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Leveraging the sophisticated processing capabilities of TI's C64x+ architecture for efficient performance and power consumption, upgraded features in the STK 2.0 enable B-mode ultrasound processing, 3D rendering and real-time processing for OCT. For example, TI's new 3D affine warp algorithm can be used for image transformations such as rotation, scaling or shifting, to enable portable real-time OBGYN visualizations as well as cost effective solutions to accurately guide needles and catheters. Since its clinical use in ophthalmology, a large number of OCT applications have emerged in cardiology, oncology, surgery and many other specialties. The DSP algorithms for OCT enable embedded processing solutions that are programmable, lower power and smaller form factor than current computing implementations.
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"We are very satisfied with TI's medical imaging software toolkit," said Erik N. Steen, principal engineer, GE Healthcare. "TI's software toolkit is easy to work with and has helped us develop high performance mobile ultrasound products."
Key features and benefits:
TI's TMS320C6472 and TMS320C6474 multicore DSPs are particularly well suited for greater performance and power efficiency in medical imaging applications. Additionally, TI's OMAP35x(TM) and DaVinci(TM) processors are highly integrated SoCs designed to reduce development costs and time to market for portable medical imaging equipment. These SoCs feature combinations of a C64x+ DSP core, an ARM® core (either Cortex(TM)-A8 or ARM926), accelerators for video and/or graphics, and a host of on-chip peripherals.
Availability
The STK 2.0 is available now from TI and is free. To obtain access to the STK 2.0, please visit www.ti.com/mistk-pr-dsp-tools to fill out a contact form for approval. If approved, customers will receive instructions for downloading the free STK 2.0 including documentation and test bench programs.
Find out more about TI's medical imaging portfolio by visiting the links below:
About medical components from Texas Instruments
TI is helping shape technology to improve the quality and accessibility of medical equipment to revolutionize healthcare in the 21st century and beyond. With its full range of analog and embedded processing products, from building blocks to complete semiconductor solutions, plus systems insight, global support infrastructure, advanced process technology and medical industry involvement, TI is helping make innovative medical electronics more flexible, affordable and accessible. TI's experience in diverse markets, such as wireless communications, consumer electronics, automotive and aerospace, enables engineers to meet increasing needs for higher speeds, higher precision, lower power and smaller equipment, while maintaining the high standards for quality and reliability that the medical market demands. For more information, please visit www.ti.com/medical.
About Texas Instruments
Texas Instruments (NYSE: TXN) helps customers solve problems and develop new electronics that make the world smarter, healthier, safer, greener and more fun. A global semiconductor company, TI innovates through design, sales and manufacturing operations in more than 30 countries. For more information, go to www.ti.com.
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-- Optimized C64x+ software modules allow medical OEMs to get to market faster while improving coding efficiency, yielding higher performance systems at lower cost and power. -- Expanded real-time image processing source code for medical imaging applications. -- Well defined APIs simplify development by abstracting modules and enabling easy integration into existing systems. -- Optimal implementation references allow for function customization and provide coding illustrations of computational optimization methods for the C64x+ core, which can be modeled in custom processing functions. -- Full test benches provide assurance of module functionality while aiding in evaluation and development. Custom test vectors are provided along with automatic function cycle profiling using TI's Code Composer Studio(TM) (CCStudio).
SOURCE Texas Instruments Incorporated
