TriCore
®
TC1.6P & TC1.6E
32-bit Unified Processor Core
Instruction Set
V1.0 2013-07
User Manual (Volume 2) 3-282
MULM.H
Packed Multiply Q Format-Multi-precision
Description
Perform two multiplications of two signed 16-bit (half-word) values. Add the two products (left justified if n == 1)
left-shifted by 16, in a 64-bit register. There are four cases of half-word multiplication:
• 16U * 16U, 16L * 16L
• 16U * 16L, 16L * 16U
• 16U * 16L, 16L * 16L
• 16L * 16U, 16U * 16U
Note that n should only take the values 0 or 1, any other value returns an undefined result. If (n == 1) then 8000
H
* 8000
H
= 7FFFFFFF
H
(for signed 16-bit * 16-bit multiplications only).
MULM.HE[c], D[a], D[b] LL, n (RR1)
16U * 16L + 16L * 16L --> 64
sc1 = (D[a][31:16] == 8000
H
) AND (D[b][15:0] == 8000
H
) AND (n == 1);
sc0 = (D[a][15:0] == 8000
H
) AND (D[b][15:0] == 8000
H
) AND (n == 1);
result_word1 = sc1 ? 7FFFFFFF
H
: ((D[a][31:16] * D[b][15:0]) << n);
result_word0 = sc0 ? 7FFFFFFF
H
: ((D[a][15:0] * D[b][15:0]) << n);
result = (result_word1 + result_word0) << 16;
E[c] = result[63:0]; // Multi-precision accumulator
MULM.HE[c], D[a], D[b] LU, n (RR1)
16U * 16L + 16L * 16U --> 64
sc1 = (D[a][31:16] == 8000
H
) AND (D[b][15:0] == 8000
H
) AND (n == 1);
sc0 = (D[a][15:0] == 8000
H
) AND (D[b][31:16] == 8000
H
) AND (n == 1);
result_word1 = sc1 ? 7FFFFFFF
H
: ((D[a][31:16] * D[b][15:0]) << n);
result_word0 = sc0 ? 7FFFFFFF
H
: ((D[a][15:0] * D[b][31:16]) << n);
result = (result_word1 + result_word0) << 16;
E[c] = result[63:0]; // Multi-precision accumulator
MULM.HE[c], D[a], D[b] UL, n (RR1)
16U * 16U + 16L * 16L --> 64
sc1 = (D[a][31:16] == 8000
H
) AND (D[b][31:16] == 8000
H
) AND (n == 1);
sc0 = (D[a][15:0] == 8000
H
) AND (D[b][15:0] == 8000
H
) AND (n == 1);
result_word1 = sc1 ? 7FFFFFFF
H
: ((D[a][31:16] * D[b][31:16]) << n);
31
c
28 27
1E
H
18 17
n
16 15
b
12 11
a
8 7
B3
H
0
31
c
28 27
1D
H
18 17
n
16 15
b
12 11
a
8 7
B3
H
0
31
c
28 27
1C
H
18 17
n
16 15
b
12 11
a
8 7
B3
H
0
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