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feat: project 5 start

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Jonas
2026-02-05 13:57:30 +01:00
parent de9a24a50a
commit 3a97f5922f
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20
project-3-sequential-logic/hdl/Bit.hdl Executable file
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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/3/a/Bit.hdl
/**
* 1-bit register:
* If load is asserted, the register's value is set to in;
* Otherwise, the register maintains its current value:
* if (load(t)) out(t+1) = in(t), else out(t+1) = out(t)
*/
CHIP Bit {
IN in, load;
OUT out;
PARTS:
Mux(a=dffOut, b= in, sel=load, out=muxOut);
DFF(in=muxOut,out=dffOut, out=out);
}

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project-3-sequential-logic/hdl/PC.hdl Executable file
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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/3/a/PC.hdl
/**
* A 16-bit counter.
* if reset(t): out(t+1) = 0
* else if load(t): out(t+1) = in(t)
* else if inc(t): out(t+1) = out(t) + 1
* else out(t+1) = out(t)
*/
/*
* Personal Notes
*
*
*/
CHIP PC {
IN in[16], reset, load, inc;
OUT out[16];
PARTS:
// Inc
Inc16(in=regOut, out=inc16Out);
Mux16(a=regOut, b=inc16Out, sel=inc, out=incOut);
// Load
Mux16(a=incOut, b=in, sel=load, out=loadOut);
// Reset
Mux16(a=loadOut, b[0..15]=false, sel=reset, out=resetOut);
Register(in=resetOut, load=true , out=regOut, out=out);
}

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project-3-sequential-logic/hdl/RAM16K.hdl Executable file
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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/3/b/RAM16K.hdl
/**
* Memory of 16K 16-bit registers.
* If load is asserted, the value of the register selected by
* address is set to in; Otherwise, the value does not change.
* The value of the selected register is emitted by out.
*/
CHIP RAM16K {
IN in[16], load, address[14];
OUT out[16];
PARTS:
// Figuring out which RAM4k to write to
DMux4Way(
in=load,
sel=address[12..13],
a=load01,
b=load02,
c=load03,
d=load04
);
// Writing the correct RAM address inside the register
RAM4K(in=in, load=load01, address=address[0..11],out=ram4Kout01);
RAM4K(in=in, load=load02, address=address[0..11],out=ram4Kout02);
RAM4K(in=in, load=load03, address=address[0..11],out=ram4Kout03);
RAM4K(in=in, load=load04, address=address[0..11],out=ram4Kout04);
// Reading the selected RAM Register
Mux4Way16(
a=ram4Kout01,
b=ram4Kout02,
c=ram4Kout03,
d=ram4Kout04,
sel=address[12..13],
out=out
);
}

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project-3-sequential-logic/hdl/RAM4K.hdl Executable file
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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/3/b/RAM4K.hdl
/**
* Memory of 4K 16-bit registers.
* If load is asserted, the value of the register selected by
* address is set to in; Otherwise, the value does not change.
* The value of the selected register is emitted by out.
*/
CHIP RAM4K {
IN in[16], load, address[12];
OUT out[16];
PARTS:
// Figuring out which RAM512 to write to
DMux8Way(
in=load,
sel=address[9..11],
a=load01,
b=load02,
c=load03,
d=load04,
e=load05,
f=load06,
g=load07,
h=load08
);
// Writing the correct RAM address inside the register
RAM512(in=in, load=load01, address=address[0..8],out=ram512out01);
RAM512(in=in, load=load02, address=address[0..8],out=ram512out02);
RAM512(in=in, load=load03, address=address[0..8],out=ram512out03);
RAM512(in=in, load=load04, address=address[0..8],out=ram512out04);
RAM512(in=in, load=load05, address=address[0..8],out=ram512out05);
RAM512(in=in, load=load06, address=address[0..8],out=ram512out06);
RAM512(in=in, load=load07, address=address[0..8],out=ram512out07);
RAM512(in=in, load=load08, address=address[0..8],out=ram512out08);
// Reading the selected RAM Register
Mux8Way16(
a=ram512out01,
b=ram512out02,
c=ram512out03,
d=ram512out04,
e=ram512out05,
f=ram512out06,
g=ram512out07,
h=ram512out08,
sel=address[9..11],
out=out
);
}

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project-3-sequential-logic/hdl/RAM512.hdl Executable file
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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/3/b/RAM512.hdl
/**
* Memory of 512 16-bit registers.
* If load is asserted, the value of the register selected by
* address is set to in; Otherwise, the value does not change.
* The value of the selected register is emitted by out.
*/
CHIP RAM512 {
IN in[16], load, address[9];
OUT out[16];
PARTS:
// Figuring out which RAM64 to write to
DMux8Way(
in=load,
sel=address[6..8],
a=load01,
b=load02,
c=load03,
d=load04,
e=load05,
f=load06,
g=load07,
h=load08
);
// Writing the correct RAM address inside the register
RAM64(in=in, load=load01, address=address[0..5],out=ram64out01);
RAM64(in=in, load=load02, address=address[0..5],out=ram64out02);
RAM64(in=in, load=load03, address=address[0..5],out=ram64out03);
RAM64(in=in, load=load04, address=address[0..5],out=ram64out04);
RAM64(in=in, load=load05, address=address[0..5],out=ram64out05);
RAM64(in=in, load=load06, address=address[0..5],out=ram64out06);
RAM64(in=in, load=load07, address=address[0..5],out=ram64out07);
RAM64(in=in, load=load08, address=address[0..5],out=ram64out08);
// Reading the selected RAM Register
Mux8Way16(
a=ram64out01,
b=ram64out02,
c=ram64out03,
d=ram64out04,
e=ram64out05,
f=ram64out06,
g=ram64out07,
h=ram64out08,
sel=address[6..8],
out=out
);
}

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project-3-sequential-logic/hdl/RAM64.hdl Executable file
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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/3/a/RAM64.hdl
/**
* Memory of sixty four 16-bit registers.
* If load is asserted, the value of the register selected by
* address is set to in; Otherwise, the value does not change.
* The value of the selected register is emitted by out.
*/
CHIP RAM64 {
IN in[16], load, address[6];
OUT out[16];
PARTS:
// Figuring out which RAM8 to write to
DMux8Way(
in=load,
sel=address[3..5],
a=load01,
b=load02,
c=load03,
d=load04,
e=load05,
f=load06,
g=load07,
h=load08
);
// Writing the correct RAM address inside the register
RAM8(in=in, load=load01, address=address[0..2],out=ram8out01 );
RAM8(in=in, load=load02, address=address[0..2],out=ram8out02 );
RAM8(in=in, load=load03, address=address[0..2],out=ram8out03 );
RAM8(in=in, load=load04, address=address[0..2],out=ram8out04 );
RAM8(in=in, load=load05, address=address[0..2],out=ram8out05 );
RAM8(in=in, load=load06, address=address[0..2],out=ram8out06 );
RAM8(in=in, load=load07, address=address[0..2],out=ram8out07 );
RAM8(in=in, load=load08, address=address[0..2],out=ram8out08 );
// Reading the selected RAM Register
Mux8Way16(
a=ram8out01,
b=ram8out02,
c=ram8out03,
d=ram8out04,
e=ram8out05,
f=ram8out06,
g=ram8out07,
h=ram8out08,
sel=address[3..5],
out=out
);
}

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project-3-sequential-logic/hdl/RAM8.hdl Executable file
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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/3/a/RAM8.hdl
/**
* Memory of eight 16-bit registers.
* If load is asserted, the value of the register selected by
* address is set to in; Otherwise, the value does not change.
* The value of the selected register is emitted by out.
*/
CHIP RAM8 {
IN in[16], load, address[3];
OUT out[16];
PARTS:
// Only writing if load = 1
// Selecting which address 16-bit register to write to
DMux8Way(
sel=address,
in=load,
a=load1,
b=load2,
c=load3,
d=load4,
e=load5,
f=load6,
g=load7,
h=load8,
);
// Writing to the selected register
Register(in=in , load=load1 , out= regOut1);
Register(in=in , load=load2 , out= regOut2);
Register(in=in , load=load3 , out= regOut3);
Register(in=in , load=load4 , out= regOut4);
Register(in=in , load=load5 , out= regOut5);
Register(in=in , load=load6 , out= regOut6);
Register(in=in , load=load7 , out= regOut7);
Register(in=in , load=load8 , out= regOut8);
// Outputting the register that is selected
Mux8Way16(
a=regOut1,
b=regOut2,
c=regOut3,
d=regOut4,
e=regOut5,
f=regOut6,
g=regOut7,
h=regOut8,
sel=address,
out=out
);
}

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project-3-sequential-logic/hdl/Register.hdl Executable file
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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/3/a/Register.hdl
/**
* 16-bit register:
* If load is asserted, the register's value is set to in;
* Otherwise, the register maintains its current value:
* if (load(t)) out(t+1) = int(t), else out(t+1) = out(t)
*/
CHIP Register {
IN in[16], load;
OUT out[16];
PARTS:
Bit(in=in[0], load=load , out=out[0]);
Bit(in=in[1], load=load , out=out[1]);
Bit(in=in[2], load=load , out=out[2]);
Bit(in=in[3], load=load , out=out[3]);
Bit(in=in[4], load=load , out=out[4]);
Bit(in=in[5], load=load , out=out[5]);
Bit(in=in[6], load=load , out=out[6]);
Bit(in=in[7], load=load , out=out[7]);
Bit(in=in[8], load=load , out=out[8]);
Bit(in=in[9], load=load , out=out[9]);
Bit(in=in[10], load=load , out=out[10]);
Bit(in=in[11], load=load , out=out[11]);
Bit(in=in[12], load=load , out=out[12]);
Bit(in=in[13], load=load , out=out[13]);
Bit(in=in[14], load=load , out=out[14]);
Bit(in=in[15], load=load , out=out[15]);
}