Parallel Instruction Set Summary
13-18
Table 13–9. Parallel Instruction Set Summary (Continued)
(a) Parallel arithmetic with store instructions (Continued)
Mnemonic
Description
Operation
LDF
|| STF
Load floating-point value
src2
→
dst1
||
src3
→
dst2
LDI
|| STI
Load integer
src2
→
dst1
||
src3
→
dst2
LSH3
|| STI
Logical shift
If
count
≥
0:
src2 << count
→
dst1
||
src3
→
dst2
Else:
src2 >> |count|
→
dst1
||
src3
→
dst2
MPYF3
|| STF
Multiply floating-point value
src1 x src2
→
dst1
||
src3
→
dst2
MPYI3
||
STI
Multiply integer
src1 x src2
→
dst1
||
src3
→
dst2
NEGF
|| STF
Negate floating-point value
0 –
src2
→
dst1
||
src3
→
dst2
NEGI
|| STI
Negate integer
0 –
src2
→
dst1
||
src3
→
dst2
NOT
|| STI
Complement
src1
→
dst1
||
src3
→
dst2
OR3
|| STI
Bitwise-logical OR
src1 OR src2
→
dst1
||
src3
→
dst2
STF
||
STF
Store floating-point value
src1
→
dst1
||
src3
→
dst2
STI
||
STI
Store integer
src1
→
dst1
||
src3
→
dst2
Legend:
count
register addr (R7–R0)
op3
register addr (R0 or R1)
dst1
register addr (R7–R0)
op6
register addr (R2 or R3)
dst2
indirect addr (
disp = 0, 1, IR0, IR1)
src1
register addr (R7–R0)
op1, op2, op4, and op5
src2
indirect addr (
disp = 0, 1, IR0, IR1)
Any two of these operands must be
src3
register addr (R7–R0)
specified using register addr; the remaining
two must be specified using indirect.
