2021-12-23 14:14:21 +00:00
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// This file is part of www.nand2tetris.org
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// and the book "The Elements of Computing Systems"
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// by Nisan and Schocken, MIT Press.
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// File name: projects/02/ALU.hdl
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/**
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* The ALU (Arithmetic Logic Unit).
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* Computes one of the following functions:
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* x+y, x-y, y-x, 0, 1, -1, x, y, -x, -y, !x, !y,
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* x+1, y+1, x-1, y-1, x&y, x|y on two 16-bit inputs,
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* according to 6 input bits denoted zx,nx,zy,ny,f,no.
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* In addition, the ALU computes two 1-bit outputs:
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* if the ALU output == 0, zr is set to 1; otherwise zr is set to 0;
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* if the ALU output < 0, ng is set to 1; otherwise ng is set to 0.
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*/
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// Implementation: the ALU logic manipulates the x and y inputs
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// and operates on the resulting values, as follows:
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// if (zx == 1) set x = 0 // 16-bit constant
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// if (nx == 1) set x = !x // bitwise not
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// if (zy == 1) set y = 0 // 16-bit constant
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// if (ny == 1) set y = !y // bitwise not
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// if (f == 1) set out = x + y // integer 2's complement addition
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// if (f == 0) set out = x & y // bitwise and
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// if (no == 1) set out = !out // bitwise not
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// if (out == 0) set zr = 1
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// if (out < 0) set ng = 1
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CHIP ALU {
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IN
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x[16], y[16], // 16-bit inputs
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zx, // zero the x input?
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nx, // negate the x input?
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zy, // zero the y input?
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ny, // negate the y input?
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f, // compute out = x + y (if 1) or x & y (if 0)
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no; // negate the out output?
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OUT
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out[16], // 16-bit output
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zr, // 1 if (out == 0), 0 otherwise
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ng; // 1 if (out < 0), 0 otherwise
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PARTS:
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// Put you code here:
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Mux16(a=x, b=false, sel=zx, out=xa);
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Not16(in=xa, out=xb);
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Mux16(a=xa, b=xb, sel=nx, out=xc);
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Mux16(a=y, b=false, sel=zy, out=ya);
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Not16(in=ya, out=yb);
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Mux16(a=ya, b=yb, sel=ny, out=yc);
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And16(a=xc, b=yc, out=xandy);
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Add16(a=xc, b=yc, out=xplusy);
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Mux16(a=xandy, b=xplusy, sel=f, out=xf);
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Not16(in=xf, out=xn);
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Mux16(a=xf, b=xn, sel=no, out=out, out[15]=ngr, out[0..7]=zri, out[8..15]=zrj);
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Or8Way(in=zri, out=zrm);
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Or8Way(in=zrj, out=zrn);
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Or(a=zrm, b=zrn, out=zro);
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Not(in=zro, out=zr);
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Mux(a=false, b=true, sel=ngr, out=ng);
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}
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