Hex Notation in Computing: Understanding the Basics

What will be the content of variables A, B, the WREG, and the states of the status bits Z and C after execution of the following instructions?

The given code snippet consists of three instructions:

  1. movf A, W: This instruction moves the contents of variable A to the WREG (Working Register).
  2. addwf B, W: This instruction adds the contents of variable B to the WREG.
  3. movwf A: This instruction moves the contents of the WREG to variable A.

Write the answers in hex notation.

Answer:

WREG = 0x00

A = 0x00

B = 0x80

Z = 1

C = 1

The provided code snippet involves manipulating the contents of variables A and B using hexadecimal notation. Let's break down the instructions and analyze the resulting values:

movf A, W:

This instruction moves the content of variable A (0x80) to the WREG. Therefore, the WREG now contains 0x80.

addwf B, W:

Next, the contents of variable B (0x80) are added to the WREG, resulting in a total of 0x100. However, in hexadecimal notation, the value 0x100 is represented as 0x00 due to the limited space for representation. As a result of the addition, the Carry (C) flag in the status register is set to 1.

movwf A:

Finally, the content of the WREG (0x00) is moved back to variable A. Therefore, variable A now holds the value 0x00.

To summarize:

  • WREG = 0x00
  • A = 0x00
  • B = 0x80
  • Z = 1 (indicating that A is now 0)
  • C = 1 (due to the carry generated during addition)

Hexadecimal notation, or hex notation, plays a crucial role in computing by providing a compact and human-readable way to represent binary data. Each hexadecimal digit corresponds to four bits, making it a convenient system for expressing byte values and other binary information. Understanding hex notation is essential for working with low-level programming languages, digital systems, and various aspects of computer science.

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