ATMEGA8_08 Datasheet, PDF(11/308 Page) ATMEL Corporation – 8-bit with 8K Bytes In-System Programmable Flash

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ATMEGA8_08 Datasheet, PDF (11/308 Pages) ATMEL Corporation – 8-bit with 8K Bytes In-System Programmable Flash

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ATmega8(L)

Arithmetic Logic

Unit â ALU

Status Register

The high-performance AVR ALU operates in direct connection with all the 32 general purpose

working registers. Within a single clock cycle, arithmetic operations between general purpose

registers or between a register and an immediate are executed. The ALU operations are divided

into three main categories â arithmetic, logical, and bit-functions. Some implementations of the

architecture also provide a powerful multiplier supporting both signed/unsigned multiplication

and fractional format. See the âInstruction Setâ section for a detailed description.

The Status Register contains information about the result of the most recently executed arith-

metic instruction. This information can be used for altering program flow in order to perform

conditional operations. Note that the Status Register is updated after all ALU operations, as

specified in the Instruction Set Reference. This will in many cases remove the need for using the

dedicated compare instructions, resulting in faster and more compact code.

The Status Register is not automatically stored when entering an interrupt routine and restored

when returning from an interrupt. This must be handled by software.

The AVR Status Register â SREG â is defined as:

Bit

Read/Write

Initial Value

7

6

5

4

3

2

1

0

I

T

H

S

V

N

Z

C

SREG

R/W

R/W

R/W

R/W

R/W

R/W

R/W

R/W

0

0

0

0

0

0

0

0

â¢ Bit 7 â I: Global Interrupt Enable

The Global Interrupt Enable bit must be set for the interrupts to be enabled. The individual inter-

rupt enable control is then performed in separate control registers. If the Global Interrupt Enable

Register is cleared, none of the interrupts are enabled independent of the individual interrupt

enable settings. The I-bit is cleared by hardware after an interrupt has occurred, and is set by

the RETI instruction to enable subsequent interrupts. The I-bit can also be set and cleared by

the application with the SEI and CLI instructions, as described in the Instruction Set Reference.

â¢ Bit 6 â T: Bit Copy Storage

The Bit Copy instructions BLD (Bit LoaD) and BST (Bit STore) use the T-bit as source or desti-

nation for the operated bit. A bit from a register in the Register File can be copied into T by the

BST instruction, and a bit in T can be copied into a bit in a register in the Register File by the

BLD instruction.

â¢ Bit 5 â H: Half Carry Flag

The Half Carry Flag H indicates a Half Carry in some arithmetic operations. Half Carry is useful

in BCD arithmetic. See the âInstruction Set Descriptionâ for detailed information.

â¢ Bit 4 â S: Sign Bit, S = N â V

The S-bit is always an exclusive or between the Negative Flag N and the Twoâs Complement

Overflow Flag V. See the âInstruction Set Descriptionâ for detailed information.

â¢ Bit 3 â V: Twoâs Complement Overflow Flag

The Twoâs Complement Overflow Flag V supports twoâs complement arithmetics. See the

âInstruction Set Descriptionâ for detailed information.

â¢ Bit 2 â N: Negative Flag

The Negative Flag N indicates a negative result in an arithmetic or logic operation. See the

âInstruction Set Descriptionâ for detailed information.

â¢ Bit 1 â Z: Zero Flag

The Zero Flag Z indicates a zero result in an arithmetic or logic operation. See the âInstruction

Set Descriptionâ for detailed information.

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2486TâAVRâ05/08

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