10GbE Interconnect Solutions Overview
četvrtak , 31.03.2016.New sophisticated networking services, coupled with the increase of Internet users push the Internet traffic to an even higher point, driving the need for increased bandwidth consequently. One Ethernet technology—10 Gigabit Ethernet (GbE) is adequate for such bandwidth demand, and has become widely available due to the competitive price and performance, as well as its simplified cabling structure.
Several cable and interconnect solutions are available for 10GbE, the choice of which depends on the maximum interconnect distance, power budget and heat consumption, signal latency, network reliability, component adaptability to future requirements, cost. Here cost includes more than what we call the equipment interface and cable cost, but more often the labor cost. Thus, choosing a 10GbE interconnect solution requires careful evaluation of each option against the specific applications. This text aims to introduce two main 10GbE interconnect solutions: fiber optics and copper.
Fiber Optics Solution
Fiber optic cables include single-mode fiber (SMF) and multi-mode fiber (MMF). MMF is larger in diameter than that of single-mode, thus portions of the light beam follow different paths as they bounce back and forth between the walls of the fiber, leading to the possible distorted signal when reach the other end of the cable. The amount of distortion increases with the length of the cable. The light beam follows a single path through thinner single-mode cable, so the amount of distortion is much lower.
The typical 10GBASE port type that uses MMF is 10GBASE-SR which uses 850nm lasers. When used with OM3 MMF, 10GBASE-SR can support 300m-connection distances, and when with OM4 MMF, 400m link length is possible through 10GBASE-SR SFP+ transceiver.
10GBASE-LR (eg. E10GSFPLR), 10GBASE-ER and 10GBASE-ZR are all specified to work via SMF. SMF can carry signals up to 80km, so it is more often used in wide-area networks. But since SMF requires a more expensive laser light source than MMF does, SMF is replaced by MMF when the required connection distance is not so long.
Copper Solution
10GBASE-CX4, SFP+ Direct Attach (DAC) and 10GBASE-T are all specified to operate through copper medium.
10GBASE-CX4
Being the first 10GbE copper solution standardized by the IEEE as 802.3ak in 2002, 10GBase-CX4 uses four cables, each carrying 2.5gigabits of data. It is specified to work up to a distance of 15m. Although 10GBase-CX4 provides an extremely cost-effective method to connect equipment within that 15m-distance, its bulky weight and big size of the CX4 connector prohibited higher switch densities required for large scale deployment. Besides, large diameter cables are purchased in fixed lengths, causing problems in managing cable slack. What’s more, the space isn’t sufficient enough to handle these large cables.
SFP+ DAC
SFP+ Direct Attach Cable (DAC), or called 10GSFP+Cu, is a copper 10GBASE twin-axial cable, connected directly into an SFP+ housing. It comes in either an active or passive twin-axial cable assembly. This solution provides a low-cost and low energy-consuming interconnect with a flexible cabling length, typically 1 to 7m (passive versions) or up to 15m (active versions) in length. Below is the SFP+ to SFP+ passive copper cable assembly with 1m length, 487655-B21, a HP compatible 10GbE cabling product.
10GBASE-T
10GBASE-T, known as IEEE 802.3an-2006, utilizes twisted pair cables and RJ-45 connectors over distances up to 100m. Cat 6 and Cat 6a are recommended, with the former reaching the full length at 100m, and the latter at 55m. In a word, 10GBASE-T permits operations over 4-connector structured 4-pair twisted-pair copper cabling for all supported distances within 100m. Besides, 10GBASE-T cabling solution is backward-compatible with 1000BASE-T switch infrastructures, keeping costs down while offering an easy migration path from 1GbE to 10GbE.
Conclusion
In summary, two main media options are available for 10GbE interconnect: copper and fiber optics, including 10GBASE-CX4, SFP+ DAC, 10GBASE-T, 10GBASE-SR, 10GBASE-LR, 10GBASE-ER, 10GBASE-ZR, and so on. Fiberstore offers all these 10GBASE SFP+ modules and cables for your 10GbE deployment, which are quality-assured and cost-effective, like E10GSFPLR and 487655-B21 mentioned above. For more information about 10GbE interconnect solutions, you can visit Fiberstore.
Oznake: SMF, MMF, 10GBASE-LR, E10GSFPLR, SFP+ DAC, 487655-B21, 10Gbase-T
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Why Choose 10GBASE-T Interface for 10GbE Infrastructure?
četvrtak , 10.03.2016.The increasing availability of virtualization applications and unified networking infrastructure puts extreme input/output (I/O) demands on 1 Gigabit Ethernet (GbE), making data centers facing bandwidth challenges. Deploying 10GbE infrastructure can address these problems by delivering greater bandwidth, simplifying network, and lowering power consumption.
Well, the deployment of 10GbE requires cost-effective solution. In general, there are several 10GbE interfaces to choose from, including CX4, SFP+ fiber, SFP+ Direct Attach Copper (DAC), and 10GBASE-T. As for CX4, it’s an older technology that does not meet high density requirements. Although most deployment chooses SFP+ fiber (eg. F5-UPG-SFP+-R) solution, fiber is in no case cost-effective. Besides, SFP+ DAC is limited by its short reach. In such a case, 10GBASE-T is selected as the less power-consuming and cost-saving solution for 10GbE. This article details at what are the reasons that drive the 10GBASE-T to become the suitable 10GbE media option.
Firstly, let’s figure out what is 10GBASE-T. 10GBASE-T, or IEEE 802.3an-2006, is a standard released in 2006 to provide 10Gbit/s connections over unshielded or shielded twisted pair cables, with distances up to 100 meters (330 ft) with RJ45 connectors. 10GBASE-T cable infrastructure can also be used for 1000BASE-T, allowing a gradual upgrade from 1000BASE-T using auto-negotiation to select which speed to use.
Listed below are several reasons why 10GBASE-T become the 10GbE media option.
Flexibility in Reach
Like other copper network implementations using BASE-T standards, 10GBASE-T works for link lengths up to 100 meters, giving network designers a far greater level of flexibility in connecting devices in the data center. Able to realize flexible reach, 10GBASE-T can accommodate either top of the rack, middle of row, or end of the row network topologies, making server placement even more easy and convenient.
Backward Compatibility
10GBASE-T is backward-compatible with existing 1GbE networks, meaning that it can be deployed based on existing 1GbE switch infrastructures in data centers that are cabled with CAT6 and CAT6A (or above) cabling. In other words, when migrating from 1GbE to 10GbE, 10GBASE-T provides an easy path, saving cost.
Reduction in Power Consumption
In widespread deployment of 10GbE networks using 10GBASE-T interface, one challenge lies in the fact that the early physical layer interface chips (PHYs) consumed too much power. The original gigabit chips were roughly 6.5 Watts per port. With technology improvements, the chips improved from one generation to the next, leading to less 1 W per port for 1GbE interfaces. It’s the same with 10GBASET. And owing to the manufacturing processes, the 10GBASE-T reduction in power consumption has been made possible. The figure below shows the relationship between power consumption and wavelength.
When 10GBASE-T adapters were first introduced in 2008, they required 25 W of power for a single port, and later, power has been reduced thanks to the successive generations of developing newer and smaller process technologies. The latest 10GBASE-T adapters require less than 6 W per port,which makes 10GBASE-T suitable for motherboard integration and high-density switches.
Latency
Depending on packet size, latency for 10GBASE-T ranges from just over 2 µs to less than 4 µs—a much tighter latency range. For Ethernet packet sizes of 512 bytes or larger, 10GBASE-T’s overall throughput offers an advantage over 1000BASE-T. Latency for 10GBASE-T is more than three times lower than 1000BASE-T with larger packet sizes. For those enterprise applications that have been operating for years with 1000BASE-T latency, 10GBASE-T latency only makes things better. Many products designed for Local Area Network (LAN) purposely add small amounts of latency to reduce power consumption or CPU overhead.
Broad use of 10GBASE-T interface simplifies data center infrastructures, making it easier to manage server connectivity while delivering the bandwidth needed for heavily virtualized servers and I/O-intensive applications. As the cost continues to fall, and new technological processes further lower power consumption, all these make 10GBASE-T suitable for integration on server motherboards.
Conclusion
10GBASE-T offers the flexible reach, and its backward compatibility with existing 1GbE networks makes it the ideal cost-effective media option for 10GbE infrastructure. As a professional fiber optic product manufacturer and supplier, Fiberstore provides countless 10GBASE-T transceivers for 10GbE applications. Of course, besides 10GBASE-T, other 10GBASE standard transceivers also available in Fiberstore, such as 10GBASE-ER SFP+ (J9153A). For more information about 10GbE interfaces, you can visit Fiberstore.
Originally published at www.fiber-optic-components.com/why-choose-10gbase-t-interface-for-10gbe-infrastructure.html
Oznake: CX4, SFP+ fiber, F5-UPG-SFP+-R, SFP+ DAC, 10Gbase-T, 10GBASE-ER SFP+, J9153A
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Consider Two Things Before Deploying 10 Gigabit Ethernet
utorak , 08.03.2016.Over the years, Ethernet technologies have evolved rapidly and amazingly to meet the never-ceasing requirements of higher bandwidth and faster data transmission speeds for high quality network applications, such as live video and video download with high resolution. Through this great evolution, Ethernet technology standards have been designed, like 10 Gigabit Ethernet (GbE).
After IEEE Standard 802.3ae- 2002 for 10GbE was ratified several years ago, some enterprises have begun to deploy 10GbE in their data centers to support bandwidth-needing applications. Before deploying 10GbE, as matter of fact, there are many things that should attract your attention. Here this article lists two important things you need to consider for a reliable 10GbE deployment: 10GbE cabling choices, and 10GbE transceiver types.
10GbE Cabling Choices
Along with the technological revolution, cables used for transmission also experienced progressive development. There are two physical media available for 10GbE transmission: fiber and copper.
10GbE Fiber Cabling Choices
Fiber cables fall on two classifications: single-mode fiber (SMF) and multi-mode fiber (MMF). In SMF, there is only one path for light, while in MMF light flow through multiple paths. SMF is intended for long distance communication and MMF is used for distances of less than 300 m. Commonly used 10GbE ports designed for SMF are 10GBASE-LR, 10GBASE-ER and 10GBASE-ZR, and the ports specified for MMF are 10GBASE-SR and 10GBASE-LRM. It’s of great importance to choose these ports 10GbE transmission when link lengths matter. For example, you can choose a J9150A transceiver when the required distance is less than 300m. In a word, the form factor options depend on your link lengths.
10GbE Copper Cabling Choices
As the structured cabling techniques become mature, copper cabling technology also grasps the chance to develop itself. And more and more people start to choose copper cables as the medium for 10GbE transmission. 10GBASE-T and SFP+ direct attach cables (DAC) standards symbolize copper applications.
10GBASE-T, or IEEE 802.3an-2006, is a standard released in 2006 to provide 10Gbit/s connections over unshielded or shielded twisted pair cables, over distances up to 100 metres (330 ft). It requires the Cat 7 or Cat 6A to reach 100 meters, but can still work on Cat 6, Cat 5E, or even Cat 5 cable when reduced distances are required.
SFP+ DAC is the latest standard for optical transceivers, and it connects directly into an SFP+ housing. In SFP+ DAC cabling assembly, no optical transceiver is used at each end. A cable was invented with each end physically resembling a SFP+ transceiver, but with none of the expensive electronic components. This creation is known as DAC. Actually, besides 10GbE applications, DAC is also considered as a cost-effective solution to replace fiber patch cables sometimes in 40GbE systems. Like QSFP-H40G-ACU10M, this Cisco 40G cabling product is the QSFP to QSFP direct attach passive copper cable assembly designed for 40G links.
10GbE Transceiver Types
After choosing cables, you need to select devices that connect these cables to your networks. These devices are transceivers. 10GbE has four transceiver types: XENPAK (and related X2 and XPAK), GBIC, SFP and SFP+.
XENPAK is a Multisource Agreement (MSA) that defines a fiber-optic or wired transceiver module which conforms to the 10 Gigabit Ethernet (10GbE) standard of the Institute of Electrical and Electronics Engineers (IEEE) 802.3 working group.
GBIC stands for Gigabit Interface Converter. It is a common type of optical transceiver module which converts serial electric signals into serial optical signals and vice versa. The GBIC is typically employed in fiber optic and Ethernet systems as an interface for high-speed networking. Common applications include Fibre Channel and Gigabit Ethernet.
SFP (small form-factor pluggable) can be regarded as the upgrade version of GBIC module. Unlike GBIC with SC fiber optic interface, SFP is with LC interface and the main body size of SFP is only about half of GBIC so that it can save more space. There are several types of SFP modules, SX, LX, EX, etc. Among them, 1000BASE-SX SFP is the most widely used. This type works with multi-mode fiber (MMF) for linking. When used with 62.5 micron MMF, its max-working span is around 220 meters, while when used with 50 micron MMF, its max-working span is around 550 meters. Fiberstore compatible Cisco SFP-GE-S product is designed to realize 550 -meter reach through 50 micron MMF.
SFP+, also called SFP Plus, is short for enhanced small form-factor pluggable, an enhanced version of the SFP that supports data rates up to 16Gbit/s.
Conclusion
After discussion, maybe you have obtained a better understanding of 10GbE cables and transceivers, which helps you to better choose the right devices for your 10GbE applications. Fiberstore supplies various numbers of 10GbE cables and transceivers which are quality assured. For more information about 10GbE solutions, you can visit Fiberstore directly.
Originally published at www.fiber-optic-components.com/consider-two-things-before-deploying-10-gigabit-ethernet.html
Oznake: 10GbE cabling, SFP+ DAC, QSFP-H40G-ACU10M, SFP, 1000BASE-SX, SFP-GE-S
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