Silicon Optix Geo Chip First to Enable Ultra-Thin RPTVs and Correct for Brightness and Color Non-Uniformity In LCD and Projection.Geo enables RPTVs to compete with LCD and plasma displays and ensures pixel-by-pixel brightness and color uniformity for both projection and LCD panels SAN JOSE San Jose, city, United States San Jose (sănəzā`, săn hōzā`), city (1990 pop. 782,248), seat of Santa Clara co., W central Calif.; founded 1777, inc. 1850. , Calif. -- Silicon Optix Silicon Optix Inc (2001) is a privately held fabless semiconductor company that manufactures video/image digital processing integrated circuits. Originally a division of Genesis Microchip, Silicon Optix was spun off in 2001 by Paul Russo, the CEO of Genesis Microchip at the time. , the leader in programmable video processors and geometry processing Geometry processing is a fast-growing area of research that uses concepts from applied mathematics, computer science, and engineering to design efficient algorithms for the acquisition, reconstruction, analysis, manipulation, simulation and transmission of complex 3D models. , today announces Geo, a revolutionary video/graphics-geometry processing chip that makes possible a new class of low-cost, high-performance, rear-projection TVs thin enough to hang on a wall, while also eliminating hot spots hot spots acute moist dermatitis. and color non-uniformity in LCD and projection displays. Geo is the first chip to allow for pixel-by-pixel brightness control, thereby ensuring brightness uniformity for large-area LCD panel displays--especially those driven by LEDs, which can vary significantly in brightness. Geo can also correct for a problem, popularly called the "green glob" (pastel-discolored regions), commonly seen in three-panel projection systems. Geo is the first and only chip to offer three independent geometry-processing channels capable of high-precision, pixel-by-pixel processing capable of digitally achieving lateral chromatic aberration chromatic aberration: see aberration, in optics. Fringes of color at the edges of objects in a photograph due to the inability of the camera lens to deal with all wavelengths of light equally. correction, one of the big cost adders in optical system designs. With Geo, optical problems such as lateral chromatic aberrations, optical distortion, and three-panel misconvergence can be corrected electronically, eliminating the need for more expensive optical and mechanical solutions. Geo's sophisticated array of adjustments will, for the first time, free designers to create inexpensive RPTVs with cabinet depths that rival those of today's popular flat-panel LCD and plasma displays--with much less weight and power consumption. Video wall systems with multiple display elements, each of which may have a different brightness, can now be balanced for a more seamless appearance. "Picture a 55-inch rear-projection TV with a depth of just 5 inches, weighing half of what an LCD or plasma weighs and consuming a fraction of the power. That's what's possible with Geo," said Paul Russo Paul Russo (born April 10, 1914 in Kenosha, Wisconsin – July 23, 1976 in Daytona Beach, Florida) was an American racecar driver. Midget car career He started racing midget cars in 1934. , Chairman and CEO (1) (Chief Executive Officer) The highest individual in command of an organization. Typically the president of the company, the CEO reports to the Chairman of the Board. of Silicon Optix. "Geo is going to revitalize the RPTV See rear-projection TV. segment and solve common image-quality problems that have plagued projectors forever. Geo also solves the brightness-uniformity issues associated with LED-driven LCD displays, and the color-uniformity issues associated with three-panel projection systems." Better Picture and Lower-Cost Optics A complete "system on a chip," Geo incorporates three high-precision geometry-correction engines, one for each color channel (red, green, blue). Each channel has independent adjustments to compensate for pincushion/barrel distortion, keystone distortion, and rotational misalignment mis·a·ligned adj. Incorrectly aligned. mis  a·lign ment n. . By correcting common picture problems digitally instead of optically, Geo improves performance and reduces costs. Optical assemblies can now be designed using less expensive glass, simpler lens construction, and fewer lens elements. In addition, optical designers can concentrate on optimizing parameters such as MTF (1) (Modulation Transfer Function) A measurement of monitor sharpness. MTF compares the contrast ratio between alternating black and green lines that are one pixel thick. and lens-element count instead of distortion and lateral color shift, as the latter can be corrected digitally--resulting in both lower cost and better image quality. Geo's benefits are not restricted to rear-projection applications. When used with a zoom lens, such as those typical on business and home-theater front projectors, Geo can dynamically correct for the varying levels of distortion and lateral chromatic aberration produced as the focal length Focal length A measure of the collecting or diverging power of a lens or an optical system. Focal length, usually designated f ′ varies. Because Geo adapts, the lens doesn't have to, which means it can be built using simpler, less costly mechanical elements. Per-Pixel Brightness Adjustments for LCD Panels and Projectors--An Industry First! Geo is the first chip to provide per-pixel adjustments to eliminate hot spots (light intensity falling off from the center of the image or bright patches within the image) and color non-uniformities, two image-quality problems that are endemic to front and rear projectors. When implemented in flat-panel LCD displays, Geo's ability to separately adjust the brightness of each pixel enables the chip to accurately compensate for the light-output non-uniformities that plague such displays, and yield significant improvements in image quality. Digital RPTV Alignment--Another Industry First! Final alignment of RPTVs by mechanical means slows the manufacturing process, adds extra cost, and can produce inconsistent results. The alignment can also change during shipping and handling, leading to an expensive in-home service call, or even to the return and replacement of the entire set. Geo is the first chip that permits electronic alignment of RPTVs. Digital alignment is not only much faster and more precise than manual alignment, it also permits post-delivery alignment in the consumer's home through the use of special front-panel or remote-control functions. The Geo chip has begun sampling and will be available in volume in late Q1, 2007. About Silicon Optix Silicon Optix is the leader in programmable, high-performance video processing Video processing techniques are used in video codecs, video players and other devices. For example—commonly only design and video processing is different in TV sets of different manufactures. and unique and proprietary geometry-processing IC solutions delivering Hollywood Quality Video (HQV HQV Hollywood Quality Video (processor) ). Silicon Optix ICs can be found in top-tier consumer-electronics products such as high-resolution displays, premium DVD players, ultra-thin RPTVs, and front projectors. Teranex, a division of Silicon Optix, is a leader in programmable video-processing systems-level solutions for the professional broadcast and post-production markets. Silicon Optix is headquartered in San Jose, California San Jose (IPA: /ˌsænhoʊˈzeɪ/) is the third-largest city in California, and the tenth-largest in the United States. It is the county seat of Santa Clara County. , with offices around the world. For more information, visit www.siliconoptix.com, www.teranex.com, and www.hqv.com. |
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