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SGI Onyx2

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33-566: The Onyx2 , code name Kego, is a family of visualization systems developed and manufactured by SGI , introduced in 1996 to succeed the Onyx . The Onyx2's basic system architecture is based on the Origin 2000 servers, but with the inclusion of graphics hardware. In 2000, the Onyx2 was succeeded by the Onyx 3000 , and it was discontinued on June 27, 2003. These systems run either IRIX 6.4 or 6.5. The Onyx2 uses

66-407: A simulation to create an image of something so it can be taught about. This is very useful when teaching about a topic that is difficult to otherwise see, for example, atomic structure , because atoms are far too small to be studied easily without expensive and difficult to use scientific equipment. The use of visual representations to transfer knowledge between at least two persons aims to improve

99-532: A 3D scalar field may be implemented using iso-surfaces for field distribution and textures for the gradient of the field. Examples of such visual formats are sketches , diagrams , images , objects, interactive visualizations, information visualization applications, and imaginary visualizations as in stories . While information visualization concentrates on the use of computer-supported tools to derive new insights, knowledge visualization focuses on transferring insights and creating new knowledge in groups . Beyond

132-403: A digital construction of a real object directly from the scientific data. Scientific visualization is usually done with specialized software , though there are a few exceptions, noted below. Some of these specialized programs have been released as open source software, having very often its origins in universities, within an academic environment where sharing software tools and giving access to

165-407: A form that facilitates human interaction for exploration and understanding. Important aspects of information visualization are dynamics of visual representation and the interactivity. Strong techniques enable the user to modify the visualization in real-time, thus affording unparalleled perception of patterns and structural relations in the abstract data in question. Educational visualization is using

198-418: A larger process of data analysis. Visual analytics has been defined as "the science of analytical reasoning supported by the interactive visual interface". Its focus is on human information discourse (interaction) within massive, dynamically changing information spaces. Visual analytics research concentrates on support for perceptual and cognitive operations that enable users to detect the expected and discover

231-402: A simulation while it is running in response to a visualization of its current progress. This is called computational steering . More frequently, the representation of the information is changed rather than the information itself. Experiments have shown that a delay of more than 20 ms between when input is provided and a visual representation is updated is noticeable by most people . Thus it

264-541: A thousand years. Examples from cartography include Ptolemy's Geographia (2nd century AD), a map of China (1137 AD), and Minard 's map (1861) of Napoleon 's invasion of Russia a century and a half ago. Most of the concepts learned in devising these images carry over in a straightforward manner to computer visualization. Edward Tufte has written three critically acclaimed books that explain many of these principles. Computer graphics has from its beginning been used to study scientific problems. However, in its early days

297-522: A visualization application is the field of computer graphics . The invention of computer graphics (and 3D computer graphics ) may be the most important development in visualization since the invention of central perspective in the Renaissance period. The development of animation also helped advance visualization. The use of visualization to present information is not a new phenomenon. It has been used in maps, scientific drawings, and data plots for over

330-453: A visualization to be considered interactive it must satisfy two criteria: One particular type of interactive visualization is virtual reality (VR), where the visual representation of information is presented using an immersive display device such as a stereo projector (see stereoscopy ). VR is also characterized by the use of a spatial metaphor, where some aspect of the information is represented in three dimensions so that humans can explore

363-407: Is a key part of product lifecycle management . Product visualization software typically provides high levels of photorealism so that a product can be viewed before it is actually manufactured. This supports functions ranging from design and styling to sales and marketing. Technical visualization is an important aspect of product development. Originally technical drawings were made by hand, but with

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396-427: Is desirable for an interactive visualization to provide a rendering based on human input within this time frame. However, when large amounts of data must be processed to create a visualization, this becomes hard or even impossible with current technology. Thus the term "interactive visualization" is usually applied to systems that provide feedback to users within several seconds of input. The term interactive framerate

429-467: Is often used to measure how interactive a visualization is. Framerates measure the frequency with which an image (a frame) can be generated by a visualization system. A framerate of 50 frames per second (frame/s) is considered good while 0.1 frame/s would be considered poor. The use of framerates to characterize interactivity is slightly misleading however, since framerate is a measure of bandwidth while humans are more sensitive to latency . Specifically, it

462-616: Is possible to achieve a good framerate of 50 frame/s but if the images generated refer to changes to the visualization that a person made more than 1 second ago, it will not feel interactive to a person. The rapid response time required for interactive visualization is a difficult constraint to meet and there are several approaches that have been explored to provide people with rapid visual feedback based on their input. Some include Many conferences occur where interactive visualization academic papers are presented and published. Satellite photo Too Many Requests If you report this error to

495-437: Is the use of interactive, sensory representations, typically visual, of abstract data to reinforce cognition , hypothesis building, and reasoning . Scientific visualization is the transformation, selection, or representation of data from simulations or experiments, with an implicit or explicit geometric structure, to allow the exploration, analysis, and understanding of the data. Scientific visualization focuses and emphasizes

528-404: Is used when people are physically separated. Using several networked computers, the same visualization can be presented to each person simultaneously. The people then make annotations to the visualization as well as communicate via audio (i.e., telephone), video (i.e., a video-conference), or text (i.e., IRC ) messages. The Programmer's Hierarchical Interactive Graphics System ( PHIGS ) was one of

561-608: The InfiniteReality2E was made available and then the InfiniteReality3 , in April 2000. Visualization (graphics) Visualization (or visualisation (see spelling differences )), also known as Graphics Visualization, is any technique for creating images , diagrams , or animations to communicate a message. Visualization through visual imagery has been an effective way to communicate both abstract and concrete ideas since

594-519: The MIPS R10000 microprocessor clocked at 150, 175, 180 and 195 MHz, later increased to 250 MHz, courtesy of a process shrink from 0.35 to 0.25 micrometers. Later 300 and 400 MHz R12000 , and 500 MHz R14000 CPUs were made available. At the time of their introduction, the Onyx2 could be configured with the Reality , InfiniteReality , or InfiniteReality2 graphics subsystems. Later,

627-418: The unique information being represented or the way that the information is presented. When the information being presented is altered, the visualization is usually part of a feedback loop . For example, consider an aircraft avionics system where the pilot inputs roll, pitch, and yaw and the visualization system provides a rendering of the aircraft's new attitude. Another example would be a scientist who changes

660-417: The dawn of humanity. from history include cave paintings , Egyptian hieroglyphs , Greek geometry , and Leonardo da Vinci 's revolutionary methods of technical drawing for engineering purposes that actively involve scientific requirements. Visualization today has ever-expanding applications in science, education, engineering (e.g., product visualization), interactive multimedia , medicine , etc. Typical of

693-499: The digital animations produced to present meteorological data during weather reports on television , though few can distinguish between those models of reality and the satellite photos that are also shown on such programs. TV also offers scientific visualizations when it shows computer drawn and animated reconstructions of road or airplane accidents. Some of the most popular examples of scientific visualizations are computer-generated images that show real spacecraft in action, out in

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726-434: The first programmatic efforts at interactive visualization and provided an enumeration of the types of input humans provide. People can: All of these actions require a physical device. Input devices range from the common – keyboards , mice , graphics tablets , trackballs , and touchpads – to the esoteric – wired gloves , boom arms , and even omnidirectional treadmills . These input actions can be used to control both

759-508: The information as if it were present (where instead it was remote), sized appropriately (where instead it was on a much smaller or larger scale than humans can sense directly), or had shape (where instead it might be completely abstract). Another type of interactive visualization is collaborative visualization, in which multiple people interact with the same computer visualization to communicate their ideas to each other or to explore information cooperatively. Frequently, collaborative visualization

792-592: The lack of graphics power often limited its usefulness. The recent emphasis on visualization started in 1987 with the publication of Visualization in Scientific Computing, a special issue of Computer Graphics. Since then, there have been several conferences and workshops, co-sponsored by the IEEE Computer Society and ACM SIGGRAPH , devoted to the general topic, and special areas in the field, for example volume visualization. Most people are familiar with

825-519: The mere transfer of facts , knowledge visualization aims to further transfer insights , experiences , attitudes , values , expectations , perspectives , opinions , and predictions by using various complementary visualizations. See also: picture dictionary , visual dictionary Product visualization involves visualization software technology for the viewing and manipulation of 3D models, technical drawing and other related documentation of manufactured components and large assemblies of products. It

858-685: The more common. Data visualization is a related subcategory of visualization dealing with statistical graphics and geospatial data (as in thematic cartography ) that is abstracted in schematic form. Information visualization concentrates on the use of computer-supported tools to explore large amount of abstract data. The term "information visualization" was originally coined by the User Interface Research Group at Xerox PARC and included Jock Mackinlay . Practical application of information visualization in computer programs involves selecting, transforming , and representing abstract data in

891-526: The production of 3D content, as large-scale 3D content production can be extremely costly and time-consuming. Visual communication is the communication of ideas through the visual display of information . Primarily associated with two dimensional images , it includes: alphanumerics , art , signs , and electronic resources. Recent research in the field has focused on web design and graphically oriented usability . Visual analytics focuses on human interaction with visualization systems as part of

924-539: The representation of higher order data using primarily graphics and animation techniques. It is a very important part of visualization and maybe the first one, as the visualization of experiments and phenomena is as old as science itself. Traditional areas of scientific visualization are flow visualization , medical visualization , astrophysical visualization , and chemical visualization . There are several different techniques to visualize scientific data, with isosurface reconstruction and direct volume rendering being

957-403: The rise of advanced computer graphics the drawing board has been replaced by computer-aided design (CAD). CAD-drawings and models have several advantages over hand-made drawings such as the possibility of 3-D modeling, rapid prototyping , and simulation . 3D product visualization promises more interactive experiences for online shoppers, but also challenges retailers to overcome hurdles in

990-499: The source code is common. There are also many proprietary software packages of scientific visualization tools. Models and frameworks for building visualizations include the data flow models popularized by systems such as AVS, IRIS Explorer, and VTK toolkit, and data state models in spreadsheet systems such as the Spreadsheet for Visualization and Spreadsheet for Images. As a subject in computer science , scientific visualization

1023-401: The transfer of knowledge by using computer and non-computer-based visualization methods complementarily. Thus properly designed visualization is an important part of not only data analysis but knowledge transfer process, too. Knowledge transfer may be significantly improved using hybrid designs as it enhances information density but may decrease clarity as well. For example, visualization of

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1056-506: The unexpected in complex information spaces. Technologies resulting from visual analytics find their application in almost all fields, but are being driven by critical needs (and funding) in biology and national security. Interactive visualization or interactive visualisation is a branch of graphic visualization in computer science that involves studying how humans interact with computers to create graphic illustrations of information and how this process can be made more efficient. For

1089-636: The void far beyond Earth, or on other planets . Dynamic forms of visualization, such as educational animation or timelines , have the potential to enhance learning about systems that change over time. Apart from the distinction between interactive visualizations and animation, the most useful categorization is probably between abstract and model-based scientific visualizations. The abstract visualizations show completely conceptual constructs in 2D or 3D. These generated shapes are completely arbitrary. The model-based visualizations either place overlays of data on real or digitally constructed images of reality or make

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