C8051F367-GM2 View Datasheet(PDF) - Silicon Laboratories
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MFG CO.
'C8051F367-GM2' PDF : 288 Pages View PDF
C8051F360/1/2/3/4/5/6/7/8/9
11.6. Rounding and Saturation
A Rounding Engine is included, which can be used to provide a rounded result when operating on frac-
tional numbers. MAC0 uses an unbiased rounding algorithm to round the data stored in bits 31–16 of the
accumulator, as shown in Table 11.1. Rounding occurs during the third stage of the MAC0 pipeline, after
any shift operation, or on a write to the LSB of the accumulator. The rounded results are stored in the
rounding registers: MAC0RNDH (SFR Definition 11.12) and MAC0RNDL (SFR Definition 11.13). The accu-
mulator registers are not affected by the rounding engine. Although rounding is primarily used for fractional
data, the data in the rounding registers is updated in the same way when operating in integer mode.
Table 11.1. MAC0 Rounding (MAC0SAT = 0)
Accumulator Bits 15–0 Accumulator Bits 31–16 Rounding
Rounded Results
(MAC0ACC1:MAC0ACC0) (MAC0ACC3:MAC0ACC2) Direction (MAC0RNDH:MAC0RNDL)
Greater Than 0x8000
Anything
Up
(MAC0ACC3:MAC0ACC2) + 1
Less Than 0x8000
Anything
Down
(MAC0ACC3:MAC0ACC2)
Equal To 0x8000
Odd (LSB = 1)
Up
(MAC0ACC3:MAC0ACC2) + 1
Equal To 0x8000
Even (LSB = 0)
Down
(MAC0ACC3:MAC0ACC2)
The rounding engine can also be used to saturate the results stored in the rounding registers. If the
MAC0SAT bit is set to ‘1’ and the rounding register overflows, the rounding registers will saturate. When a
positive overflow occurs, the rounding registers will show a value of 0x7FFF when saturated. For a nega-
tive overflow, the rounding registers will show a value of 0x8000 when saturated. If the MAC0SAT bit is
cleared to ‘0’, the rounding registers will not saturate.
11.7. Usage Examples
This section details some software examples for using MAC0. Section 11.7.1 shows a series of two MAC
operations using fractional numbers. Section 11.7.2 shows a single operation in Multiply Only mode with
integer numbers. The last example, shown in Section 11.7.3, demonstrates how the left-shift and right-shift
operations can be used to modify the accumulator. All of the examples assume that all of the flags in the
MAC0STA register are initially set to ‘0’.
11.7.1. Multiply and Accumulate Example
The example below implements the equation:
(0.5 × 0.25) + (0.5 × –0.25) = 0.125 – 0.125 = 0.0
MOV MAC0CF, #0Ah
MOV MAC0AH, #40h
MOV MAC0AL, #00h
MOV MAC0BH, #20h
MOV MAC0BL, #00h
MOV MAC0BH, #E0h
MOV MAC0BL, #00h
NOP
NOP
NOP
; Set to Clear Accumulator, Use fractional numbers
; Load MAC0A register with 4000 hex = 0.5 decimal
; Load MAC0B register with 2000 hex = 0.25 decimal
; This line initiates the first MAC operation
; Load MAC0B register with E000 hex = -0.25 decimal
; This line initiates the second MAC operation
; After this instruction, the Accumulator should be equal to 0,
; and the MAC0STA register should be 0x04, indicating a zero
; After this instruction, the Rounding register is updated
120
Rev. 1.0
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