Computer graphics (2nd ed. in C): principles and practice
Computer graphics (2nd ed. in C): principles and practice
The SNAP Project: Design of Floating Point Arithmetic Units
ARITH '97 Proceedings of the 13th Symposium on Computer Arithmetic (ARITH '97)
CHIMAERA: a high-performance architecture with a tightly-coupled reconfigurable functional unit
Proceedings of the 27th annual international symposium on Computer architecture
Real-time stereo within the VIDET Project
Real-Time Imaging
Accelerating RBF Network Simulation by Using Multimedia Extensions of Modern Microprocessors
ICANN '01 Proceedings of the International Conference on Artificial Neural Networks
Architectural techniques for accelerating subword permutations with repetitions
IEEE Transactions on Very Large Scale Integration (VLSI) Systems - Special section on the 2001 international conference on computer design (ICCD)
An extended ANSI C for processors with a multimedia extension
International Journal of Parallel Programming
High-Speed Function Approximation Using a Minimax Quadratic Interpolator
IEEE Transactions on Computers
Retargeting Sequential Image-Processing Programs for Data Parallel Execution
IEEE Transactions on Software Engineering
A PC-based real-time stereo vision system
Machine Graphics & Vision International Journal
Tradeoff between data-, instruction-, and thread-level parallelism in stream processors
Proceedings of the 21st annual international conference on Supercomputing
Configurable data memory for multimedia processing
Journal of Signal Processing Systems - Special Issue: Embedded computing systems for DSP
Mostly static program partitioning of binary executables
ACM Transactions on Programming Languages and Systems (TOPLAS)
Implementation of the DWT using intel IA-32 SIMD extensions
MAMECTIS'08 Proceedings of the 10th WSEAS international conference on Mathematical methods, computational techniques and intelligent systems
SIMD-scan: ultra fast in-memory table scan using on-chip vector processing units
Proceedings of the VLDB Endowment
Data dependence analysis for intra-register vectorization
ISPDC'03 Proceedings of the Second international conference on Parallel and distributed computing
On dependence analysis for SIMD enhanced processors
VECPAR'04 Proceedings of the 6th international conference on High Performance Computing for Computational Science
A compiler framework for extracting superword level parallelism
Proceedings of the 33rd ACM SIGPLAN conference on Programming Language Design and Implementation
Optimizing image processing on multi-core CPUs with Intel parallel programming technologies
Multimedia Tools and Applications
Loop Transforming for Reducing Data Alignment on Multi-Core SIMD Processors
Journal of Signal Processing Systems
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AMD 3DNow! technology is a significant innovation to the x86 architecture that drives today's personal computers. 3DNow! technology is a set of 21 new instructions that opens the traditional processing bottlenecks for floating-point-intensive and multimedia applications. Using these instructions, applications can implement more powerful solutions to create a more entertaining and productive PC platform. Examples of the type of improvements that 3DNow! technology enables are faster frame rates on high-resolution scenes, much better physical modeling of real- world environments, sharper and more detailed 3D imaging, smoother video playback, and near theater-quality audio. The AMD-K6-2 microprocessor is the first implementation of 3DNow! technology. Future AMD microprocessors, such as the AMD-K7 processor, will provide even higher performance implementations of 3DNow! technology.