Difference between revisions of "Lab 3: ALU Flags"
| Line 20: | Line 20: | ||
# Download the '''ALU template''' in UVLe. | # Download the '''ALU template''' in UVLe. | ||
# Enter the alu block provided in Logisim. | # Enter the alu block provided in Logisim. | ||
| − | # Implement | + | # Implement a 4-bit ALU that can perform ADD, SUBTRACT, Bitwise AND, and Bitwise OR, depending on the input ALU_OP. Make sure it follows the table below. |
# Implement the 4 flags Z, N, C, O. | # Implement the 4 flags Z, N, C, O. | ||
Revision as of 19:42, 4 March 2025
Background
Arithmetic Logic Units, or ALUs, are blocks in our computer processors that are the main components responsible for computing binary arithmetic. It isn't a stretch to say that ALUs are responsible for the most computations in the modern world.
An ALU has three inputs: the two operands, and an operation type (ALU_OP in the Figure). The ALU_OP tells the ALU what to do to the operands, like add, subtract, multiply, or divide. It has one output which is the output of the ALU operation.
Additionally, the ALU has special outputs called flags (STATUS in the Figure). Some examples include:
- Zero flag (Z): 1 if the result is zero.
- Negative flag (N): 1 if the result is negative.
- Carry flag (C): Carry out of the ALU operation. Example: 1100 + 1001 will cause the carry flag to be set.
- Overflow flag (O): 1 if the result has an overflow or an underflow. That is, the binary output arithmetic is not correctly representable in the current bitwidth. Example: 0111 (7) + 0001 (1) = 1000 (-8), or 1000 (-8) + 1110 (-2) = 0110 (6) will cause the overflow flag to be set.
Instructions: Part 1
In the first part of the assignment, you must create a 4-bit ALU block.
- Download the ALU template in UVLe.
- Enter the alu block provided in Logisim.
- Implement a 4-bit ALU that can perform ADD, SUBTRACT, Bitwise AND, and Bitwise OR, depending on the input ALU_OP. Make sure it follows the table below.
- Implement the 4 flags Z, N, C, O.
| Operation | ALU_OP | Expression |
|---|---|---|
| ADD | 00 | RA + RB |
| SUB | 01 | RA - RB |
| Bitwise AND | 10 | RA & RB |
| Bitwise OR | 11 | RB |
Do NOT use blocks from the arithmetic library in Logisim.
Instructions: Part 2
In the second part, you are to create the double_dec_decoder block. This decoder block decodes the 4-bit ALU output into a two-digit decimal 7-segment display.
- Enter the double_dec_decoder block.
- You may use any decoders, arithmetic blocks, or muxes to create the output.
- Use a splitter in reverse to merge the outputs you create into the decoded_top and decoded_bot signals.
- You may check if your circuit is correct by going back to the main circuit.
You may use any blocks from Arithmetic and Plexers, but not from BFH mega functions.
Notes:
- Again, do not move any input or output pins in the template.
- A bitwise OR example: 0011 | 1000 = 1011
- A bitwise AND example: 0111 & 0101 = 0101
