Intel® Application Notes Intel Application Notes are ready-to-use code snippets bundled with extensive algorithmic and performance analysis.   SSE Application Notes 32-bit Floating-point Real & Complex 16-Tap FIR Filter Implemented Using Streaming SIMD Extensions, AP-809 Antialiasing Implemented Using Streaming SIMD Extensions - AP-806 Applying Streaming SIMD Extensions to Collision Detection, AP-812. Course-Grain Multithreading, AP-802. AP-928 Streaming SIMD Extensions -Inverse of 4x4 Matrix. AP-929 Streaming SIMD Extensions - Inverse of 6x6 Matrix. AP-930 Streaming SIMD Extensions - Matrix Multiplication AP-931 Streaming SIMD Extensions - LU Decomposition. Data Alignment and Programming Issues for the Streaming SIMD Extensions with the Intel® C/C++ Compiler, AP-833. FIR and IIR Filtering Using Streaming SIMD Extensions, AP-598  Phong Equations Using Streaming SIMD Extensions, AP-819. RGB Alpha Saturation Using Streaming SIMD Extensions, AP-820. Software Conventions for the Streaming SIMD Extensions, AP-589. A Fast Precise Implementation of 8x8 Discrete Cosine Transform Using the Streaming SIMD Extensions and Intel® MMX™ Instructions, AP-922. Using the Streaming SIMD Extensions to Find the Maximum/Minimum Element of a Single-Precision Floating-Point Vector and its Corresponding Index, AP-805. Wiener Filtering Using Streaming SIMD Extensions, AP-807. Integer Minimum or Maximum Element Search Using  Streaming SIMD Extensions, AP-804. 1/3 T Software Equalizer Using Streaming SIMD Extensions, AP-821 3D-Transformation, AP-597. Deformable Surfaces, AP-832. Diffuse-Directional Lighting, AP-596. Increasing the Accuracy of the Results from the Reciprocal and Reciprocal Square Root Instructions Using the Newton-Raphson Method, AP-803. Identifying Support for Streaming SIMD Extensions in the Processor and Operating System, AP-900. A Smoothed Upsample Algorithm Using Streaming SIMD Extensions, AP-822. Software Development Strategies for Streaming SIMD Extensions Technology, AP-814. Split-Radix Fast Fourier Transform Using Streaming SIMD Extensions, AP-808. Using the Streaming SIMD Extensions to Evaluate a Hidden Markov Model with Viterbi Decoding, AP-811. Using Streaming SIMD Extensions in a Fast DCT Algorithm for MPEG Encoding, AP-817. Using Streaming SIMD Extensions in a Motion Estimation Algorithm for MPEG Encoding - AP-818. SSE2 Application Notes Using the Intel® Pentium® 4 Processor SSE2 Instructions to Find the Maximum/Minimum Element of a Double-Precision Floating-point Vector and its Corresponding Index, AP-937 Block-Matching In Motion Estimation Algorithms Using Pentium 4 Processor SSE2 Instructions, AP-940 Performance Comparison of Uniform NURBS Surface Tessellation on the Pentium® III Processor and the Pentium 4 Processor, AP-944 Using the Pentium 4 Processor SSE2 Instruction Set to Implement an Inverse Discrete Cosine Transform, AP-945 Using the Pentium 4 Processor SSE2 Instruction Set to Perform a Single-Point Crossover Operation in a Binary Genetic Algorithm, AP-936 Using Pentium 4 Processor SSE2 Instruction for SAXPY/DAXPY, AP-935 Floating-Point Arithmetic with Streaming SIMD Extensions and Pentium 4 Processor SSE2 Instructions, AP-943 Using the Pentium 4 Processor SSE2 Instructions to Evaluate a Hidden Markov Model with Viterbi Decoding, AP-946 Using Pentium 4 Processor SSE2 Instructions in Motion Compensation for Video Decoding and Encoding, AP-942 Using Pentium 4 Processor SSE2 Instructions in a Double-precision 3D Transform, AP-939 Using Streaming SIMD Extensions 2(SSE2) to Perform Big Multiplications, AP-941 Using Spin-Loops on Intel® Pentium® 4 Processor and Intel® Xeon™ Processor, AP-949