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SIMD: Difference between revisions

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*<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


====SSSE3====
====SSSE3 (TNI/MNI)====
*Introduced with the Core microarchitecture. Sometimes referred to as Tejas New Instructions or Merom New Instructions
*<tt>[http://www.sesp.cse.clrc.ac.uk/html/SoftwareTools/vtune/users_guide/mergedProjects/analyzer_ec/mergedProjects/reference_olh/mergedProjects/instructions/instruct32_hh/vc235.htm pmaddwd]</tt> -- multiply packed words, then horizontally sum pairs, accumulating into doublewords
*<tt>[http://www.sesp.cse.clrc.ac.uk/html/SoftwareTools/vtune/users_guide/mergedProjects/analyzer_ec/mergedProjects/reference_olh/mergedProjects/instructions/instruct32_hh/vc235.htm pmaddwd]</tt> -- multiply packed words, then horizontally sum pairs, accumulating into doublewords



Revision as of 22:43, 19 September 2009

x86

  • Terminology:
    • 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)
    • double: 64-bit IEEE 754 floating-point (bias-1023) (IEEE 754 2008 binary64)
    • long double: 80-bit "double extended" IEEE 754-1985 floating-point (bias-16383)
      • not an actual SIMD type, but an artifact of x87
    • word: 32-bit two's complement integer
    • doubleword, dword: 64-bit two's complement integer
  • These do not necessarily map to the C data types of the same name, for any given compiler!

Future

  • AVX (Advanced Vector eXtensions) -- to be introduced on Intel's Sandy Bridge (2010) and AMD's Bulldozer (2011), and implemented within the VEX coding scheme
  • The FMA instruction set extension to x86 should hit around 2011, providing floating-point fused multiply-add
    • AMD appears to call this FMA4, part of what was SSE5

SSE5 (AMD)

  • Unimplemented extensions competing with SSE4, encoded using a method incompatible with VEX
  • Withdrawn, converted into VEX-compatible encodings, and split into:
    • FMA4: Fused floating-point multiply-add (compare Intel's FMA)
    • XOP: Fused integer multiply-add, byte permutations, shifts, rotates, integer vector horizontal operations (compare Intel's SSE4)
    • CVT16: Half-precision conversion

SSE4 (Intel)

SSE4a

SSE4.1

  • Introduced on Penryn
DPPD instruction dataflow
  • dpps -- dot product of two vectors having four single components each
  • dppd -- dot product of two vectors having two double components each
  • insertps

SSE4.2

  • Introduced on Nehalem

SSE3 (PNI)

  • Originally known as Prescott New Instructions, and introduced on P4-Prescott
  • movddup -- 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

SSSE3 (TNI/MNI)

  • Introduced with the Core microarchitecture. Sometimes referred to as Tejas New Instructions or Merom New Instructions
  • pmaddwd -- multiply packed words, then horizontally sum pairs, accumulating into doublewords

SSE2

  • movapd -- move two packed doubles from a 16-byte-aligned memory location to XMM registers, or vice versa, or between two XMM registers.
    • movupd -- movapd safe for unaligned memory references, with far inferior performance.
  • mulpd -- multiply two packed doubles. the multiplier is a 16-byte-aligned memory location or XMM register. the target XMM register serves as the multiplicand.
  • addpd -- add two packed doubles. the addend is a 16-byte-aligned memory location or XMM register. the target XMM register serves as the augend.

SSE

  • movaps -- move four packed singles from a 16-byte-aligned memory location to XMM registers, or vice versa, or between two XMM registers.
    • movups -- movaps safe for unaligned memory references, with far inferior performance.
  • mulps -- multiply four packed singles. the multiplier is a 16-byte-aligned memory location or XMM register. the target XMM register serves as the multiplicand.
  • addps -- add four packed singles. the addend is a 16-byte-aligned memory location or XMM register. the target XMM register serves as the augend.

Other Architectures

  • PowerPC implements AltiVec
  • SPARC implements VIS, the Visual Instruction Set
  • PA-RISC implements MAX, the Multimedia Acceleration eXtensions
  • ARM implements NEON
  • Alpha implemented MVI, the Motion Video Instructions
  • SWAR: SIMD Within a Register (bit-parallel methods)

See Also