|
MSA 011110 |
1110 |
df |
wt |
ws |
wd |
3RF 011010 |
|
6 |
4 |
1 |
5 |
5 |
5 |
6 |
FSLE.df |
Vector Floating-Point Signaling Compare Less or Equal | |
FSLE.W wd,ws,wt |
MSA |
Vector Floating-Point Signaling Compare Less or Equal |
FSLE.D wd,ws,wt |
MSA |
Vector Floating-Point Signaling Compare Less or Equal |
Vector Floating-Point Signaling Compare Less or Equal
Vector to vector floating-point signaling compare for less than or equal; if true all destination bits are set, otherwise clear.
wd[i] = (ws[i] <=(signaling) wt[i])
Set all bits to 1 in wd elements if the corresponding ws floating-point elements are less than or equal to wt floatingpoint elements, otherwise set all bits to 0.
The signaling compare operation is defined by the IEEE Standard for Floating-Point Arithmetic 754TM-2008.
The Inexact Exception is not signaled when subnormal input operands are flushed based on the flush-to-zero bit FS in
MSA Control and Status Register MSACSR. In case of a floating-point exception, the default result has all bits set to
0.
The operands are values in floating-point data format df. The results are values in integer data format df.
Data-dependent exceptions are poss ible as s pecified by the I EEE Standard for Floating-Point Arithmetic 754TM
2008.
FSLE.W
for i in 0 .. WRLEN/32-1
c = LessSigFP(WR[ws]32i+31..32i, WR[wt]32i+31..32i, 32)
d = EqualSigFP(WR[ws]32i+31..32i, WR[wt]32i+31..32i, 32)
WR[wd]32i+31..32i = (c | d)32
endfor
FSLE.D
for i in 0 .. WRLEN/64-1
c = LessSigFP(WR[ws]64i+63..64i, WR[wt]64i+63..64i, 64)
d = EqualSigFP(WR[ws]64i+63..64i, WR[wt]64i+63..64i, 64)
WR[wd]64i+63..64i = (c | d)64
endfor
function LessThanSigFP(tt, ts, n)
/* Implementation defined signaling less than compare operation. */
endfunction LessThanSigFP
function EqualSigFP(tt, ts, n)
/* Implementation defined signaling equal compare operation. */
endfunction EqualSigFP
Reserved Instruction Exception, MSA Disabled Exception, MSA Floating Point Exception.