AWR and Peregrine Semiconductor Collaborate to Develop Design Kit for Peregrine's UltraCMOS(TM) Process; Peregrine Deploys AWR's Analog Office High-Frequency Software in its Design Centers.EL SEGUNDO El Segundo (ĕl sēgŭn`dō), industrial city (1990 pop. 15,223), Los Angeles co., S Calif., on Santa Monica Bay; inc. 1917. Its products include navigation and computer systems, aircraft parts, office machines, telephone apparatus, and & SAN DIEGO, Calif. -- Applied Wave Research, Inc. (AWR AWR Automatic Workload Repository (Oracle database) AWR Applied Wave Research (El Segundo, CA) AWR Adventist World Radio AWR Advanced Warranty Replacement AWR American Warmblood Registry (R)) and Peregrine Semiconductor today announced the availability of a process design kit (PDK PDK Phi Delta Kappa (professional organization for teachers) PDK Portal Development Kit (SAP Enterprise Portal) PDK Peachtree-Dekalb Airport (Atlanta, GA, USA) ) for Peregrine's UltraCMOS complimentary metal oxide semiconductor See MOS. (electronics) Metal Oxide Semiconductor - (MOS) The three materials used to form a gate in the most common kind of Field Effect Transistor - a MOSFET. (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. ) silicon-on-sapphire (SOS SOS, code letters of the international distress signal. The signal is expressed in International Morse code as … — — — … (three dots, three dashes, three dots). ) process in AWR's Analog Office(R) design suite, a software product developed specifically for analog and radio-frequency integrated circuit (RFIC RFIC Radio Frequency Integrated Circuit RFIC Radio Frequency Interface Chip ) design. The delivery of the UltraCMOS Process Design Kit is the first step in a long-term collaboration between the two companies to deliver complete RFIC design solutions for specialized high-frequency RF applications. Analog Office design software and the UltraCMOS Process Design Kit will help design engineers significantly shorten IC development cycles, accelerate tape-out to Peregrine's process, and speed wireless products to market. "Peregrine Semiconductor is a global leader of high-performance RF CMOS solutions and its UltraCMOS process technology drives unprecedented levels of monolithic integration throughout a broad portfolio of mixed-signal RFICs," said Sarkis Narkizian, vice president of RFIC business development at AWR. "The open Analog Office RFIC design platform and the UltraCMOS Process Design Kit coupled with Peregrine's semiconductor manufacturing leadership will result in a top quality design solution that will greatly benefit not only the customers of both companies, but the high-frequency design community as a whole." "Peregrine is pleased to offer an UltraCMOS Process Design Kit for AWR's Analog Office design environment," said John Sung, director of CAD engineering at Peregrine. "After using Analog Office during the PDK development process, our designers were impressed with the tight electrical and physical integration, ease-of-use, and the environment tailored for high-frequency RF designers. The PDK includes a complete set of validated schematic symbols, simulation models, and fully parameterized layout cells that are characterized to match the UltraCMOS process performance." The newest AWR-based PDK is based on the GA and GC variants of Peregrine's UltraCMOS process, which enables the combination of high-performance RF, mixed-signal, passive elements, nonvolatile memory, and digital functions on a single device without blocking capacitors. By utilizing a sapphire substrate, which is a near-perfect insulator, UltraCMOS wafers enjoy low defect density for simpler construction; dielectrically isolated transistors for excellent power handling and multiple thresholds; and inherent CMOS logic levels. UltraCMOS delivers the fundamental reliability, cost effectiveness, high yields, scalability, and monolithic integration of standard CMOS, while achieving peak RF performance traditionally expected from the more exotic process technologies. Pricing and Availability The UltraCMOS PDK for Analog Office 2006 software is available immediately without additional charge for all customers using Analog Office 2006 software. The kit will be demonstrated at the 2006 Design Automation Conference, San Francisco, CA, July 24-28 in AWR's Booth #2106. About Peregrine Semiconductor Peregrine Semiconductor Corporation designs, manufactures, and markets high-performance communications ICs for the wireless infrastructure and mobile wireless; broadband communications; space, defense and avionics markets. Manufactured on the Company's proprietary UltraCMOS(TM) mixed-signal process technology, Peregrine products are uniquely poised to meet the needs of a global RF design community in high-growth applications such as WCDMA (Wideband CDMA) A 3G high-speed digital data service provided by cellular carriers that use the TDMA or GSM technology worldwide, including AT&T (formerly Cingular) and T-Mobile in the U.S. and GSM digital cellular, broadband, DTV (Digital TeleVision) Transmitting TV using digital signals. The major DTV standards are ATSC (North America), DVB (Europe) and ISDB (Japan). All three use MPEG-2 video compression and Dolby Digital audio compression. DVB and ISDB also include MPEG audio compression. , DVR (1) (Digital Video Recorder) A device that records video onto a hard disk from one or more ceiling mounted video cameras. Part of a security system, the DVR typically supports 4, 8 or 16 separate camera channels. and rad-hard space and defense programs. Peregrine 0.25um and 0.5um UltraCMOS devices are manufactured in its 6" CMOS facility located in Sydney, Australia and in Tokyo, Japan through an alliance with OKI Electric Industry Co., Ltd. The Company, headquartered in San Diego, California “San Diego” redirects here. For other uses, see San Diego (disambiguation). San Diego is a coastal Southern California city located in the southwestern corner of the continental United States. As of 2006, the city has a population of 1,256,951. , maintains global sales support operations and a worldwide technical distribution network. Additional information is available on the web at psemi.com. About Applied Wave Research, Inc. Applied Wave Research is a leading supplier of high-frequency electronic design automation (EDA (1) (Electronic Design Automation) Using the computer to design, lay out, verify and simulate the performance of electronic circuits on a chip or printed circuit board. ) products for the design of wireless telecommunications equipment, semiconductors, high-speed computers, networking systems, automotive mobility systems, and a variety of other electronics-based products. AWR is a privately-held company and has global development offices, sales offices, training centers, and distribution channels. In September 2005, AWR acquired APLAC APLAC Asia Pacific Laboratory Accreditation Cooperation APLAC Advanced Placement Language and Composition Solutions, an emerging leader in simulation and analysis software for analog and RF design. AWR today has over 700 companies deploying its software worldwide, including virtually every major high-frequency electronic component and system supplier. The company is headquartered at 1960 East Grand Avenue, Suite 430, El Segundo, California
El Segundo is a city in Los Angeles County, California on the Santa Monica Bay, incorporated on January 18, 1917. The population was 16,033 at the 2000 census. 90245. For more information about AWR and the company's products, please visit www.appwave.com or call 310-726-3000. AWR, the AWR logo, and Analog Office are registered trademarks of Applied Wave Research, Inc. All other registered marks are the property of their respective holders. For more information, please contact: John Sung Peregrine Semiconductor, Inc. 9450 Carroll Park Drive San Diego, CA, 92121 Thomas Quan Applied Wave Research, Inc. 1999 S. Bascom Ave., Ste. 300 Campbell, CA 95008 |
|
||||||||||||||||
Printer friendly
Cite/link
Email
Feedback
Reader Opinion