SIMD: Difference between revisions

SIMDnxm notation
 
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First introduced on the Illiac IV, and not to be confused with vector processing.
[[File:Simd.jpeg|thumb|right|A 4-way SIMD unit]]
First introduced on the Illiac IV, and not to be confused with vector processing. SIMD-capable units are often taxonomized via <tt>SIMDnXm</tt> nomenclature, where '''n''' is the issue width and '''m''' is the channel width; a superscalar processor would be SIMDnX1, while a scalar SISD processor would be SIMD1X1.


==Compilers and Assemblers==
==Compilers and Assemblers==
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==Data Types (taken from SSE specs)==
==Data Types (taken from SSE specs)==
These do not necessarily map to the C data types of the same name, for any given compiler!
These do not necessarily map to [[C]] data types of the same name, for any given compiler!
* '''half precision''': 16-bit IEEE 754 floating-point (bias-15) (IEEE 754 2008 '''binary16''')
* '''half precision''': 16-bit IEEE 754 floating-point (bias-15) (IEEE 754 2008 '''binary16''')
* '''single''': 32-bit IEEE 754 floating-point (bias-127) (IEEE 754 2008 '''binary32''')
* '''single''': 32-bit IEEE 754 floating-point (bias-127) (IEEE 754 2008 '''binary32''')
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* '''doubleword''', '''dword''': 64-bit two's complement integer
* '''doubleword''', '''dword''': 64-bit two's complement integer


==x86 YMM==
The [http://software.intel.com/en-us/avx/ AVX] (Advanced Vector eXtensions) were introduced on Intel's [[Sandy Bridge]] (2010) and AMD's [[Bulldozer]] (2011). They operate on the 256-bit YMM registers (YMM0..YMM15), which are aliased by the [[SIMD#x86_XMM|XMM]] registers. They are encoded using the [[VEX]] scheme. Support for AVX can be determined via:
* Determine that [[CPUID]].1:ECX.OSXSAVE[bit 27] is set (XGETBV is enabled for application use)
* Issue XGETBV and verify that XFEATURE_ENABLED_MASK[2:1] = 0x3 (XMM state and YMM state are enabled by OS)
* Determine that [[CPUID]].1:ECX.AVX[bit 28] is set (AVX instructions supported)
==x86 AVX==
New 256-bit YMM registers.
===New [[Haswell]] Instructions===
* AVX2 instructions: integer SIMD using AVX's 256-bit YMM registers.
* YMM-SIMD bit manipulation, permute, gather, shift, and FMA
===AVX1===
* Introduced on [[Sandy Bridge]]
==x86 XMM==
==x86 XMM==
The Streaming SIMD Extensions operate on the 128-bit XMM registers (XMM0..XMM7 in 32-bit mode, XMM0..XMM15 in 64-bit mode). In its original incarnation on the PIII, execution units (but not registers) were shared with the x87 floating-point architecture. The execution units were separated in the NetBurst microarchitecture. In the Core microarchitecture, the execution engine has been widened for greater SSE throughput.
The Streaming SIMD Extensions operate on the 128-bit XMM registers (XMM0..XMM7 in 32-bit mode, XMM0..XMM15 in 64-bit mode). In its original incarnation on the PIII, execution units (but not registers) were shared with the x87 floating-point architecture. The execution units were separated in the NetBurst microarchitecture. In the Core microarchitecture, the execution engine has been widened for greater SSE throughput.
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*Originally known as Prescott New Instructions, and introduced on P4-Prescott
*Originally known as Prescott New Instructions, and introduced on P4-Prescott
*<tt>[http://www.intel.com/software/products/documentation/vlin/mergedprojects/analyzer_ec/mergedprojects/reference_olh/mergedProjects/instructions/instruct32_hh/movddup--move_one_double-fp_and_duplicate.htm movddup]</tt> -- move a double from a 8-byte-aligned memory location or lower half of XMM register to upper half, then duplicate upper half to lower half
*<tt>[http://www.intel.com/software/products/documentation/vlin/mergedprojects/analyzer_ec/mergedprojects/reference_olh/mergedProjects/instructions/instruct32_hh/movddup--move_one_double-fp_and_duplicate.htm movddup]</tt> -- move a double from a 8-byte-aligned memory location or lower half of XMM register to upper half, then duplicate upper half to lower half
 
*<tt>MWAIT/MONITOR</tt>
====SSSE3 (TNI/MNI)====
====SSSE3 (TNI/MNI)====
*Introduced with the Core microarchitecture. Sometimes referred to as Tejas New Instructions or Merom New Instructions
*Introduced with the Core microarchitecture. Sometimes referred to as Tejas New Instructions or Merom New Instructions
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===Future Directions===
===Future Directions===
* [http://software.intel.com/en-us/avx/ AVX] (Advanced Vector eXtensions) -- to be introduced on Intel's Sandy Bridge (2010) and AMD's Bulldozer (2011), and implemented within the [http://en.wikipedia.org/wiki/VEX_prefix VEX coding scheme]
* The [http://en.wikipedia.org/wiki/FMA_instruction_set FMA instruction set] extension to x86 should hit around 2011, providing floating-point fused multiply-add
* The [http://en.wikipedia.org/wiki/FMA_instruction_set FMA instruction set] extension to x86 should hit around 2011, providing floating-point fused multiply-add
** AMD appears to call this [http://en.wikipedia.org/wiki/FMA_instruction_set FMA4], part of what was SSE5
** AMD appears to call this [http://en.wikipedia.org/wiki/FMA_instruction_set FMA4], part of what was SSE5
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* AMD64 Architecture Programmer’s Manual Volume 6: [http://support.amd.com/us/Processor_TechDocs/43479.pdf 128-Bit and 256-Bit XOP, FMA4 and CVT16 Instructions]
* AMD64 Architecture Programmer’s Manual Volume 6: [http://support.amd.com/us/Processor_TechDocs/43479.pdf 128-Bit and 256-Bit XOP, FMA4 and CVT16 Instructions]
* Agner Fog's [http://www.agner.org/optimize/instruction_tables.pdf x86 Instruction Tables]
* Agner Fog's [http://www.agner.org/optimize/instruction_tables.pdf x86 Instruction Tables]
* "[http://software.intel.com/en-us/blogs/2011/06/13/haswell-new-instruction-descriptions-now-available Haswell New Instruction Descriptions now Available]", Intel Software Developer Network, 2011-06-13
* General [[architecture]] page
* General [[architecture]] page
[[Category: x86]]
[[Category: x86]]