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PEP8 Simulator Assignment

PEP8 SIMULATOR ASSIGNMENT

GOAL: Write a PEP/8 machine language simulator that simulates the PEP/8 computer and instruction set for only the following instructions:

Instruction Specifier     Instruction     Addressing Modes     Status Bits
0000 0000     Stop execution               NA   
0001 100r     Bitwise invert r                 NA                    NZ
0001 110r     Arithmetic shift left r       NA                  NZVC
0001 111r     Arithmetic shift right r       NA                NZC
0010 000r     Rotate left r                       NA                    C
0010 001r     Rotate right r                       NA                    C
0011 0aaa     Decimal input trap                   d                NZV
0011 1aaa     Decimal output trap       d, i   
0100 1aaa     Character input                 d   
0101 0aaa     Character output               d, i   
0111 raaa     Add to r                                 d, i              NZVC
1000 raaa     Subtract from r                   d, i            NZVC
1001 raaa     Bitwise AND to r                 d, i              NZ
1010 raaa     Bitwise OR to r                 d, i            NZ
1100 raaa     Load r from memory           d, i            NZ
1101 raaa     Load byte from memory           d, i                      NZ
1110 raaa     Store r to memory                   d   
1111 raaa     Store byte r to memory             d   

Here are some specifics.

1.    Use an array to represent the memory.
2.    Use variables or arrays for the PEP8 registers. I recommend putting it all into a structure. I also recommend using an array of 16 bit values for A, X, PC, SP so that you can use the r bit from the instructions to point directly to A or X. You do NOT have to include the Status bits.
3.    Use unions of structures to break up the registers and instructions into the correct bits (for example, use a structure that can be unioned to break up the 8 bit specifier into the following bit combos (4, 1, 3), (5, 3), (7, 1), (8). This will allow you to instantly extract the instruction, register and addressing modes from each instruction. Also use a union to break up the 16 bit operand into two 8 bit values.
4.    Have the instructions be inputted either through the command line or better yet, through a file, in the following format for each instruction:
a.    6 Hexadecimal characters per instruction
5.    After each instruction in the program is executed, output the PEP8 machine register values.

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