage admins responsible for FC and/or FCoE are among the most risk-adverse people on the planet. They especially need to be confident that any new technology, no matter how compelling its benefits, doesn’t appreciably increase the risk of data loss. For this reason, they are adopting FCoE very slowly, though the economics make FCoE very compelling. So a broad market transition to FCoE over 10GBASE-T is likely to take some time regardless.

Cisco announced in June 2012 a new 5000-series Nexus switch supporting up to 68 ports of “FCoE-ready” 10GBASE-T. Cisco has made the investment to support storage protocols, including FCoE, over 10GBASE-T in this switch and is committed to working with the industry to do the testing to prove its robustness. In fact, some eager end-users are getting ahead of this testing, and, based on results from their own stress tests, moving now to storage over 10GBASE-T deployments, including FCoE.

Every major speed and capabilities transition for Ethernet has engendered skeptics. The transition to running storage protocols over 10GBASE-T is no different. General consensus is that the “jury is out” for FCoE over 10GBASE-T. The interoperability and stress testing to prove reliability isn’t complete. And storage admins will generally want to see reports from multiple deployments before they move. But the long-term prognosis for storage – NAS, iSCSI, and FCoE — over 10GBASE-T is looking very encouraging.