AI Engine Intrinsics User Guide  (AIE) r2p23
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Z buffer conjugation

Overview

32 bit real by 32 bit complex using Z buffer conjugation

Functions

v2cacc80 lmac2_abs_c (v2cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .
 
v2cacc80 lmac2_abs_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmac2_max_c (v2cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .
 
v2cacc80 lmac2_max_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmac2_max_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmac2_maxdiff_c (v2cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .
 
v2cacc80 lmac2_maxdiff_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmac2_maxdiff_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmac2_min_c (v2cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .
 
v2cacc80 lmac2_min_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmac2_min_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmac4_abs_c (v4cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .
 
v4cacc80 lmac4_abs_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmac4_max_c (v4cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .
 
v4cacc80 lmac4_max_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmac4_max_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmac4_maxdiff_c (v4cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .
 
v4cacc80 lmac4_maxdiff_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmac4_maxdiff_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmac4_min_c (v4cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .
 
v4cacc80 lmac4_min_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmac4_min_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmsc2_abs_c (v2cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .
 
v2cacc80 lmsc2_abs_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmsc2_max_c (v2cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .
 
v2cacc80 lmsc2_max_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmsc2_max_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmsc2_maxdiff_c (v2cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .
 
v2cacc80 lmsc2_maxdiff_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmsc2_maxdiff_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmsc2_min_c (v2cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .
 
v2cacc80 lmsc2_min_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmsc2_min_c (v2cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmsc4_abs_c (v4cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .
 
v4cacc80 lmsc4_abs_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmsc4_max_c (v4cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .
 
v4cacc80 lmsc4_max_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmsc4_max_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmsc4_maxdiff_c (v4cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .
 
v4cacc80 lmsc4_maxdiff_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmsc4_maxdiff_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmsc4_min_c (v4cacc80 acc, v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .
 
v4cacc80 lmsc4_min_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmsc4_min_c (v4cacc80 acc, v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmul2_abs_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .
 
v2cacc80 lmul2_abs_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmul2_max_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .
 
v2cacc80 lmul2_max_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmul2_max_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmul2_maxdiff_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .
 
v2cacc80 lmul2_maxdiff_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmul2_maxdiff_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmul2_min_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .
 
v2cacc80 lmul2_min_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lmul2_min_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmul4_abs_c (v32int32 xbuff, int xstart, unsigned int xoffsets, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .
 
v4cacc80 lmul4_abs_c (v16int32 xbuff, int xstart, unsigned int xoffsets, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmul4_max_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .
 
v4cacc80 lmul4_max_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmul4_max_c (v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmul4_maxdiff_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .
 
v4cacc80 lmul4_maxdiff_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmul4_maxdiff_c (v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmul4_min_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .
 
v4cacc80 lmul4_min_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lmul4_min_c (v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lnegmul2_abs_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .
 
v2cacc80 lnegmul2_abs_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lnegmul2_max_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .
 
v2cacc80 lnegmul2_max_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lnegmul2_max_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lnegmul2_maxdiff_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .
 
v2cacc80 lnegmul2_maxdiff_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lnegmul2_maxdiff_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lnegmul2_min_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .
 
v2cacc80 lnegmul2_min_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v2cacc80 lnegmul2_min_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int xstep, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets, int zstep)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lnegmul4_abs_c (v32int32 xbuff, int xstart, unsigned int xoffsets, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .
 
v4cacc80 lnegmul4_abs_c (v16int32 xbuff, int xstart, unsigned int xoffsets, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lnegmul4_max_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .
 
v4cacc80 lnegmul4_max_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lnegmul4_max_c (v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lnegmul4_maxdiff_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .
 
v4cacc80 lnegmul4_maxdiff_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lnegmul4_maxdiff_c (v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lnegmul4_min_c (v32int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .
 
v4cacc80 lnegmul4_min_c (v16int32 xbuff, int xstart, unsigned int xoffsets, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 
v4cacc80 lnegmul4_min_c (v16int32 xbuff, int xstart, unsigned int xoffsets, v16int32 ybuff, int ystart, v4cint32 zbuff, int zstart, unsigned int zoffsets)
 Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.
 

Function Documentation

v2cacc80 lmac2_abs_c ( v2cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .

acc0 += cnj(z00)*abs(x00) + cnj(z01)*abs(x01)
acc1 += cnj(z10)*abs(x10) + cnj(z11)*abs(x11)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
xstepStep between each column for selection in the xbuffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmac2_abs_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*abs(x00) + cnj(z01)*abs(x01)
acc1 += cnj(z10)*abs(x10) + cnj(z11)*abs(x11)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
xstepStep between each column for selection in the xbuffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmac2_max_c ( v2cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .

acc0 += cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01))
acc1 += cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmac2_max_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01))
acc1 += cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmac2_max_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01))
acc1 += cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmac2_maxdiff_c ( v2cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .

acc0 += cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0)
acc1 += cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmac2_maxdiff_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0)
acc1 += cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmac2_maxdiff_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0)
acc1 += cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmac2_min_c ( v2cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .

acc0 += cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01))
acc1 += cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmac2_min_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01))
acc1 += cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmac2_min_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01))
acc1 += cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmac4_abs_c ( v4cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .

acc0 += cnj(z00)*abs(x00)
acc1 += cnj(z10)*abs(x10)
acc2 += cnj(z20)*abs(x20)
acc3 += cnj(z30)*abs(x30)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmac4_abs_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*abs(x00)
acc1 += cnj(z10)*abs(x10)
acc2 += cnj(z20)*abs(x20)
acc3 += cnj(z30)*abs(x30)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmac4_max_c ( v4cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .

acc0 += cnj(z00)*(max(x00 , y00))
acc1 += cnj(z10)*(max(x10 , y10))
acc2 += cnj(z20)*(max(x20 , y20))
acc3 += cnj(z30)*(max(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmac4_max_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*(max(x00 , y00))
acc1 += cnj(z10)*(max(x10 , y10))
acc2 += cnj(z20)*(max(x20 , y20))
acc3 += cnj(z30)*(max(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmac4_max_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*(max(x00 , y00))
acc1 += cnj(z10)*(max(x10 , y10))
acc2 += cnj(z20)*(max(x20 , y20))
acc3 += cnj(z30)*(max(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmac4_maxdiff_c ( v4cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .

acc0 += cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0)
acc1 += cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0)
acc2 += cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0)
acc3 += cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmac4_maxdiff_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0)
acc1 += cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0)
acc2 += cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0)
acc3 += cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmac4_maxdiff_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0)
acc1 += cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0)
acc2 += cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0)
acc3 += cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmac4_min_c ( v4cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .

acc0 += cnj(z00)*(min(x00 , y00))
acc1 += cnj(z10)*(min(x10 , y10))
acc2 += cnj(z20)*(min(x20 , y20))
acc3 += cnj(z30)*(min(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmac4_min_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*(min(x00 , y00))
acc1 += cnj(z10)*(min(x10 , y10))
acc2 += cnj(z20)*(min(x20 , y20))
acc3 += cnj(z30)*(min(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmac4_min_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-accumulate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 += cnj(z00)*(min(x00 , y00))
acc1 += cnj(z10)*(min(x10 , y10))
acc2 += cnj(z20)*(min(x20 , y20))
acc3 += cnj(z30)*(min(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmsc2_abs_c ( v2cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .

acc0 -= cnj(z00)*abs(x00) + cnj(z01)*abs(x01)
acc1 -= cnj(z10)*abs(x10) + cnj(z11)*abs(x11)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
xstepStep between each column for selection in the xbuffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmsc2_abs_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*abs(x00) + cnj(z01)*abs(x01)
acc1 -= cnj(z10)*abs(x10) + cnj(z11)*abs(x11)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
xstepStep between each column for selection in the xbuffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmsc2_max_c ( v2cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .

acc0 -= cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01))
acc1 -= cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmsc2_max_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01))
acc1 -= cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmsc2_max_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01))
acc1 -= cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmsc2_maxdiff_c ( v2cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .

acc0 -= cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0)
acc1 -= cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmsc2_maxdiff_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0)
acc1 -= cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmsc2_maxdiff_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0)
acc1 -= cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmsc2_min_c ( v2cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .

acc0 -= cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01))
acc1 -= cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmsc2_min_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01))
acc1 -= cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmsc2_min_c ( v2cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01))
acc1 -= cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
accIncoming accumulation vector (2 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmsc4_abs_c ( v4cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .

acc0 -= cnj(z00)*abs(x00)
acc1 -= cnj(z10)*abs(x10)
acc2 -= cnj(z20)*abs(x20)
acc3 -= cnj(z30)*abs(x30)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmsc4_abs_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*abs(x00)
acc1 -= cnj(z10)*abs(x10)
acc2 -= cnj(z20)*abs(x20)
acc3 -= cnj(z30)*abs(x30)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmsc4_max_c ( v4cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .

acc0 -= cnj(z00)*(max(x00 , y00))
acc1 -= cnj(z10)*(max(x10 , y10))
acc2 -= cnj(z20)*(max(x20 , y20))
acc3 -= cnj(z30)*(max(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmsc4_max_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*(max(x00 , y00))
acc1 -= cnj(z10)*(max(x10 , y10))
acc2 -= cnj(z20)*(max(x20 , y20))
acc3 -= cnj(z30)*(max(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmsc4_max_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*(max(x00 , y00))
acc1 -= cnj(z10)*(max(x10 , y10))
acc2 -= cnj(z20)*(max(x20 , y20))
acc3 -= cnj(z30)*(max(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmsc4_maxdiff_c ( v4cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .

acc0 -= cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0)
acc1 -= cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0)
acc2 -= cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0)
acc3 -= cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmsc4_maxdiff_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0)
acc1 -= cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0)
acc2 -= cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0)
acc3 -= cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmsc4_maxdiff_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0)
acc1 -= cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0)
acc2 -= cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0)
acc3 -= cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmsc4_min_c ( v4cacc80  acc,
v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .

acc0 -= cnj(z00)*(min(x00 , y00))
acc1 -= cnj(z10)*(min(x10 , y10))
acc2 -= cnj(z20)*(min(x20 , y20))
acc3 -= cnj(z30)*(min(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmsc4_min_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*(min(x00 , y00))
acc1 -= cnj(z10)*(min(x10 , y10))
acc2 -= cnj(z20)*(min(x20 , y20))
acc3 -= cnj(z30)*(min(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmsc4_min_c ( v4cacc80  acc,
v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-subtract intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 -= cnj(z00)*(min(x00 , y00))
acc1 -= cnj(z10)*(min(x10 , y10))
acc2 -= cnj(z20)*(min(x20 , y20))
acc3 -= cnj(z30)*(min(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
accIncoming accumulation vector (4 x cint80 lanes)
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmul2_abs_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .

acc0 = cnj(z00)*abs(x00) + cnj(z01)*abs(x01)
acc1 = cnj(z10)*abs(x10) + cnj(z11)*abs(x11)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
xstepStep between each column for selection in the xbuffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmul2_abs_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*abs(x00) + cnj(z01)*abs(x01)
acc1 = cnj(z10)*abs(x10) + cnj(z11)*abs(x11)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
xstepStep between each column for selection in the xbuffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmul2_max_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .

acc0 = cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01))
acc1 = cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmul2_max_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01))
acc1 = cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmul2_max_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01))
acc1 = cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmul2_maxdiff_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .

acc0 = cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0)
acc1 = cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmul2_maxdiff_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0)
acc1 = cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmul2_maxdiff_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0)
acc1 = cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0)
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmul2_min_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .

acc0 = cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01))
acc1 = cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmul2_min_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01))
acc1 = cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lmul2_min_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01))
acc1 = cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11))
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmul4_abs_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .

acc0 = cnj(z00)*abs(x00)
acc1 = cnj(z10)*abs(x10)
acc2 = cnj(z20)*abs(x20)
acc3 = cnj(z30)*abs(x30)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmul4_abs_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*abs(x00)
acc1 = cnj(z10)*abs(x10)
acc2 = cnj(z20)*abs(x20)
acc3 = cnj(z30)*abs(x30)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmul4_max_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .

acc0 = cnj(z00)*(max(x00 , y00))
acc1 = cnj(z10)*(max(x10 , y10))
acc2 = cnj(z20)*(max(x20 , y20))
acc3 = cnj(z30)*(max(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmul4_max_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*(max(x00 , y00))
acc1 = cnj(z10)*(max(x10 , y10))
acc2 = cnj(z20)*(max(x20 , y20))
acc3 = cnj(z30)*(max(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmul4_max_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*(max(x00 , y00))
acc1 = cnj(z10)*(max(x10 , y10))
acc2 = cnj(z20)*(max(x20 , y20))
acc3 = cnj(z30)*(max(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmul4_maxdiff_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .

acc0 = cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0)
acc1 = cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0)
acc2 = cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0)
acc3 = cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmul4_maxdiff_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0)
acc1 = cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0)
acc2 = cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0)
acc3 = cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmul4_maxdiff_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0)
acc1 = cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0)
acc2 = cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0)
acc3 = cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0)
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmul4_min_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .

acc0 = cnj(z00)*(min(x00 , y00))
acc1 = cnj(z10)*(min(x10 , y10))
acc2 = cnj(z20)*(min(x20 , y20))
acc3 = cnj(z30)*(min(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmul4_min_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*(min(x00 , y00))
acc1 = cnj(z10)*(min(x10 , y10))
acc2 = cnj(z20)*(min(x20 , y20))
acc3 = cnj(z30)*(min(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lmul4_min_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 = cnj(z00)*(min(x00 , y00))
acc1 = cnj(z10)*(min(x10 , y10))
acc2 = cnj(z20)*(min(x20 , y20))
acc3 = cnj(z30)*(min(x30 , y30))
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lnegmul2_abs_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .

acc0 = -( cnj(z00)*abs(x00) + cnj(z01)*abs(x01) )
acc1 = -( cnj(z10)*abs(x10) + cnj(z11)*abs(x11) )
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
xstepStep between each column for selection in the xbuffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lnegmul2_abs_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*abs(x00) + cnj(z01)*abs(x01) )
acc1 = -( cnj(z10)*abs(x10) + cnj(z11)*abs(x11) )
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
xstepStep between each column for selection in the xbuffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lnegmul2_max_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .

acc0 = -( cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01)) )
acc1 = -( cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11)) )
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lnegmul2_max_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01)) )
acc1 = -( cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11)) )
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lnegmul2_max_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*(max(x00 , y00)) + cnj(z01)*(max(x01 , y01)) )
acc1 = -( cnj(z10)*(max(x10 , y10)) + cnj(z11)*(max(x11 , y11)) )
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lnegmul2_maxdiff_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .

acc0 = -( cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0) )
acc1 = -( cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0) )
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lnegmul2_maxdiff_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0) )
acc1 = -( cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0) )
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lnegmul2_maxdiff_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) + cnj(z01)*((x01 - y01 > 0) ? (x01 - y01):0) )
acc1 = -( cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) + cnj(z11)*((x11 - y11 > 0) ? (x11 - y11):0) )
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lnegmul2_min_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .

acc0 = -( cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01)) )
acc1 = -( cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11)) )
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lnegmul2_min_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01)) )
acc1 = -( cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11)) )
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v2cacc80 lnegmul2_min_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  xstep,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets,
int  zstep 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*(min(x00 , y00)) + cnj(z01)*(min(x01 , y01)) )
acc1 = -( cnj(z10)*(min(x10 , y10)) + cnj(z11)*(min(x11 , y11)) )
Returns
Returned accumulation vector (2 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
xstepStep between each column for selection in the x and y buffers. Ystep is symmetric to xstep (ystep advances by -xstep).
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
zstepStep between each column for selection in the zbuffer.
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lnegmul4_abs_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer .

acc0 = -( cnj(z00)*abs(x00) )
acc1 = -( cnj(z10)*abs(x10) )
acc2 = -( cnj(z20)*abs(x20) )
acc3 = -( cnj(z30)*abs(x30) )
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lnegmul4_abs_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the absolute value in the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*abs(x00) )
acc1 = -( cnj(z10)*abs(x10) )
acc2 = -( cnj(z20)*abs(x20) )
acc3 = -( cnj(z30)*abs(x30) )
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to the x buffer. LSB apply to first lane
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lnegmul4_max_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer .

acc0 = -( cnj(z00)*(max(x00 , y00)) )
acc1 = -( cnj(z10)*(max(x10 , y10)) )
acc2 = -( cnj(z20)*(max(x20 , y20)) )
acc3 = -( cnj(z30)*(max(x30 , y30)) )
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lnegmul4_max_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*(max(x00 , y00)) )
acc1 = -( cnj(z10)*(max(x10 , y10)) )
acc2 = -( cnj(z20)*(max(x20 , y20)) )
acc3 = -( cnj(z30)*(max(x30 , y30)) )
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lnegmul4_max_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*(max(x00 , y00)) )
acc1 = -( cnj(z10)*(max(x10 , y10)) )
acc2 = -( cnj(z20)*(max(x20 , y20)) )
acc3 = -( cnj(z30)*(max(x30 , y30)) )
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lnegmul4_maxdiff_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer .

acc0 = -( cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) )
acc1 = -( cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) )
acc2 = -( cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0) )
acc3 = -( cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0) )
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lnegmul4_maxdiff_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) )
acc1 = -( cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) )
acc2 = -( cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0) )
acc3 = -( cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0) )
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lnegmul4_maxdiff_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the maximum difference between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*((x00 - y00 > 0) ? (x00 - y00):0) )
acc1 = -( cnj(z10)*((x10 - y10 > 0) ? (x10 - y10):0) )
acc2 = -( cnj(z20)*((x20 - y20 > 0) ? (x20 - y20):0) )
acc3 = -( cnj(z30)*((x30 - y30 > 0) ? (x30 - y30):0) )
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lnegmul4_min_c ( v32int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer .

acc0 = -( cnj(z00)*(min(x00 , y00)) )
acc1 = -( cnj(z10)*(min(x10 , y10)) )
acc2 = -( cnj(z20)*(min(x20 , y20)) )
acc3 = -( cnj(z30)*(min(x30 , y30)) )
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 32 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lnegmul4_min_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*(min(x00 , y00)) )
acc1 = -( cnj(z10)*(min(x10 , y10)) )
acc2 = -( cnj(z20)*(min(x20 , y20)) )
acc3 = -( cnj(z30)*(min(x30 , y30)) )
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.
v4cacc80 lnegmul4_min_c ( v16int32  xbuff,
int  xstart,
unsigned int  xoffsets,
v16int32  ybuff,
int  ystart,
v4cint32  zbuff,
int  zstart,
unsigned int  zoffsets 
)

Complex multiply-negate intrinsic function with z buffer conjugation after computing the minimum between the selected lanes from the input buffer using small X input buffer.

acc0 = -( cnj(z00)*(min(x00 , y00)) )
acc1 = -( cnj(z10)*(min(x10 , y10)) )
acc2 = -( cnj(z20)*(min(x20 , y20)) )
acc3 = -( cnj(z30)*(min(x30 , y30)) )
Returns
Returned accumulation vector (4 x cint80 lanes)
Parameters
xbuffInput buffer of 16 elements of type int32
xstartStarting position offset applied to all lanes of input from X buffer.
xoffsets4b offset for each lane, applied to both x and y buffers. LSB apply to first lane
ybuffRight input buffer of 16 elements of type int32
ystartStarting position offset applied to all lanes for input from Y buffer.
zbuffInput buffer of 4 elements of type cint32
zstartStarting position offset applied to all lanes for input from Z buffer. This must be a compile time constant. Only the 4 LSB of the argument are used.
zoffsets4b offset for each lane, applied to input from Z buffer. LSB apply to first lane
Note
  • For more information on how data selection works from the buffers go here. The data buffer and coefficient buffer in this intrinsic use the general scheme.
  • Parameter 'zstart' must be a compile time constant.