EGGH98: SIGGRAPH/Eurographics Workshop on Graphics Hardware 1998

Permanent URI for this collection


Unsolved Problems and Opportunities for High-quality, High-performance 3D Graphics on a PC Platform

Kirk, David B.

An Improved Z-Buffer CSG Rendering Algorithm

Stewart, Nigel
Leach, Geoff
John, Sabu

Quadratic Bezier Triangles As Drawing Primitives

Bruijns, J.

A Breadth-First Approach To Efficient Mesh Traversal

Mitra, Tulika
Chiueh, Tzi-cker

View-independent Environment Maps

Heidrich, Wolfgang
Seidel, Hans-Peter

Gouraud Bump Mapping

Ernst, I.
Rüsseler, H.
Schulz, H.
Wittig, 0.

PAVLOV: A Programmable Architecture for Volume Processing

Kreeger, Kevin
Kaufman, Arie

High-Quality Volume Rendering Using Texture Mapping Hardware

Dachille, Frank
Kreeger, Kevin
Chen, Baoquan
Bitter, Ingmar
Kaufman, Arie

Texture Tile Visibility Determination For Dynamic Texture Loading

Goss, Michael E.
Yuasa, Kei

Performance Issues of a Distributed Frame Buffer on a Multicomputer

Wei, Bin
Clark, Douglas W.
Felten, Edward W.
Li, Kai

Simple Models of the Impact of Overlap in Bucket Rendering

Chen, Milton
Stall, Gordon
Igehy, Homan
Proudfoot, Kekoa
Hanrahan, Pat

Extending Graphics Hardware For Occlusion Queries In OpenGL

Bartz, Dirk
Meißner, Michael
Hüttner, Tobias

IMEM: An Intelligent Memory for Bump- and Reflection-Mapping

Kugler, Anders

Prefetching in a Texture Cache Architecture

lgehy, Homan
Eldridge, Matthew
Proudfoot, Kekoa

Neon: A Single-Chip 3D Workstation Graphics Accelerator

McCormack, Joel
McNamara, Robert
Gianos, Christopher
Seiler, Larry
Jouppi, Norman P.
Correll, Ken


BibTeX (EGGH98: SIGGRAPH/Eurographics Workshop on Graphics Hardware 1998)
@inproceedings{
:10.2312/EGGH/EGGH98/011-013,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
Unsolved Problems and Opportunities for High-quality, High-performance 3D Graphics on a PC Platform}},
author = {
Kirk, David B.
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/011-013}
}
@inproceedings{
:10.2312/EGGH/EGGH98/025-030,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
An Improved Z-Buffer CSG Rendering Algorithm}},
author = {
Stewart, Nigel
and
Leach, Geoff
and
John, Sabu
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/025-030}
}
@inproceedings{
:10.2312/EGGH/EGGH98/015-023,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
Quadratic Bezier Triangles As Drawing Primitives}},
author = {
Bruijns, J.
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/015-023}
}
@inproceedings{
:10.2312/EGGH/EGGH98/031-037,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
A Breadth-First Approach To Efficient Mesh Traversal}},
author = {
Mitra, Tulika
and
Chiueh, Tzi-cker
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/031-037}
}
@inproceedings{
:10.2312/EGGH/EGGH98/039-045,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
View-independent Environment Maps}},
author = {
Heidrich, Wolfgang
and
Seidel, Hans-Peter
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/039-045}
}
@inproceedings{
:10.2312/EGGH/EGGH98/047-053,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
Gouraud Bump Mapping}},
author = {
Ernst, I.
and
Rüsseler, H.
and
Schulz, H.
and
Wittig, 0.
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/047-053}
}
@inproceedings{
:10.2312/EGGH/EGGH98/077-086,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
PAVLOV: A Programmable Architecture for Volume Processing}},
author = {
Kreeger, Kevin
and
Kaufman, Arie
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/077-086}
}
@inproceedings{
:10.2312/EGGH/EGGH98/069-076,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
High-Quality Volume Rendering Using Texture Mapping Hardware}},
author = {
Dachille, Frank
and
Kreeger, Kevin
and
Chen, Baoquan
and
Bitter, Ingmar
and
Kaufman, Arie
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/069-076}
}
@inproceedings{
:10.2312/EGGH/EGGH98/055-060,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
Texture Tile Visibility Determination For Dynamic Texture Loading}},
author = {
Goss, Michael E.
and
Yuasa, Kei
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/055-060}
}
@inproceedings{
:10.2312/EGGH/EGGH98/087-096,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
Performance Issues of a Distributed Frame Buffer on a Multicomputer}},
author = {
Wei, Bin
and
Clark, Douglas W.
and
Felten, Edward W.
and
Li, Kai
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/087-096}
}
@inproceedings{
:10.2312/EGGH/EGGH98/105-112,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
Simple Models of the Impact of Overlap in Bucket Rendering}},
author = {
Chen, Milton
and
Stall, Gordon
and
Igehy, Homan
and
Proudfoot, Kekoa
and
Hanrahan, Pat
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/105-112}
}
@inproceedings{
:10.2312/EGGH/EGGH98/097-103,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
Extending Graphics Hardware For Occlusion Queries In OpenGL}},
author = {
Bartz, Dirk
and
Meißner, Michael
and
Hüttner, Tobias
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/097-103}
}
@inproceedings{
:10.2312/EGGH/EGGH98/113-122,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
IMEM: An Intelligent Memory for Bump- and Reflection-Mapping}},
author = {
Kugler, Anders
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/113-122}
}
@inproceedings{
:10.2312/EGGH/EGGH98/133-142,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
Prefetching in a Texture Cache Architecture}},
author = {
lgehy, Homan
and
Eldridge, Matthew
and
Proudfoot, Kekoa
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/133-142}
}
@inproceedings{
:10.2312/EGGH/EGGH98/123-132,
booktitle = {
SIGGRAPH/Eurographics Workshop on Graphics Hardware},
editor = {
S. N. Spencer
}, title = {{
Neon: A Single-Chip 3D Workstation Graphics Accelerator}},
author = {
McCormack, Joel
and
McNamara, Robert
and
Gianos, Christopher
and
Seiler, Larry
and
Jouppi, Norman P.
and
Correll, Ken
}, year = {
1998},
publisher = {
The Eurographics Association},
ISSN = {1727-3471},
ISBN = {0-89791-097-X},
DOI = {
/10.2312/EGGH/EGGH98/123-132}
}

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Recent Submissions

Now showing 1 - 15 of 15
  • Item
    Unsolved Problems and Opportunities for High-quality, High-performance 3D Graphics on a PC Platform
    (The Eurographics Association, 1998) Kirk, David B.; S. N. Spencer
    In the late 1990 s, graphics hardware is experiencing a dramatic board-to-chip integration reminiscent to the minicomputer-to-microprocessor revolution of the 1980 s. Today, mass-market PCs are beginning to match the 3D polygon and pixel rendering of a 1992 Silicon Graphics Reality EngineTM system. The extreme pace of technology evolution in the PC market is such that within 1 or 2 years the performance of a mainstream PC will be very close to the highest performance 3D workstations. At that time, the quality and performance demands will dictate serious changes in PC architecture as well as changes in rendering pipeline and algorithms. This paper will discuss several potential areas of change.
  • Item
    An Improved Z-Buffer CSG Rendering Algorithm
    (The Eurographics Association, 1998) Stewart, Nigel; Leach, Geoff; John, Sabu; S. N. Spencer
    We present an improved z-buffer based CSG rendering algorithm, based on previous techniques using z-buffer parity based surface clipping. We show that while this type of algorithm has been reported as requiring O(n2), (where n is the number of primitives), an O(lcn) (where k is depth complexity) algorithm may be substituted. For cases where k is less than n this translates into a significant performance gain.
  • Item
    Quadratic Bezier Triangles As Drawing Primitives
    (The Eurographics Association, 1998) Bruijns, J.; S. N. Spencer
    We propose to use quadratic Bezier triangles as additional drawing primitives: quadratic Bezier triangles require much less model data for faithful representation of curved surfaces than planar triangles. Therefore, they require less storage and/or transmission capacity. Furthermore, they allow automatic level-of-detail. Finally, they result in considerable savings in model-view transformations and lighting calculations. We present two algorithms for rendering these triangles, each of which can be easily incorporated in hardware render systems currently used for planar triangles.
  • Item
    A Breadth-First Approach To Efficient Mesh Traversal
    (The Eurographics Association, 1998) Mitra, Tulika; Chiueh, Tzi-cker; S. N. Spencer
    Complex 3D polygonal models are typically represented as triangular meshes, especially when they are generated procedurally, or created from volumetric data sets through surface extraction. Existing 3D rendering hardware, on the other hand, processes one triangle at a time. Therefore triangle meshes need to be converted to individual triangles when they are fed to the graphics pipeline. The design goal of such conversion algorithms is to minimize the number of vertices that are sent redundantly to the rendering pipeline. This paper proposes a breadth-first approach to traverse triangle meshes that reduces vertex redundancy to very close to the theoretical minimum. With the proposed scheme, no triangle vertices need to be specified multiple times, barring exceptional cases. In addition, owing to a prefetching technique, the on-chip storage requirement for effective mesh traversal remains small and largely constant regardless of the mesh size. Our experimental results show that assuming a 64-vertex buffer, the redundant transformation overhead associated with the proposed approach is between 1.00% and 7.33%, for a set of 8 triangle meshes whose size ranges from 2,992 to 40,000 triangles.
  • Item
    View-independent Environment Maps
    (The Eurographics Association, 1998) Heidrich, Wolfgang; Seidel, Hans-Peter; S. N. Spencer
    Environment maps are widely used for approximating reflections in hardware-accelerated rendering applications. Unfortunately, the parameterizations for environment maps used in today s graphics hardware severely undersample certain directions, and can thus not be used from multiple viewing directions. Other parameterizations exist, but require operations that would be too expensive for hardware implementations. In this paper we introduce an inexpensive new parameterization for environment maps that allows us to reuse the environment map for any given viewing direction. We describe how, under certain restrictions, these maps can be used today in standard OpenGL implementations. Furthermore, we explore how OpenGL could be extended to support this kind of environment map more directly.
  • Item
    Gouraud Bump Mapping
    (The Eurographics Association, 1998) Ernst, I.; Rüsseler, H.; Schulz, H.; Wittig, 0.; S. N. Spencer
    In this paper a new low cost bump mapping hardware is prcsented. The new hardware approach does not rely on per pixel lighting, but instead uses Gouraud interpolated triangles. The bump mapping effect is applied by blending the calculated per pixel bump map color onto the fragment s color. This allows realtime animated distant light-sources to react on the specified bump map. The paper further investigates a number of different variants of recently proposed bump engines. These variants range from lowend PC solution to highest quality high-end solutions.
  • Item
    PAVLOV: A Programmable Architecture for Volume Processing
    (The Eurographics Association, 1998) Kreeger, Kevin; Kaufman, Arie; S. N. Spencer
    We present a parallel 2D mesh connected architecture with SIMD processing elements. The design allows for real-time volume rendering as well as interactive 30 segmentation and 1D feature extraction. This is possible because the SIMD processing elements are programmable, a feature which also allows the use of many different rendering algorithms. We present an algorithm which, with the addition of hardware resources, provides conflict free access to volume slices along any of the three major axes. The volume access conflict has been the main reason why previous similar architectures could not perform real-time volume rendering. We present the performance of preliminary algorithms on a software simulator of the architecture design.
  • Item
    High-Quality Volume Rendering Using Texture Mapping Hardware
    (The Eurographics Association, 1998) Dachille, Frank; Kreeger, Kevin; Chen, Baoquan; Bitter, Ingmar; Kaufman, Arie; S. N. Spencer
    We present a method Jor volume rendering of regular grids which takes advantage of 3D texture mapping hardware currently, available on graphics workstations. Our method products accurate shading for arbitrary and dynamically changing directional lights, viewing parameters, and transfer functions. This is achieved by hardware interpolating the data values and gradients before software classification and shading. The method works equally well for parallel and perspective projections. We present two approaches for OUT method: one which takes advantage of software ray casting optimizations and another which takes advantage of hardware blending acceleration.
  • Item
    Texture Tile Visibility Determination For Dynamic Texture Loading
    (The Eurographics Association, 1998) Goss, Michael E.; Yuasa, Kei; S. N. Spencer
    Three-dimensional scenes have become an important form of content deliverable through the Internet. Standard formats such as Virtual Reality Modeling Language (VRML) make it possible to dynamically download complex scenes from a server directly to a web browser. However, limited bandwidth between servers and clients presents an obstacle to the availability of more complex scenes, since geometry and texture maps for a reasonably complex scene may take many minutes to transfer over a typical telephone modem link. This paper addresses one part of the bandwidth bottleneck, texture transmission. Current display methods transmit an entire texture to the client before it can be used for rendering. We present an alternative method which subdivides each texture into tiles, and dynamically determines on the client which tiles are visible to the user. Texture tiles are requested by the client in an order determined by the number of screen pixels affected by the texture tile, so that texture tiles which affect the greatest number of screen pixels are transmitted first. The client can render images during texture loading using tiles which have already been loaded. The tile visibility calculations take full account of occlusion and multiple texture image resolution levels, and are dynamically recalculated each time a new frame is rendered. We show how a few additions to the standard graphics hardware pipeline can add this capability without radical architecture changes, and with only moderate hardware cost. The addition of this capability makes it practical to use large textures even over relatively slow network connections.
  • Item
    Performance Issues of a Distributed Frame Buffer on a Multicomputer
    (The Eurographics Association, 1998) Wei, Bin; Clark, Douglas W.; Felten, Edward W.; Li, Kai; S. N. Spencer
    A multiple-port, distributed frame buffer has been recently proposed to support parallel rendering on multicomputers. This paper describes an implementation of such a distributed frame buffer for the Intel Paragon routing network, and reports its performance results. We have conducted several experiments with the system we have developed. Our results indicate that placing a multipleport, distributed frame buffer directly on the host internal routing network can provide high throughput to eliminate the bottleneck of merging a final image from multiple processors to a frame buffer. This architectural approach can also effectively support image composition for sort-last. The synchronization algorithm we have developed requires only one-way communication and minimizes receive overhead for message passing to the frame buffer.
  • Item
    Simple Models of the Impact of Overlap in Bucket Rendering
    (The Eurographics Association, 1998) Chen, Milton; Stall, Gordon; Igehy, Homan; Proudfoot, Kekoa; Hanrahan, Pat; S. N. Spencer
    Bucket rendering is a technique in which the framebuffer is subdivided into coherent regions that are rendered independently. The primary benelits of this technique are the decrease in the size of the working set of framebuffer memory required during rendering and the possibility of processing multiple regions in parallel. The drawbacks of this technique are the cost of computing the regions overlapped by each triangle and the redundant work required in processing triangles multiple times when they overlap multiple regions, Tile size is a critical parameter in bucket rendering systems: smaller tile sizes allow smaller memory footprints and better parallel load balancing but exacerbate the problem of redundant computation. In this paper, we use mathematical models, instrumentation, and trace-driven simulation to evaluate the impact of overlap and conclude that the problem of overlap is limited in scope. If triangles are small, the overlap factor itself is also small. If triangles are large, overlap is high but pixel work dominates the rendering time. In pipelined rendering systems, the worst-case impact of overlap occurs when the area of an input triangle is equal to the area for which the pipeline is balanced-that is, the trianglerelated computation time is equal to the pixel-related computation time. Thus, as the current trends of exponentially increasing triangle rate, slowly increasing screen resolution, and increasing per-pixel computation continue to push this balance point toward triangles with smaller area, bucket rendering systems will be able to utilize smaller tiles efficiently.
  • Item
    Extending Graphics Hardware For Occlusion Queries In OpenGL
    (The Eurographics Association, 1998) Bartz, Dirk; Meißner, Michael; Hüttner, Tobias; S. N. Spencer
    For interactive rendering of large polygonal objects, fast visibility queries are necessary to quickly decide whether polygonal objects are visible and need to be rendered. None of the numerous published algorithms provide visibility performance for interactive rendering of large models. In this paper, we propose an OpenGL extension for fast occlusion queries. Added after the depth test stage of the OpenGL rendering pipeline. our algorithm provides fast queries to establish the occlusion of polygonal objects. Furthermore, hardware aspects of this proposal are discussed and possible implementations on two different graphics architectures are presented.
  • Item
    IMEM: An Intelligent Memory for Bump- and Reflection-Mapping
    (The Eurographics Association, 1998) Kugler, Anders; S. N. Spencer
    Data path simplification in the context of reflection- and bumpmapping hardware opens new solutions in the design of rendering and shading circuits. We are proposing a novel approach to rendering bump- and reflection-mapped surfaces, where the local geometry defining bump-maps is transformed on-the-fly prior to surface shading. Applying angular encoding to normal vectors results in narrower data paths and permits hardware integration of look-up tables of acceptable size. A special-purpose logic-embedded memory architecture is presented, where bump- and reflection-mapping of textured surfaces are executed by an intelligent memory device. High-performance surface shading is achieved by making use of precomputed shading- and reflection-map coordinate generation tables, and considering cache coherence of pixel-to-pixel normal vectors. Such a dedicated memory chip can easily be interfaced to a standard rasterizer, in place of texture memory to offer bump-, texture- and reflection-mapping hardware support.
  • Item
    Prefetching in a Texture Cache Architecture
    (The Eurographics Association, 1998) lgehy, Homan; Eldridge, Matthew; Proudfoot, Kekoa; S. N. Spencer
    Texture mapping has become so ubiquitous in real-time graphics hardware that many systems are able to perform filtered texturing without any penalty in fill rate. The computation rates available in hardware have been outpacing the memory access rates, and texture systems are becoming constrained by memory bandwidth and latency. Caching in conjunction with prefetching can be used to alleviate this problem. In this paper, WC introduce a prefetching texture cache architecture designed to take advantage of the access characteristics of texture mapping. The structures needed are relatively simple and arc amenable to high clock rates. To quantify the robustness of our architecture, we identify a set of six scenes whose texture locality varies over nearly two orders of magnitude and a set 01 four memory systems with varying bandwidths and latencies. Through the use of a cycle-accurate simulation, we demonstrate that even in the presence of a high-latency memory system, our architecture can attain at least 97% of the performance of a zerolatency memory system.
  • Item
    Neon: A Single-Chip 3D Workstation Graphics Accelerator
    (The Eurographics Association, 1998) McCormack, Joel; McNamara, Robert; Gianos, Christopher; Seiler, Larry; Jouppi, Norman P.; Correll, Ken; S. N. Spencer
    High-performance 3D graphics accelerators traditionally require multiple chips on multiple boards, including geometry, rasterizing, pixel processing, and texture mapping chips. These designs are often scalable: they can increase performance by using more chips. Scalability has obvious costs: a minimal configuration needs several chips, and some configurations must replicate texture maps. A less obvious cost is the almost irresistible temptation to replicate chips to increase performance, rather than to design individual chips for higher performance in the first place. In contrast, Neon is a single chip that performs like a multichip design. Neon accelerates OpenGL [19] 3D rendering, as well as X11 [20] and Windows/NT 2D rendering. Since our pin budget limited peak memory bandwidth, we designed Neon from the memory system upward in order to reduce bandwidth requirements. Neon has no special-purpose memories; its eight independent 32-bit memory controllers can access color buffers, 1. depth buffers, stencil buffers, and texture data. To fit our gate budget, we shared logic among different operations with similar implementation requirements, and left floating point calculations to Digital s Alpha CPUs. Neon s performance is between HP s Visualize fx<sup>4</sup> and fx<sup>6</sup>, and is well above SGI s MXE for most operations. Neon-based boards cost much less than these competitors, due to a small part count and use of commodity SDRAMs.