Version 4 (modified by cameron, 8 years ago) (diff)

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# IDISA Horizontal Operations

The table below lists the various IDISA horizontal operations on vectors of N-bit fields, together with their description and semantic specification.

These operations generally have the form r = hsimd<N>::op(a, b) for each operation op, where a and b are operand vectors of N bit fields and r is the corresponding result vector.

In general, operand fields may be interpreted as either signed or unsigned N-bit integers, depending on the operation. When the results depend on this interpretation, the notation s(a) refers to the interpretation of field a as a signed integer (2's complement interpretation), while the notation u(a) refers to the interpretation as an unsigned integer (natural binary interpretation).

In general, result fields are converted to N-bits by truncation.

 add addition ri = c2i + c2i+1 min minimum value ri = if s(c2i) < s(c2i+1) then c2i else c2i+1 umin minimum value ri = if u(c2i) < u(c2i+1) then c2i else c2i+1 packl pack low ri = c2i+1 packh pack high ri = c2i packus pack with unsigned saturation ri = usN(concat(c2i, c2i+1)) packss pack with signed saturation ri = ssN(concat(c2i, c2i+1))

where the N-bit unsigned and signed saturation functions are defined as follows.

• usN(x) = x, if u(x) < 2N
• usN(x) = 2N-1, if u(x) >= 2N
• ssN(x) = x, if -2N-1 <= s(x) < 2N-1
• ssN(x) = 2N-1-1, if s(x) >= 2N-1
• ssN(x) = -2N-1, if s(x) < 2N-1

In these definitions, fields are numbered left-to-right in so-called *big-endian* style. Implementations using little-endian processors generally reverse the arguments c2i and c2i+1.