OpenMP Case Study: Trapezoid Integration Example
... 1. Reduction secretly creates a temporary private variable for each thread’s running sum. Each thread adding into its running sum doesn’t interfere with any other thread adding into its running sum, and so threads don’t need to slow down to get out of the way of each other. 2. Reduction automaticall ...
... 1. Reduction secretly creates a temporary private variable for each thread’s running sum. Each thread adding into its running sum doesn’t interfere with any other thread adding into its running sum, and so threads don’t need to slow down to get out of the way of each other. 2. Reduction automaticall ...
Chapter 5: Computer Graphics
... 3. Add points using the addPoint() method: poly.addPoint(100,0); poly.addPoint(200,100); poly.addPoint(0,100); g2.draw(triangle); ...
... 3. Add points using the addPoint() method: poly.addPoint(100,0); poly.addPoint(200,100); poly.addPoint(0,100); g2.draw(triangle); ...
ppt - UTRGV Faculty Web - University of Texas Rio Grande Valley
... • “If Mathematics is the Queen of the Sciences, then Computer Graphics is the Royal Interpreter.” • Experiments and simulations produce reams of data ...
... • “If Mathematics is the Queen of the Sciences, then Computer Graphics is the Royal Interpreter.” • Experiments and simulations produce reams of data ...
Data Structures for Graphics
... • To build the k-d tree – Start at the root which contains all triangles and the bounding box surrounding the whole thing – As we go down in the tree, split on different dimension: X-Y-Z-X-Y-.. – For each level of the tree • Find the midpoint of all the triangles in the node • Decide the split dimen ...
... • To build the k-d tree – Start at the root which contains all triangles and the bounding box surrounding the whole thing – As we go down in the tree, split on different dimension: X-Y-Z-X-Y-.. – For each level of the tree • Find the midpoint of all the triangles in the node • Decide the split dimen ...
Geometric Modeling in Graphics
... 3. If I is a vertex of the outer polygon, then M and I are mutually visible. 4. Otherwise, I is an interior point of the edge Vi , Vi+1. Select P to be the endpoint of maximum x-value for this edge. 5. Search the reflex vertices of the outer polygon except P. If all of these vertices are strictly ou ...
... 3. If I is a vertex of the outer polygon, then M and I are mutually visible. 4. Otherwise, I is an interior point of the edge Vi , Vi+1. Select P to be the endpoint of maximum x-value for this edge. 5. Search the reflex vertices of the outer polygon except P. If all of these vertices are strictly ou ...
A video card
... was selling for around $120 in late 2013.[19]) Although the review notes that Intel's accelerated processing unit is not yet cost competitive, the technology is approaching competitiveness, at least with mid-range mobile dedicated video. (A video benchmarking website that tabulates usersubmitted ben ...
... was selling for around $120 in late 2013.[19]) Although the review notes that Intel's accelerated processing unit is not yet cost competitive, the technology is approaching competitiveness, at least with mid-range mobile dedicated video. (A video benchmarking website that tabulates usersubmitted ben ...
Kein Folientitel
... Enhanced (DCE) MRI Volumes“, Computerized Medical Imaging and Graphics, Elsevier, July 2004. ...
... Enhanced (DCE) MRI Volumes“, Computerized Medical Imaging and Graphics, Elsevier, July 2004. ...
FIRST EXPERIENCES WITH A MOBILE PLATFORM FOR FLEXIBLE 3D MODEL
... battery powered light bulbs were placed at approximately known positions. The largest area covered was 81m2 , requiring around 10.000 images. The disadvantage of such a model is that despite its high memory requirements, only walk-throughs are possible: the user is not permitted to move too far away ...
... battery powered light bulbs were placed at approximately known positions. The largest area covered was 81m2 , requiring around 10.000 images. The disadvantage of such a model is that despite its high memory requirements, only walk-throughs are possible: the user is not permitted to move too far away ...
Real-Time Shape Editing using Radial Basis Functions
... ➡ Solve (bi- or tri-) Laplacian system per frame Computer Graphics Group Mario Botsch ...
... ➡ Solve (bi- or tri-) Laplacian system per frame Computer Graphics Group Mario Botsch ...
FPV: fast protein visualization using Java 3DTM
... which were developed using Java and the Java 3D API. MOLVIE ¶ , a molecular visualization environment, is one of them. WebMol (Walther, 1997) is a protein structure viewing and analysis program, which has more functionality, but limited 3D model types. These two programs do not use the Java 3D API; ...
... which were developed using Java and the Java 3D API. MOLVIE ¶ , a molecular visualization environment, is one of them. WebMol (Walther, 1997) is a protein structure viewing and analysis program, which has more functionality, but limited 3D model types. These two programs do not use the Java 3D API; ...
What is Computer Graphics? What can we do with Computer
... Raster Scan: A type of display system where the electron gun scans horizontally from left to right, top to bottom at a fixed rate (television technology). ...
... Raster Scan: A type of display system where the electron gun scans horizontally from left to right, top to bottom at a fixed rate (television technology). ...
Week 10—11/08/11) Graphics
... This is an abstract class, so you cannot actually create a new object in this class using the Graphics() constructor Instead, you must use the getGraphics() method You are not allowed to create objects of abstract classes Container is also an abstract class Image is another abstract class ...
... This is an abstract class, so you cannot actually create a new object in this class using the Graphics() constructor Instead, you must use the getGraphics() method You are not allowed to create objects of abstract classes Container is also an abstract class Image is another abstract class ...
Waveform graphics
Waveform graphics was a simple vector graphics system introduced by Digital Equipment Corporation (DEC) on the VT55 and VT105 terminals in the mid-1970s. It was used to produce graphics output from mainframes and minicomputers.The system was designed to use as little computer memory as possible. At any given X location it could draw two dots at given Y locations, making it suitable for producing two superimposed waveforms, line charts or histograms. Text and graphics could be mixed, and there were additional tools for drawing axes and markers. DEC used the term ""waveform graphics"" to refer specifically to the hardware, but it was used more generally to describe the whole system.The waveform graphics system was used only for a short period of time before it was replaced by the more sophisticated ReGIS system, first introduced on the VT125 in 1981. ReGIS allowed the construction of arbitrary vectors and other shapes. Whereas DEC normally provided a backward compatible solution in newer terminal models, they did not choose to do this when ReGIS was introduced, and waveform graphics disappeared from later terminals.