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// This file is part of www.nand2tetris.org
// and the book "The Elements of Computing Systems"
// by Nisan and Schocken, MIT Press.
// File name: projects/05/CPU.hdl
/**
* The Hack CPU (Central Processing unit), consisting of an ALU,
* two registers named A and D, and a program counter named PC.
* The CPU is designed to fetch and execute instructions written in
* the Hack machine language. In particular, functions as follows:
* Executes the inputted instruction according to the Hack machine
* language specification. The D and A in the language specification
* refer to CPU-resident registers, while M refers to the external
* memory location addressed by A, i.e. to Memory[A]. The inM input
* holds the value of this location. If the current instruction needs
* to write a value to M, the value is placed in outM, the address
* of the target location is placed in the addressM output, and the
* writeM control bit is asserted. (When writeM==0, any value may
* appear in outM). The outM and writeM outputs are combinational:
* they are affected instantaneously by the execution of the current
* instruction. The addressM and pc outputs are clocked: although they
* are affected by the execution of the current instruction, they commit
* to their new values only in the next time step. If reset==1 then the
* CPU jumps to address 0 (i.e. pc is set to 0 in next time step) rather
* than to the address resulting from executing the current instruction.
*/
CHIP CPU {
IN inM[16], // M value input (M = contents of RAM[A])
instruction[16], // Instruction for execution
reset; // Signals whether to re-start the current
// program (reset==1) or continue executing
// the current program (reset==0).
OUT outM[16], // M value output
writeM, // Write to M?
addressM[15], // Address in data memory (of M)
pc[15]; // address of next instruction
PARTS:
// Put your code here:
}
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