Vitesse Launches Signal Integrity and Ethernet Switching Seminars for Design Engineers; Technical Sessions Provide Best Practice Tools and Techniques for Designing High Speed Communication Systems.CAMARILLO, Calif. -- Vitesse Semiconductor Corp. (Nasdaq:VTSS VTSS Vehicle Theft Security System VTSS Vancouver Technical Secondary School ) today announced the company will host a series of technology seminars to educate design engineers on best practices to preserve signal integrity when designing high speed Ethernet, networking and data communication systems. In these sessions the company's technology experts will demonstrate how to shorten product development cycles by using proven, high-speed design techniques to maintain signal integrity through printed circuit boards, backplanes and copper interconnect media. The seminar series will be offered in leading technology locations worldwide including Tel Aviv Tel Aviv (tĕl əvēv`), city (1994 pop. 355,200), W central Israel, on the Mediterranean Sea. Oficially named Tel Aviv–Jaffa, it is Israel's commercial, financial, communications, and cultural center and the core of its largest , Silicon Valley, Denver, Boston, Beijing and other selected cities. "To support and drive their advanced product offerings, design engineers around the globe need access to the innovative methodologies and best practices that will allow them to architect systems that can both leverage and integrate high-speed connectivity without compromising signal integrity," said Gary McCormack, director of interconnect products for Vitesse. "Our technology leadership in the areas of Gigabit Ethernet An Ethernet standard that transmits at 1 Gbps. Used mostly to connect high-end workstations and servers as well as for network backbones, Gigabit Ethernet transmits full duplex from point to point using switches and half duplex in a shared environment (CSMA/CD) using a hub. , Networking, and Storage enables Vitesse to deliver those critical tools to design engineers around the world." Vitesse Signal Integrity and Ethernet Switching A device that connects clients and servers to each other in an Ethernet network. See switched Ethernet. Seminars Vitesse's Signal Integrity and Ethernet Switching seminars are designed to meet the needs of Networking, Ethernet, Video and Storage system design engineers and system architects. The half-day technical sessions focus on high-speed signal integrity performance across printed circuit boards (PCBs), backplanes and copper-based cabling. The seminars provide engineers with proven guidelines, tools, techniques and products needed to address signal integrity issues in next generation systems. Topics include an overview of issues impacting signal integrity as signals move beyond the 1Gb/s speeds common in today's systems. Tools and methods presented in the technology sessions are aimed at helping designers reach speeds in the 3Gb/s to 11Gb/s range without the need for new chassis design or PCB PCB: see polychlorinated biphenyl. PCB in full polychlorinated biphenyl Any of a class of highly stable organic compounds prepared by the reaction of chlorine with biphenyl, a two-ring compound. material. Engineering methods highlighted include board design and layout guidelines to address signal integrity issues. The session also covers tips for selecting appropriate silicon to maximize signal integrity. The Ethernet Switching discussion covers Vitesse Ethernet Switch and PHY See physical layer and physical. solutions, documentation, and software/hardware design tools. The Signal Integrity seminars leverage recently introduced Vitesse products that have been designed to facilitate high speed switching and signal equalization In communications, techniques used to reduce distortion and compensate for signal loss (attenuation) over long distances. for transmitting multi-gigabit data signals across printed circuit boards, through backplane An interconnecting device that has sockets for printed circuit boards to plug into. Passive and Active Although resistors may be used, a "passive" backplane adds no processing in the circuit. connectors and over copper cabling. Vitesse Signal Integrity technology includes a comprehensive, industry-leading portfolio of crosspoint and signal conditioner integrated circuit integrated circuit (IC), electronic circuit built on a semiconductor substrate, usually one of single-crystal silicon. The circuit, often called a chip, is packaged in a hermetically sealed case or a nonhermetic plastic capsule, with leads extending from it for (IC) products operating from DC up to 11 Gb/s. The latest product offerings feature Vitesse's unique PixEQ(TM) technology that advances high-speed signal integrity performance. PixEQ(TM) implements the industry's first programmable, dual decay technology with breakthrough ability to compensate for multiple impairments in a signal path with a single IC. The initial seminar will take place May 23 in Tel Aviv at the Dan Accadia Hotel at 9:00 a.m. To register contact Vitesse partner and event host Phoenix Technologies, Ltd at info@phnx.co.il or +1 972-9-7644800. All seminars are free to design engineer professionals. About Vitesse World Class Signal Integrity Solutions Vitesse was first to introduce integrated signal equalization in crosspoints switches and now has nearly a decade of successful product developments with dozens of products in production. Vitesse's latest generation PixEQ technology enables a new level of signal integrity engineering with the introduction of dual time constant equalization. Dual time constant equalization allows the system designer to independently compensate for multiple impairments in the signal path, such as connectors and cabling or skin effect and dielectric dielectric (dī'ĭlĕk`trĭk), material that does not conduct electricity readily, i.e., an insulator (see insulation). A good dielectric should also have other properties: It must resist breakdown under high voltages; it should not losses in PCB traces. Dual time constant equalization also provides a significantly wider compensation range so that a single device can be used in multiple applications, from PCB traces to backplanes to copper cabling. Additional information can be found at Vitesse's Signal Integrity Technology Center: www.vitesse.com/SI. About the Gigabit Ethernet Products Vitesse is the pre-eminent pre·em·i·nent or pre-em·i·nent adj. Superior to or notable above all others; outstanding. See Synonyms at dominant, noted. [Middle English, from Latin prae supplier to OEMs designing tomorrow's new wave of broadband products. With the industry's most far-reaching offering of tightly integrated, ultra-low power Gigabit Ethernet devices, and a staunch commitment to Gigabit Ethernet, the company continues to set the pace of innovation across market sectors. About Vitesse Vitesse designs, develops, and markets a diverse portfolio of high-performance, cost-competitive semiconductor solutions for communications and storage networks worldwide. Engineering excellence and dedicated customer service distinguish Vitesse as an industry leader in Gigabit Ethernet LAN (Local Area Network) A communications network that serves users within a confined geographical area. The "clients" are the user's workstations typically running Windows, although Mac and Linux clients are also used. , Ethernet-over-SONET, Advanced Switching, Fibre Channel, Serial Attached SCSI See SAS. , Optical Transport, and other applications. Vitesse innovation empowers customers to deliver superior products for Enterprise, Access, Metro, and Core applications. Additional company and product information is available at www.vitesse.com. Vitesse is a registered trademark and PixEQ(TM) is a trademark in the United States United States, officially United States of America, republic (2005 est. pop. 295,734,000), 3,539,227 sq mi (9,166,598 sq km), North America. The United States is the world's third largest country in population and the fourth largest country in area. and/or other jurisdictions of Vitesse Semiconductor Corporation. All other trademarks or registered trademarks mentioned herein are the property of their respective holders. Note to editors: Additional information on the products and technology mentioned in this release can be found at: Vitesse Signal Integrity Technology Center: www.vitesse.com/SI |
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