public BitwiseDemux(int iSize) { Size = iSize; Control = new Wire(); Input = new WireSet(Size); Output1 = new WireSet(Size); Output2 = new WireSet(Size); //your code here m_gDemux = new Demux[iSize]; WireSet ws_resault1 = new WireSet(iSize); WireSet ws_resault2 = new WireSet(iSize); //your code here for (int i = 0; i < iSize; i++) { m_gDemux[i] = new Demux(); m_gDemux[i].ConnectInput(Input[i]); m_gDemux[i].ConnectControl(Control); ws_resault1[i].ConnectInput(m_gDemux[i].Output1); ws_resault2[i].ConnectInput(m_gDemux[i].Output2); } Output1.ConnectInput(ws_resault1); Output2.ConnectInput(ws_resault2); }
private static void InitializeDemuxGates(CompleteBinaryTree <Demux> demuxGates) { for (int i = 0; i < demuxGates.ItemsCount; i++) { demuxGates[i] = new Demux(); } }
public override bool TestGate() { BitwiseDemux bwdm; Demux m_gLocalDemux; Wire w_local = new Wire(); for (int l = 0; l < 2; l++) { w_local.Value = l; for (int j = 0; j < Math.Pow(2, Size); j++) { bwdm = new BitwiseDemux(Size); bwdm.Input.ConnectInput(InitTestVariables(j)); bwdm.ConnectControl(w_local); for (int i = 0; i < Size; i++) { m_gLocalDemux = new Demux(); m_gLocalDemux.ConnectInput(bwdm.Input[i]); m_gLocalDemux.ConnectControl(bwdm.Control); if (bwdm.Output1[i].Value != m_gLocalDemux.Output1.Value || bwdm.Output2[i].Value != m_gLocalDemux.Output2.Value) { return(false); } } //// UNCOMMENT THIS LINES TO SEE THE DEBUG PRINT //System.Console.WriteLine(" Testing input " + " -> " + WStoString(bwdm.Input)); //System.Console.WriteLine(" Testing control " + " -> " + bwdm.Control); //System.Console.WriteLine(" Testing output1 " + " -> " + WStoString(bwdm.Output1)); //System.Console.WriteLine(" Testing output2 " + " -> " + WStoString(bwdm.Output2)); } } return(true); }
private void ConnectInput(CompleteBinaryTree <Demux> demuxGates) { Demux demuxGate = demuxGates.Root; demuxGate.Input.ConnectInput(Input); demuxGate.ConnectControl(Control[ControlBits - 1]); }
private void ConnectOutputs(CompleteBinaryTree <Demux> demuxGates) { int iOutput = 0; foreach (var itemIndexPair in demuxGates.GetDepthEnumerator(demuxGates.Height)) { Demux demuxGate = itemIndexPair.Item; Outputs[iOutput].ConnectInput(demuxGate.Output1); Outputs[iOutput + 1].ConnectInput(demuxGate.Output2); iOutput += 2; } }
// checks each bit of the input and making demux operation on them // and connects the outputs public BitwiseDemux(int iSize) { Size = iSize; Control = new Wire(); Input = new WireSet(Size); Output1 = new WireSet(Size); Output2 = new WireSet(Size); for (int bit = 0; bit < Size; bit++) { demux_op = new Demux(); demux_op.ConnectInput(Input[bit]); demux_op.ConnectControl(Control); Output1[bit].ConnectInput(demux_op.Output1); Output2[bit].ConnectInput(demux_op.Output2); } }
public BitwiseDemux(int iSize) { Size = iSize; Control = new Wire(); Input = new WireSet(Size); Output1 = new WireSet(Size); Output2 = new WireSet(Size); m_gDemux = new Demux[Size]; for (int i = 0; i < Size; i++) { m_gDemux[i] = new Demux(); m_gDemux[i].ConnectInput(Input[i]); Output1[i].ConnectInput(m_gDemux[i].Output1); Output2[i].ConnectInput(m_gDemux[i].Output2); m_gDemux[i].ConnectControl(Control); } }
public BitwiseDemux(int iSize) { Size = iSize; Control = new Wire(); Input = new WireSet(Size); //your code here Output1 = new WireSet(Size); Output2 = new WireSet(Size); bitWiseDemux = new Demux[iSize]; for (int i = 0; i < iSize; i++) { bitWiseDemux[i] = new Demux(); bitWiseDemux[i].ConnectControl(Control); bitWiseDemux[i].ConnectInput(Input[i]); Output1[i].ConnectInput(bitWiseDemux[i].Output1); Output2[i].ConnectInput(bitWiseDemux[i].Output2); } }
public BitwiseDemux(int iSize) { Size = iSize; Control = new Wire(); Input = new WireSet(Size); //your code here Output1 = new WireSet(Size); Output2 = new WireSet(Size); m_gates = new Demux[Size]; for (int i = 0; i < Size; i++) { var gate = new Demux(); m_gates[i] = gate; gate.ConnectControl(Control); gate.ConnectInput(Input[i]); Output1[i].ConnectInput(gate.Output1); Output2[i].ConnectInput(gate.Output2); } }
private void BuildDeuxGatesTree(CompleteBinaryTree <Demux> demuxGates) { int iControl = 0; for (int depth = demuxGates.Height - 1; depth >= 0; depth--) { foreach (var itemIndexPair in demuxGates.GetDepthEnumerator(depth)) { int index = itemIndexPair.Index; Demux demux = itemIndexPair.Item; Demux left = demuxGates.LeftChild(index); Demux right = demuxGates.RightChild(index); left.Input.ConnectInput(demux.Output1); left.ConnectControl(Control[iControl]); right.Input.ConnectInput(demux.Output2); right.ConnectControl(Control[iControl]); } iControl++; } }
static void Main(string[] args) { OrGate or = new OrGate(); XorGate xor = new XorGate(); AndGate and = new AndGate(); MuxGate mux = new MuxGate(); Demux demux = new Demux(); HalfAdder halfAdder = new HalfAdder(); FullAdder fullAdder = new FullAdder(); WireSet wireSet = new WireSet(9); BitwiseAndGate bwag = new BitwiseAndGate(2); BitwiseNotGate bwng = new BitwiseNotGate(3); BitwiseOrGate bwog = new BitwiseOrGate(2); BitwiseMux bwm = new BitwiseMux(2); BitwiseDemux bwd = new BitwiseDemux(2); MultiBitAndGate mbag = new MultiBitAndGate(4); MultiBitAdder mba = new MultiBitAdder(3); BitwiseMultiwayMux bwmwm = new BitwiseMultiwayMux(5, 4); BitwiseMultiwayDemux bwmwd = new BitwiseMultiwayDemux(4, 4); SingleBitRegister sbr = new SingleBitRegister(); MultiBitRegister mbr = new MultiBitRegister(4); if (!sbr.TestGate()) { Console.WriteLine("SingleBitRegisterbugbug"); } if (!mbr.TestGate()) { Console.WriteLine("MultiBitRegisterbugbug"); } ALU alu = new ALU(4); if (!alu.TestGate()) { Console.WriteLine("ALUbugbug"); } if (!bwmwd.TestGate()) { Console.WriteLine("BitwiseMultiwayDemuxbugbug"); } if (!bwmwm.TestGate()) { Console.WriteLine("BitwiseMultiwayMuxbugbug"); } if (!mba.TestGate()) { Console.WriteLine("MultiBitAdderbugbug"); } if (!mbag.TestGate()) { Console.WriteLine("MultiBitAndGatebugbug"); } if (!bwd.TestGate()) { Console.WriteLine("BitWiseDemuxbugbug"); } if (!bwm.TestGate()) { Console.WriteLine("BitWiseMuxbugbug"); } if (!bwog.TestGate()) { Console.WriteLine("BitWiseOrGatebugbug"); } if (!bwng.TestGate()) { Console.WriteLine("BitWiseNotGatebugbug"); } if (!bwag.TestGate()) { Console.WriteLine("BitWiseAndGatebugbug"); } wireSet.SetValue(137); wireSet.Set2sComplement(-32); if (!and.TestGate()) { Console.WriteLine("andbugbug"); } if (!or.TestGate()) { Console.WriteLine("orbugbug"); } if (!xor.TestGate()) { Console.WriteLine("xorbugbug"); } if (!mux.TestGate()) { Console.WriteLine("muxbugbug"); } if (!demux.TestGate()) { Console.WriteLine("demuxbugbug"); } if (!halfAdder.TestGate()) { Console.WriteLine("HAbugbug"); } if (!fullAdder.TestGate()) { Console.WriteLine("FAbugbug"); } Memory memory = new Memory(2, 6); if (!memory.TestGate()) { Console.WriteLine("Membugbug"); } Console.WriteLine("done"); Console.ReadLine(); }
static void Main(string[] args) { AndGate and = new AndGate(); OrGate or = new OrGate(); XorGate xor = new XorGate(); MuxGate mux = new MuxGate(); Demux demux = new Demux(); HalfAdder ha = new HalfAdder(); FullAdder fa = new FullAdder(); if (!and.TestGate()) { Console.WriteLine("bugbug"); } Console.WriteLine("done And"); if (!or.TestGate()) { Console.WriteLine("bugbug"); } Console.WriteLine("done Or"); if (!xor.TestGate()) { Console.WriteLine("bugbug"); } Console.WriteLine("done Xor"); if (!mux.TestGate()) { Console.WriteLine("bugbug"); } Console.WriteLine("done Mux"); if (!demux.TestGate()) { Console.WriteLine("bugbug"); } Console.WriteLine("done Demux"); if (!ha.TestGate()) { Console.WriteLine("bugbug"); } Console.WriteLine("done HalfAdder"); if (!fa.TestGate()) { Console.WriteLine("bugbug"); } Console.WriteLine("done FullAdder"); WireSet num = new WireSet(4); num.SetValue(6); Console.WriteLine(num.ToString()); Console.WriteLine(num.GetValue()); Console.WriteLine("trying 2's complement"); WireSet num2 = new WireSet(4); num2.Set2sComplement(6); Console.WriteLine(num2.Get2sComplement()); WireSet num3 = new WireSet(4); num3.Set2sComplement(-2); Console.WriteLine(num3.Get2sComplement()); BitwiseAndGate BWAnd = new BitwiseAndGate(3); BWAnd.TestGate(); BitwiseNotGate BWNot = new BitwiseNotGate(3); BWNot.TestGate(); BitwiseOrGate BWOr = new BitwiseOrGate(3); BWOr.TestGate(); BitwiseMux BWMux = new BitwiseMux(3); BWMux.TestGate(); BitwiseDemux BWDemux = new BitwiseDemux(3); BWDemux.TestGate(); MultiBitAndGate multiAnd = new MultiBitAndGate(3); multiAnd.TestGate(); MultiBitAdder multiAdd = new MultiBitAdder(5); multiAdd.TestGate(); BitwiseMultiwayMux multimux = new BitwiseMultiwayMux(8, 2); WireSet[] inp = new WireSet[4]; inp[0] = new WireSet(8); inp[0].Set2sComplement(1); multimux.ConnectInput(0, inp[0]); inp[1] = new WireSet(8); inp[1].Set2sComplement(2); multimux.ConnectInput(1, inp[1]); inp[2] = new WireSet(8); inp[2].Set2sComplement(3); multimux.ConnectInput(2, inp[2]); inp[3] = new WireSet(8); inp[3].Set2sComplement(4); multimux.ConnectInput(3, inp[3]); WireSet control = new WireSet(2); control.Set2sComplement(3); multimux.ConnectControl(control); multimux.TestGate(); BitwiseMultiwayDemux multidemux = new BitwiseMultiwayDemux(8, 1); ALU alu = new ALU(16); alu.TestGate(); SingleBitRegister sbr = new SingleBitRegister(); if (sbr.TestGate()) { Console.WriteLine("sbr IS OK"); } MultiBitRegister mbr = new MultiBitRegister(8); if (mbr.TestGate()) { Console.WriteLine("mbr IS OK"); } Memory mem = new Memory(3, 6); if (mem.TestGate()) { Console.WriteLine("mem IS OK"); } Console.ReadLine(); }
static void Main(string[] args) { //This is an example of a testing code that you should run for all the gates that you create // // //Create a gate // AndGate and = new AndGate(); // //Test that the unit testing works properly // if (!and.TestGate()) // Console.WriteLine("bugbug"); // // //test or gate // OrGate or = new OrGate(); // if (or.TestGate()) // Console.WriteLine("done or"); // //test xor gate // XorGate xor = new XorGate(); // if (xor.TestGate()) // Console.WriteLine("done xor"); // // MultiBitAndGate mbaGate = new MultiBitAndGate(4); // if (mbaGate.TestGate()) // Console.WriteLine("done mba"); // // MultiBitOrGate mboGate = new MultiBitOrGate(4); // if (mboGate.TestGate()) // Console.WriteLine("done mbo"); // // MuxGate mux = new MuxGate(); // if (mux.TestGate()) // Console.WriteLine("done mux"); // // Demux demux = new Demux(); // if (demux.TestGate()) // Console.WriteLine("done demux"); // // BitwiseAndGate bwAg = new BitwiseAndGate(4); // if (bwAg.TestGate()) // Console.WriteLine("done bwAg"); // // BitwiseNotGate bwNg = new BitwiseNotGate(4); // if (bwNg.TestGate()) // Console.WriteLine("done bwNg"); //// // BitwiseOrGate bwOg = new BitwiseOrGate(4); // if (bwOg.TestGate()) // Console.WriteLine("done bwOg"); // // // WireSet ws = new WireSet(4); // ws.SetValue(8); // Console.WriteLine(ws.ToString()); //// // BitwiseMux bwMux = new BitwiseMux(4); // if (bwMux.TestGate()) // Console.WriteLine("done bwMux"); // // BitwiseDemux bwDemux = new BitwiseDemux(4); // if (bwDemux.TestGate()) // Console.WriteLine("done bwDemux"); // // BitwiseMultiwayMux bwMwMux = new BitwiseMultiwayMux(3,3); // if (bwMwMux.TestGate()) // Console.WriteLine("done bwMwMux"); OrGate or = new OrGate(); XorGate xor = new XorGate(); AndGate and = new AndGate(); MuxGate mux = new MuxGate(); Demux demux = new Demux(); HalfAdder halfAdder = new HalfAdder(); FullAdder fullAdder = new FullAdder(); WireSet wireSet = new WireSet(9); BitwiseAndGate bwag = new BitwiseAndGate(2); BitwiseNotGate bwng = new BitwiseNotGate(3); BitwiseOrGate bwog = new BitwiseOrGate(2); BitwiseMux bwm = new BitwiseMux(2); BitwiseDemux bwd = new BitwiseDemux(2); MultiBitAndGate mbag = new MultiBitAndGate(4); MultiBitAdder mba = new MultiBitAdder(3); BitwiseMultiwayMux bwmwm = new BitwiseMultiwayMux(5, 4); BitwiseMultiwayDemux bwmwd = new BitwiseMultiwayDemux(4, 4); SingleBitRegister sbr = new SingleBitRegister(); MultiBitRegister mbr = new MultiBitRegister(4); wireSet.SetValue(137); wireSet.Set2sComplement(-32); if (halfAdder.TestGate()) { Console.WriteLine("HAbugbug"); } if (fullAdder.TestGate()) { Console.WriteLine("FAbugbug"); } if (mba.TestGate()) { Console.WriteLine("MultiBitAdderbugbug"); } ALU alu = new ALU(16); if (alu.TestGate()) { Console.WriteLine("ALU bugbug"); } Console.WriteLine("FINISH HIM"); }