Analogix PHY ICs Deliver up to 25 Gbps over Copper, Operate over Both InfiniBand and UTP Cable.SANTA CLARA, Calif. -- New Physical-Layer Transceiver Family Targets High-Speed, Short-Reach Interconnects in Switch Stacks, Cross-Rack Clusters Analogix Semiconductor has introduced a new family of physical-layer transceiver ICs that lets system designers replace fiber-optics with less expensive copper media in system-to-system interconnects, yet still achieve the high performance associated with fiber. Analogix's new D-PHY xGC family of physical-layer transceiver (PHY See physical layer and physical. ) chips includes the first device to deliver 6.25 gigabits per second raw serial performance per copper twisted pair. With an aggregate capacity of 25 Gbps full-duplex over a single InfiniBand copper cable at up to 30 meters, it offers twice the speed and distance of today's standard 10GBASE-CX4 chips. This D-PHY 5GC device is also the first high-speed transceiver to operate over unshielded twisted pair See twisted pair. (hardware) unshielded twisted pair - (UTP) Normal telephone wire (in the USA). It may be used for computer to computer communications, e.g. using a version of Ethernet or localtalk. It is much cheaper than standard "full-spec" Ethernet cable. , providing a less costly alternative to InfiniBand cable at a time when a high-speed UTP-based standard could be up to two years away. It offers designers major advantages in high-speed, short-distance interconnect scenarios, such as stackable switches or cross-rack clusters, where costly fiber was previously the only choice. The D-PHY 5GC and a standards-based counterpart, the D-PHY 2.5GC, are already sampling to customers. The D-PHY 2.5GC, designed for customers connecting heterogeneous multi-vendor systems over copper media, is fully compliant with the 10GBASE-CX4 standard, offering 4x3.25-Gbps performance. However, it operates over distances of up to 40 meters -- nearly triple the 15-meter specification of the standard. A second generation of the D-PHY xGC devices, offering serial speed of up to 12.5 Gbps and aggregate capacity of 50 Gbps over InfiniBand cable and 25 Gbps over UTP UTP (uridine triphosphate): see uracil. (Unshielded Twisted Pair) See twisted pair. UTP - unshielded twisted pair , will be available in 2005. Like the 5-gigabit devices being introduced today, the two upcoming 10-gigabit D-PHY xGC devices will include both a standards-based version (the emerging IEEE (Institute of Electrical and Electronics Engineers, New York, www.ieee.org) A membership organization that includes engineers, scientists and students in electronics and allied fields. 10GBASE-T standard) and a proprietary version offering higher speed and media flexibility. Standards Compliance vs. Performance: Users Can Choose Ted Rado, vice president of marketing for Analogix, said, "Today's system designers are between a rock and a hard place: if they need performance of more than a gigabit, they must use expensive fiber-based interconnect devices and perform electrical-optical conversions on both sides of the link. But fiber is overkill in the many cases where distance requirements are well under 100 meters -- applications with single-vendor stackable switches or server blades, for example, or racked clusters of add-drop multiplexers or optical cross-connects. "Standards efforts, while critical to the industry, do little to help these 'virtual backplane' types of applications, characterized by distances of 20 meters or less between like systems," Rado said. "The current 10GBASE-CX4 standard is limited to 3.125G serial performance and works only on InfiniBand cable. The new 10GBASE-T standard will offer much higher speeds and will be UTP-specific -- but, even when it is finalized in the next 18-24 months, won't work with the ubiquitous Category 5e cable. The D-PHY xGC family fills this gap with an all-electrical solution that combines high performance with the flexibility to work with the user's choice of copper media." With D-PHY xGC devices, designers can significantly reduce the cost of line cards without overhauling or replacing those cards. The devices can be integrated into existing XENPAK and XPAK/X2 modules, providing a direct, all-electrical replacement for fiber-based transceivers. Advanced Equalization In communications, techniques used to reduce distortion and compensate for signal loss (attenuation) over long distances. and Low-Jitter Transmission Address High-Speed Issues Sending high-speed signals over copper cable, particularly unshielded Adj. 1. unshielded - (used especially of machinery) not protected by a shield unprotected - lacking protection or defense cable, poses special challenges: high levels of crosstalk, impedance discontinuities at the cable/connector interface, and electro-magnetic interference (EMI (ElectroMagnetic Interference) An electrical disturbance in a system due to natural phenomena, low-frequency waves from electromechanical devices or high-frequency waves (RFI) from chips and other electronic devices. Allowable limits are governed by the FCC. ) that occurs at high frequencies. The D-PHY xGC family addresses these challenges through a combination of advanced technologies on both the receive and transmit sides. Two-stage, active linear equalization on the receiver, with low power and die-area requirements, provides an appropriate high-frequency signal boost without introducing new noise effects or aggravating existing ones. The highly sensitive receiver can recover signals from Analogix's very low-jitter transmitter, which uses minimal pre-emphasis and a low output swing to increase crosstalk immunity and address other noise issues. The D-PHY xGC family also meets FCC (1) (Federal Communications Commission, Washington, DC, www.fcc.gov) The U.S. government agency that regulates interstate and international communications including wire, cable, radio, TV and satellite. The FCC was created under the U.S. Part 15 Class A EMI specifications. D-PHY xGC Product Specifications The D-PHY 5GC transceiver comes in both dual and quad versions. The D-PHY 2x5GC, with two high-speed (2.0-6.25 Gbps) serial links and eight low-speed (500 Mbps-3.125 Gbps) links, provides up to 12.5 Gbps performance over InfiniBand or UTP cable (Category 5e/6/7). The D-PHY 4x5GC, with four high-speed and eight low-speed links, provides up to 25 Gbps performance over InfiniBand cable, and up to 12.5 Gbps over UTP cable. Distances range from 3-25 meters on UTP, and 15-35 meters on InfiniBand, depending on data rate and cable type. Two multiplexing options, 2:1 and 4:1, are available to address a wide range of customer applications. The D-PHY 2.5GC device, compatible with the IEEE 802.3ak (10GBASE-CX4) standard, provides up to 12.5 Gbps full-duplex transmission over up to 40 meters of InfiniBand cable. The quad transceiver device, with four high-speed and four low-speed links (1:1 multiplexing), serves as a 10GBASE-CX4 repeater, converting XAUI XAUI 10 Gigabit Attachment Unit Interface XAUI Extended Auxiliary Unit Interface XAUI XSBI Attachment Unit Interface (IEEE 802.3ae) XAUI Ten Gbps Attachment Unit Interface signals to CX4 signals for improved transmission over extended cable distances. D-PHY xGC devices offer a bit error rate of 10(-17), far exceeding the 10(-12) BER (1) (Basic Encoding Rules) A set of encoding rules for ASN.1 notation, which is a method for defining data structures. See ASN.1. (2) (Bit Error Rate) The average number of bits transmitted in error. See BERT. 1. specified by both the 1- and upcoming 10-Gbps IEEE standards. They are therefore better suited for "virtual backplane" solutions, which typically have higher reliability requirements than longer-range system interconnects. And, unlike corresponding 10GBASE-CX4 devices, which mandate 24-gauge InfiniBand cable with restricted bend radius, the D-PHY xGC family lets users optimize cable management for in-rack connections by allowing the use of 28- or 30-gauge InfiniBand cable, as well as UTP Category 5e, 6 or 7 cable. All D-PHY xGC devices incorporate comprehensive built-in self-test (BIST BIST - Built-in Self Test ) functionality, including on-chip PRBS PRBS Pseudo-Random Binary Sequence PRBS Pseudo Random Bit Sequence PRBS Pseudorandom Bit Stream (Hekimian) PRBS Probability Random Bit Sequence PRBS Pseudo Random Bit Stream generators and error checkers as well as low- and high-speed loop-back paths for independent testing of all chip elements. Consuming less than three watts of power, the D-PHY 5GC and 2.5GC devices compare favorably to upcoming 10GBASE-T standard products, expected to consume more than seven watts. They can thus be integrated into copper-based versions of common optical modules, such as XENPAK, X2 or XPAK XPAK Expansion Pack . Pricing and Availability The first two members of the D-PHY xGC SerDes family are now sampling and will be available in production quantities in the fourth quarter of 2004. High-volume pricing is $45 per device for the D-PHY 2x5GC dual transceiver (up to 12.5 Gbps); $75 per device for the D-PHY 4x5GC quad transceiver (up to 25 Gbps); and $19 for the IEEE 802.3ak-compatible D-PHY 2.5GC quad transceiver (up to 12.5 Gbps). D-PHY xGC products are manufactured using an advanced 0.13-micron CMOS (Complementary Metal Oxide Semiconductor) Pronounced "c-moss." The most widely used integrated circuit design. It is found in almost every electronic product from handheld devices to mainframes. process and come in JEDEC-standard 260-pin HSBGA HSBGA Heat Slug Ball Grid Array (Heat Slug Ball Grid Array “BGA” redirects here. For other uses, see BGA (disambiguation). A ball grid array (BGA) is a type of surface-mount packaging used for integrated circuits. ) packages. Upcoming Products in the D-PHY xGC Family Two additional D-PHY xGC family members will be announced in the second half of 2005. The D-PHY 10GCE GCE 1. (formerly in Britain) General Certificate of Education 2. Informal a pass in a GCE examination GCE n abbr (BRIT) (= General Certificate of Education) → will offer 10GBASE-T-compatible performance of up to 12.5 Gbps over 70-100 meters of Category 6/7 UTP cable. The D-PHY 10GC, aimed at very-high-performance, short-range applications, will offer twice the performance of the 10GBASE-T standard on UTP cable, and up to four times the performance of 10GBASE-CX4 on InfiniBand. About Analogix Semiconductor Analogix Semiconductor, Inc., founded in March 2002, manufactures high-performance analog mixed-signal semiconductors. Its initial products are high-speed physical-layer transceivers (SerDes) that extend the performance and reach of backplane and system-to-system interconnect over copper media. Analogix products combine advanced analog with digital signal processing See DSP. Digital Signal Processing - (DSP) Computer manipulation of analog signals (commonly sound or image) which have been converted to digital form (sampled). (DSP (1) (Digital Signal Processor) A special-purpose CPU used for digital signal processing applications (see definition #2 below). It provides ultra-fast instruction sequences, such as shift and add, and multiply and add, which are commonly used in math-intensive ) techniques to offer interconnect speeds of up to 10Gbps. Target customers include enterprise and carrier networking, storage and server system vendors. Analogix is based in Santa Clara, Calif., with development offices in Beijing, China. The privately-held company, which has 40 employees, has raised $10 million from Woodside Fund, Doll Capital Management and IDG IDG International Data Group IDG Integrated Drive Generator IDG Installation Design Guide IDG Internet Discussion Group IDG Inset Dielectric Guide IDG International Dangerous Goods (mail, shipping) Technology Venture Investment. For more information, visit http://www.analogix.com. |
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