New SHARC


NORWOOD, Mass. (PRWEB) November 11, 2008

Five New SHARC Processors Join the Family

 

The SHARC processors introduced today are: the 21469 (industrial temperature range packaging) for industrial and instrumentation; the 21469W, 21465W, and 21462W for automotive audio; and the 21467 for home theater. Like their predecessors, this newest generation of SHARC processors is based on a single-instruction multiple-data (SIMD) core that supports 32-bit fixed-point as well as 32-/40-bit floating-point arithmetic formats, making them particularly suitable for high-performance applications.

 

“SHARC has been the leader in floating-point digital signal processing because of its exceptional performance and a high degree of integration that yields a great price/performance benefit,” said Jerry McGuire, vice president, General Purpose DSP, Analog Devices, Inc. “With the next generation of SHARC processors, we’ve continued to listen to our customers: We’re providing the highest-performing standard floating-point DSPs and adding requested features such as integrated peripherals and accelerator engines to perform specific tasks, making more of the core available for increased processing needs.”

 

Like the pro-audio-optimized version that debuted last month, these new fourth-generation SHARC processors offer more than two times the 32-bit floating-point family’s performance compared with earlier SHARC offerings. One key contributor to this performance increase is the addition of hardware accelerators for widely used signal processing operations: FIR (Finite Impulse Response), IIR (Infinite Impulse Response), and FFT (Fast Fourier Transform).

 

Additional new features that substantially boost the performance of the SHARC 2146x include: an increase of 60 percent in on-chip SRAM up to 5Mbits and a new Variable Instruction Set Architecture (VISA) feature that allows a reduction in instruction opcode size, freeing up as much as 30 percent of memory space for application code. Furthermore, faster I/O throughput is achieved by a high-speed DDR2 SDRAM external memory interface that effectively doubles the data transfer rate. For data transfers between multiple SHARC processors, link ports provide a parallel command interface for faster data movement than is enabled by the processors’ serial peripheral interface (SPI).

 

Industrial and Instrumentation

 

Thanks to its high performance, large on-chip memory, high-speed external memory interface, and flexible peripherals — including eight fully independent serial ports (SPORTs) — the 21469 provides a strong value proposition for industrial and instrumentation applications that depend on SHARC processors’ real-time deterministic program execution. Designs further benefit from a thermal diode that aids in monitoring die temperature by letting developers set their own parameters with respect to frequency and voltage.

 

Example industrial and instrumentation applications for the SHARC 21469 include power and process control including any kind of high dynamic range data acquisition; motion control including robotics and intelligent servo drives; and test and measurement including oscilloscopes, signal generators, and signal sources.

 

“SHARC has delivered superior performance in our systems that sense and react to faults and transient events in the power grid,” said LiJiuhu, R&D director, Nanjing Nari-Relays Electric Co., Ltd. “For that reason, it’s great to know this new generation of the processor takes performance to the next level and gives us more room to advance our solutions.” Based in Nanjing, China, NR is a leading company in research and manufacturing of numerical protection, automation, and control systems for both HVAC and HVDC power systems.

 

Automotive Audio and Home Theater

 

To help audio developers achieve faster time to market and drive down overall system cost, the new SHARC processors targeted for automotive audio applications (21469W, 21465W, 21462W) and home theater (21467) complement their next-generation SHARC performance with certified implementations of decoders in on-chip ROM: including DTS-HD Master Audio, Dolby


About The Author

Ibrar Ayyub

I am an experienced technical writer holding a Master's degree in computer science from BZU Multan, Pakistan University. With a background spanning various industries, particularly in home automation and engineering, I have honed my skills in crafting clear and concise content. Proficient in leveraging infographics and diagrams, I strive to simplify complex concepts for readers. My strength lies in thorough research and presenting information in a structured and logical format.

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