Difference between revisions of "SIMD"
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==MMX== | ==MMX== | ||
MMX is a SIMD instruction introduced by Intel with the Pentium line of processors. It provides integer operations only and has a strong limitation in that it makes it difficult to work with integer and floating point data at the same time, since it reuses the IA-32 FPU registers. | MMX is a SIMD instruction introduced by Intel with the Pentium line of processors. It provides integer operations only and has a strong limitation in that it makes it difficult to work with integer and floating point data at the same time, since it reuses the IA-32 FPU registers. | ||
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==3DNow!== | ==3DNow!== |
Revision as of 00:22, 7 August 2005
SIMD (Single Instruction, Multiple Data) is a set of operations for efficiently handling large amounts of data. It makes it possible to execute one command on a set of data instances instead of having the same command to be executed on each of the data instances.
First introduced in large-scale supercomputers SIMD instrucion sets have become popular in personal computing hardware, hence being mostly associated with these units. The most widely known SIMD instructions sets are AMDs 3DNow! and Intels MMX and SSE sets in their various versions.
MMX
MMX is a SIMD instruction introduced by Intel with the Pentium line of processors. It provides integer operations only and has a strong limitation in that it makes it difficult to work with integer and floating point data at the same time, since it reuses the IA-32 FPU registers.
3DNow!
SSE
SSE is a set of instuctions optimized for handling floating point operations on a 128 bit level.
SSE 2
SSE 2 contains 144 new commands for Cache and Memory management and the 64 bit commands of the MMX set were improved and extended to 128 bit.
SSE 3
SSE 3 extends the SSE 2 command set by 13 instrucions for converting floating point numbers into integer numbers, for complex arithmetics, video encoding, image processing and thread communications.