Analog Devices Introduces Industry's Highest-Performance Audio Processors & A Software Development Environment for Audio Systems.NORWOOD, Mass. -- -- ADSP-21367 & ADSP-21368 processors extend the SHARC SHARC Super Harvard Architecture Computer SHARC Submillimeter High Angular Resolution Camera SHARC Swedish Highly Advanced Research Configuration SHARC Savannah Hilton Head Area Rocketry Club SHARC System Hardware Availability and Reliability Calculator (R) Processor family's leadership position in consumer and professional audio; VisualAudio(TM) design and development environment for SHARC Processors cuts time to market for audio products Continuing the rich audio tradition of its SHARC(R) Processor family, Analog Devices Analog Devices (NYSE: ADI) is an American multinational producer of semiconductor devices. Analog specializes in ADC, DAC, MEMS, and DSP chips for consumer and industrial goods. Analog is presently designing circuits in the 65 nanometer to 3 µm process feature sizes range. , Inc. (NYSE NYSE See: New York Stock Exchange : ADI), a global leader in high-performance semiconductors for signal processing See DSP. applications, today announced two new audio processors that deliver the audio industry's highest performance and integration. With performance to 400 MHz (MegaHertZ) One million cycles per second. It is used to measure the transmission speed of electronic devices, including channels, buses and the computer's internal clock. A one-megahertz clock (1 MHz) means some number of bits (16, 32, 64, etc. , the SHARC Processors ADSP-21367 and ADSP-21368 easily implement an increasing array of features required for consumer and premium audio products. These high-end third-generation SHARC Processors are designed to simplify product development, speed time to market and reduce product costs for a variety of audio applications including audio/video receivers (AVRs), professional mixing consoles and digital synthesizers. ADI also expanded its support for developers of audio systems with the availability of its VisualAudio(TM) design and development environment, which can significantly shorten the time, cost and risk required to bring new, fully optimized audio products to market. "Manufacturers of premium audio systems are continually challenged to develop higher-performance, feature-rich products as rapidly as possible," said Brian McAloon, group vice president and general manager, 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). Systems division, Analog Devices, Inc. "The SHARC Processor architecture, with its 32- and 40-bit floating-point capability, already offers the highest-quality audio possible. The two new SHARC Processors extend ADI's industry-leading audio capabilities to a new pinnacle of performance, memory and peripheral integration, and ease of use, so that manufacturers of mid- and high-end AVRs and professional audio products can rapidly introduce differentiated products that satisfy the cravings of their high-end customers." New SHARC Processors Speed Development, Lower System Costs of High-End Audio High-end audio is a term used to describe equipment that is purported by the manufacturers to be the best, regardless of the price. Definition of 'high-end' High-end audio Products Designed for audio applications requiring the highest possible performance, the ADSP-21367 and ADSP-21368 integrate a 400 MHz core with large on-chip memory arrays (2Mb RAM, 6Mb ROM) and sophisticated audio-centric peripherals. These capabilities enable the new SHARC Processors to support today's consumer and premium audio products' requirement for features such as multi-channel decoders including lossless See lossless compression. (algorithm, compression) lossless - A term describing a data compression algorithm which retains all the information in the data, allowing it to be recovered perfectly by decompression. Unix compress and GNU gzip perform lossless compression. formats, multi-zone support, 192 KHz processing and sophisticated auto-setup routines. The processors' 400 MHz performance leads the industry and is a four-fold increase over the second-generation SHARC Processors ADSP-2116x. With this performance, the new processors easily implement all currently available industry-standard audio decoder and post-processing algorithms, with sufficient processing headroom remaining for customer-specific post-processing and future features. According to according to prep. 1. As stated or indicated by; on the authority of: according to historians. 2. In keeping with: according to instructions. 3. BDTI BDTI Berkeley Design Technology, Inc. BDTI Berkeley Design Technology Inc. , "When they arrive, these new parts will make the SHARC family significantly faster than its main competitor, the Texas Instruments TMS TMS Transcranial Magnetic Stimulation (alternative medicine for depression) TMS Test Match Special (sports - cricket) TMS Texas Motor Speedway TMS Transportation Management System TMS Toyota Motor Sales 320C67x. The '21367 and '21368 are expected to achieve a BDTIsimMark2000(TM) score of 2050 at 400 MHz, compared to a BDTImark2000(TM) score of 1470 for the 300 MHz 'C6713."(1) The ADSP-21367 and ADSP-21368 also are the most highly integrated members of the third-generation SHARC family. Their 6Mb of on-chip ROM is factory-programmed with industry-standard audio decoder and post-processor algorithms (ADSP-21367) or with customer-specified algorithms (ADSP-21368), which will enable manufacturers to implement many audio systems using a single chip. The ADSP-21367 is aimed at the mid- to high-end AVR (Automatic Voltage Regulation) See voltage regulator. market. The ADSP-21368 adds shared memory capabilities that make it ideal for professional audio applications. With both processors, manufacturers can frequently replace multiple DSPs in a design with a single SHARC Processor. VisualAudio Environment Accelerates Audio System Design and Development For use initially with ADI's SHARC Processor family, the VisualAudio design and development environment provides an intuitive graphical framework along with most of the foundational software required for audio products, enabling developers to focus their time and energies on the features that will differentiate their products competitively. VisualAudio plugs into the VisualDSP++(R) integrated development and debugging environment (IDDE IDDE Illicit Discharge Detection and Elimination (wastewater control) IDDE Integrated Development and Debugging Environment IDDE Integrated Digital Data Environment (US Navy ILS) ) (sold separately) and is beneficial for designing, tuning and testing audio products and generating production-ready (i.e., MIPS- and memory-optimized) code. It includes a customizable software framework, a large library of optimized audio modules, host communication and tuning interface, and support for a range of audio decoders, along with much of the other software that is common to most audio products. In this way, it alleviates the need for developers to replicate this foundational software for each new product. By maximizing software reuse, and through its predefined building blocks and graphical interface, the VisualAudio environment simplifies design and development complexity and reduces the associated cost and risk. The result is significantly faster time to market for high-quality audio products with important differentiating features. Pricing and Availability The SHARC Processors ADSP-21367 and ADSP-21368 will be sampling in Q1 2005, and will be available in quantity in the summer of 2005 for $29.95 and $34.95, respectively, for 10,000 pieces. For more information on ADI's SHARC Processors, please visit: www.analog.com/SHARC. The VisualAudio design and development environment is available now for an MSRP MSRP Manufacturer's Suggested Retail Price MSRP Message Session Relay Protocol MSRP Multi-Species Recovery Plan (US Fish & Wildlife Service) MSRP Member of the Society for Radiological Protection (UK) of $1,995 per site license. To take a VisualAudio test drive or learn more about VisualAudio and other ADI development tools, visit: www.analog.com/processors/tools. About Analog Devices Analog Devices, Inc. is a leading manufacturer of precision high-performance integrated circuits used in analog and digital signal processing applications. ADI is headquartered in Norwood, Massachusetts, and employs approximately 9,000 people worldwide. It has manufacturing facilities in Massachusetts, California, North Carolina North Carolina, state in the SE United States. It is bordered by the Atlantic Ocean (E), South Carolina and Georgia (S), Tennessee (W), and Virginia (N). Facts and Figures Area, 52,586 sq mi (136,198 sq km). Pop. , Ireland, and the Philippines. Analog Devices' common stock is listed on the New York Stock Exchange New York Stock Exchange (NYSE) World's largest marketplace for securities. The exchange began as an informal meeting of 24 men in 1792 on what is now Wall Street in New York City. and ADI is included in the S&P 500 Index. (1) Excerpted from the November 2004 edition of Inside(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 ), (C)2004 BDTI. Contact info@BDTI.com for information. The BDTImark2000(TM) and BDTIsimMark2000(TM) provide a summary measure of DSP speed. For more information and scores see www.BDTI.com. Scores (C) 2004 BDTI. SHARC and VisualDSP++ are registered trademarks and VisualAudio is a trademark of Analog Devices, Inc. All other trademarks included herein are the property of their respective owners. |
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