Computation Unit
2-7
MSP50C6xx Architecture
Figure 2–3. Overview of the Multiplier Unit Operation
MULTIPLIER UNIT INPUTS
Multiplicand 16-bit
- latched in a write-only register
from one of the following sources ...
Data Memory
Accumulator
Offset Accumulator
X
Multiplier
- writeable and readable by Data Memory
as one of the following ...
Multiplier Register†
Shift Value Register
or
MULTIPLYING:
16-bit
4-bit
SHIFTING:
(MR)
(SV)
MULTIPLIER UNIT
performs multiplication and barrel shifting
MULTIPLIER UNIT INPUTS
MSB 16-bit
LSB 16-bit
- readable and writeable by Data Memory
- a simulated register: PL is realized in ALU-A
- readable and writeable by ALU-A
(PH) Product High
(PL) Product Low
† Also write-able by Program Memory
2.2.2
Arithmetic Logic Unit
The arithmetic logic unit is the focal point of the computational unit, where data
can be added, subtracted, and compared. Logical operations can also be
performed by the ALU. The basic hardware word-length of the ALU is 16 bits;
however, most ALU instructions can also operate on strings of 16-bit words
(i.e., a series or array of values). The ALU operates in conjunction with a
flexible, 16-bit accumulator register block. The accumulator register block is
composed of thirty-two, 16-bit registers which further enhances execution and
promotes compact code.
The ALU has two distinct input paths, denoted ALU-A and ALU-B (see
Figure-2–4). The ALU-A input selects between all zeros, the internal databus,
the product high register (PH), the product low (PL), or the offset output of the
accumulator register block. The ALU-B input selects between all zeros and the
output from the accumulator register block.
Summary of Contents for MSP50C6xx
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