Rambus and Teradyne Raise the Bar on Performance of 10 Gbps Backplanes.Business Editors/High-Tech Writers DesignCon East 2004 NASHUA, N.H. & LOS ALTOS Los Altos (lôs ăl`tōs, lŏs), residential city (1990 pop. 26,303), Santa Clara co., W Calif.; inc. 1952. There is diversified light manufacturing. , Calif.--(BUSINESS WIRE)--April 6, 2004 Platform demonstrates reliable backplane system solutions with adaptive equalization A transmission technique that dynamically adjusts its modulation method based on the quality of the line. ideally suited for field-deployed system environments Teradyne, Inc. (NYSE NYSE See: New York Stock Exchange : TER Third version. See bis. ), Connection Systems Division, the industry leader in high-performance connection systems, and Rambus Inc. (Nasdaq:RMBS RMBS Residential Mortgage-Backed Securities RMBS Rambus, Inc. (NASDAQ stock symbol) RMBS Russian Mortgage-Backed Securities ), a leading developer of chip interface products and services, will publicly demonstrate a low-risk, 10 Gbps solution for designers of high-performance backplane systems seeking to improve data rates at DesignCon East 2004, April 6-7 in Boxborough, Mass. and April 8, at the Rambus Design Seminar in Waltham, Mass. This reference platform utilizes Teradyne's high-speed, high-density connectors, VHDM VHDM Very High Density Metric (R) and VHDM-HSD(TM), along with Rambus's advanced 10 Gbps serial link interface solution, RaSer(TM) X. The platform, built upon existing and proven connectors and materials representative of field-deployed networking and storage system backplanes, achieves data rates of up to 10 Gbps per backplane differential trace. "Manufacturing variations, dynamic humidity and temperature changes affect signal integrity at 10 Gbps," said Jean-Marc Patenaude, director of marketing for the Logic Interface Division at Rambus. "The combination of Teradyne backplane interconnect, coupled with Rambus's intelligent adaptive equalization technology links a backplane at 10 Gbps error free and solves the real-world problems of widely varying channel characteristics." Teradyne's VHDM(R) connector platform is the de-facto industry standard for high-speed backplane applications, with measured system performance beyond 5 Gbps and billions of pins installed worldwide. Its modular design In the context of systems engineering, modular design — or "modularity in design" — is an approach aiming to subdivide a system into smaller parts (modules) that can be independently created and then used in different systems to drive multiple functionalities. enables a mix of single-ended and differential signals within the same connector. The 8-row version of the VHDM connector provides 101 real signals per inch, and in its differential configuration See differential signaling. (VHDM-HSD(TM)), the connector delivers cross talk as low as 2% (at 100 picoseconds). The Rambus RaSer X cell runs at up to 10 Gbps on a single connection and offers designers a low-cost, standard 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. solution that extends bandwidth performance in backplanes without requiring drastic changes to existing equipment. Network equipment that is deployed in the field could experience dramatic temperature swings from 0 degrees C to 60 degrees C and relative humidity relative humidity n. The ratio of the amount of water vapor in the air at a specific temperature to the maximum amount that the air could hold at that temperature, expressed as a percentage. ranging from 2% to 80%. This could result in the backplane channels behaving differently as the environment changes. The powerful equalizer integrated in the RaSer X cell continuously and automatically adapts to these environmental changes, ensuring integrity of the link. Moreover, the RaSer X cell is backward compatible Refers to hardware or software that is compatible with earlier versions of the product. Also called "downward compatible." Contrast with forward compatible. backward compatible - backward compatibility with all common lower data rate backplane standards, providing a seamless upgrade path for system designers to quadruple the capacity of existing modular telecom, networking, blade server and storage systems. "Using a standard backplane design (200 mil thick, FR-4, non-counterbored via with 26 inch trace lengths) and connectors that are widely in use in systems today, this reference platform mimics a real-world backplane environment," said Gautam Patel, signal integrity engineer for Teradyne Connection Systems. "Demonstrating and measuring performance in a typical system set-up enables Teradyne and Rambus to provide our customers with a proven starting point for their designs." The reference demonstration will be shown in the Rambus booth at DesignCon East, April 6-7, at the Boxborough Holiday Inn, Boxborough, Mass., booth #211, and at the Rambus Design Seminar in Waltham, Mass. on April 8. For more information about Rambus Design Seminars, visit www.rambus.com/news/events/designseminars/. About Teradyne Connection Systems Teradyne Connection Systems (TCS (Transportation Control System) A widely used integrated information system for railroad transportation developed by the Missouri Pacific Railroad Company in the late 1960s and early 1970s. It was later implemented by Union Pacific when the companies merged. ), a division of Teradyne, Inc. (NYSE: TER), is the leader in high-performance connection systems, designing and manufacturing backplane systems, printed circuit boards and the industry's leading high-speed, high-density connectors. TCS helps OEMs solve system design challenges with integrated interconnect solutions for application in the networking, communications, storage, computer server, and medical equipment markets. For more information visit www.teradyne.com/tcs. About Rambus Rambus is one of the world's leading providers of advanced chip interface products and services. Since its founding in 1990, the company's innovations, breakthrough technologies and integration expertise have help industry-leading chip and system companies solve their most challenging and complex I/O (Input/Output) The transfer of data between the CPU and a peripheral device. Every transfer is an output from one device and an input to another. See PC input/output. I/O - Input/Output problems and bring their products to market. Rambus interface solutions can be found in numerous computing, consumer, and communications products and applications. Rambus is headquartered in Los Altos, Calif., with regional offices in the United States, Taiwan and Japan. Additional information is available at www.rambus.com. |
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