Exemple #1
0
        public override bool TestGate()
        {
            MultiBitAndGate mbag;

            int outCome;

            for (int j = 0; j < Math.Pow(2, m_wsInput.Size); j++)
            {
                outCome = 1;
                mbag    = new MultiBitAndGate(m_wsInput.Size);
                mbag.m_wsInput.ConnectInput(InitTestVariables(j));
                for (int i = 0; i < mbag.m_wsInput.Size; i++)
                {
                    if (mbag.m_wsInput[i].Value == 0)
                    {
                        outCome = 0;
                        break;
                    }
                }
                // UNCOMMENT THIS LINE TO SEE THE DEBUG PRINT
                //System.Console.WriteLine("    Testing input " + Convert.ToString(j, 2).PadLeft(m_wsInput.Size, '0') + " -> " + mbag.Output.Value.ToString() + " , " + outCome.ToString());
                if (outCome != mbag.Output.Value)
                {
                    return(false);
                }
            }
            return(true);
        }
Exemple #2
0
        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();
        }
Exemple #3
0
        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();
        }
Exemple #4
0
        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");
        }
Exemple #5
0
        public ALU(int iSize)
        {
            Size      = iSize;
            InputX    = new WireSet(Size);
            InputY    = new WireSet(Size);
            ZeroX     = new Wire();
            ZeroY     = new Wire();
            NotX      = new Wire();
            NotY      = new Wire();
            F         = new Wire();
            NotOutput = new Wire();
            Negative  = new Wire();
            Zero      = new Wire();
            Output    = new WireSet(iSize);

            muxZx  = new BitwiseMux(iSize);
            muxZy  = new BitwiseMux(iSize);
            muxNx  = new BitwiseMux(iSize);
            muxNy  = new BitwiseMux(iSize);
            muxF   = new BitwiseMux(iSize);
            muxNo  = new BitwiseMux(iSize);
            notNx  = new BitwiseNotGate(iSize);
            notNy  = new BitwiseNotGate(iSize);
            notNo  = new BitwiseNotGate(iSize);
            andF   = new BitwiseAndGate(iSize);
            adderF = new MultiBitAdder(iSize);
            wireX0 = new WireSet(iSize);
            wireX0.Set2sComplement(0);
            wireY0 = new WireSet(iSize);
            wireY0.Set2sComplement(0);
            isZeroNot      = new BitwiseNotGate(iSize);
            isZeroMultiAnd = new MultiBitAndGate(iSize);

            muxZx.ConnectInput1(InputX);
            muxZx.ConnectInput2(wireX0);
            muxZx.ConnectControl(ZeroX);
            muxNx.ConnectInput1(muxZx.Output);
            notNx.ConnectInput(muxZx.Output);
            muxNx.ConnectInput2(notNx.Output);
            muxNx.ConnectControl(NotX);
            andF.ConnectInput1(muxNx.Output);
            adderF.ConnectInput1(muxNx.Output);

            muxZy.ConnectInput1(InputY);
            muxZy.ConnectInput2(wireY0);
            muxZy.ConnectControl(ZeroY);
            muxNy.ConnectInput1(muxZy.Output);
            notNy.ConnectInput(muxZy.Output);
            muxNy.ConnectInput2(notNy.Output);
            muxNy.ConnectControl(NotY);
            andF.ConnectInput2(muxNy.Output);
            adderF.ConnectInput2(muxNy.Output);
            //now from muxF
            muxF.ConnectInput1(andF.Output);
            muxF.ConnectInput2(adderF.Output);
            muxF.ConnectControl(F);
            muxNo.ConnectInput1(muxF.Output);
            notNo.ConnectInput(muxF.Output);
            muxNo.ConnectInput2(notNo.Output);
            muxNo.ConnectControl(NotOutput);
            Output.ConnectInput(muxNo.Output);
            Negative.ConnectInput(muxNo.Output[iSize - 1]);
            isZeroNot.ConnectInput(muxNo.Output);
            isZeroMultiAnd.ConnectInput(isZeroNot.Output);
            Zero.ConnectInput(isZeroMultiAnd.Output);
        }
Exemple #6
0
        public ALU(int iSize)
        {
            Size      = iSize;
            InputX    = new WireSet(Size);
            InputY    = new WireSet(Size);
            ZeroX     = new Wire();
            ZeroY     = new Wire();
            NotX      = new Wire();
            NotY      = new Wire();
            F         = new Wire();
            NotOutput = new Wire();
            Negative  = new Wire();
            Zero      = new Wire();
            Output    = new WireSet(Size);

            zx   = new BitwiseMux(Size);
            zy   = new BitwiseMux(Size);
            nx   = new BitwiseMux(Size);
            ny   = new BitwiseMux(Size);
            fx   = new BitwiseMux(Size);
            nOut = new BitwiseMux(Size);

            notX         = new BitwiseNotGate(Size);
            notY         = new BitwiseNotGate(Size);
            notOut       = new BitwiseNotGate(Size);
            notCheckzero = new BitwiseNotGate(Size);

            fAdder = new MultiBitAdder(Size);
            fAnd   = new BitwiseAndGate(Size);

            negCheck  = new MultiBitAdder(Size);
            zeroCheck = new MultiBitAndGate(Size);

            //zx//
            WireSet zeroXWire = new WireSet(Size);

            zx.ConnectInput1(InputX);
            zx.ConnectInput2(zeroXWire);
            zx.ConnectControl(ZeroX);

            //nx//

            nx.ConnectInput1(zx.Output);
            notX.ConnectInput(zx.Output);
            nx.ConnectInput2(notX.Output);
            nx.ConnectControl(NotX);

            //zy//
            WireSet zeroYWire = new WireSet(Size);

            zy.ConnectInput1(InputY);
            zy.ConnectInput2(zeroYWire);
            zy.ConnectControl(ZeroY);

            //ny//

            ny.ConnectInput1(zy.Output);
            notY.ConnectInput(zy.Output);
            ny.ConnectInput2(notY.Output);
            ny.ConnectControl(NotY);

            //f//
            fAnd.ConnectInput1(nx.Output);
            fAnd.ConnectInput2(ny.Output);
            fAdder.ConnectInput1(nx.Output);
            fAdder.ConnectInput2(ny.Output);
            fx.ConnectInput1(fAnd.Output);
            fx.ConnectInput2(fAdder.Output);
            fx.ConnectControl(F);

            //not Outpot
            nOut.ConnectInput1(fx.Output);
            notOut.ConnectInput(fx.Output);
            nOut.ConnectInput2(notOut.Output);
            nOut.ConnectControl(NotOutput);


            Output = nOut.Output;


            //negative number check
            negCheck.ConnectInput1(nOut.Output);
            negCheck.ConnectInput2(nOut.Output);
            Negative = negCheck.Overflow;

            //Zero number check
            notCheckzero.ConnectInput(nOut.Output);
            zeroCheck.ConnectInput(notCheckzero.Output);
            Zero = zeroCheck.Output;
        }
Exemple #7
0
        public ALU(int iSize)
        {
            Size      = iSize;
            InputX    = new WireSet(Size);
            InputY    = new WireSet(Size);
            ZeroX     = new Wire();
            ZeroY     = new Wire();
            NotX      = new Wire();
            NotY      = new Wire();
            F         = new Wire();
            NotOutput = new Wire();
            Negative  = new Wire();
            Zero      = new Wire();
            Output    = new WireSet(Size);


            var fx     = new BitwiseMux(Size);
            var fAdder = new MultiBitAdder(Size);
            var fAnd   = new BitwiseAndGate(Size);

            var notX = new BitwiseNotGate(Size);
            var notY = new BitwiseNotGate(Size);

            var notCheckzero = new BitwiseNotGate(Size);
            var zeroCheck    = new MultiBitAndGate(Size);
            var nOut         = new BitwiseMux(Size);
            var notOut       = new BitwiseNotGate(Size);

            var nx = new BitwiseMux(Size);
            var ny = new BitwiseMux(Size);
            var zx = new BitwiseMux(Size);
            var zy = new BitwiseMux(Size);

            var wireX0 = new WireSet(iSize);
            var wireY0 = new WireSet(iSize);

            wireX0.Set2sComplement(0);
            wireY0.Set2sComplement(0);

            try
            {
                //zx//
                var zeroXWire = new WireSet(Size);
                zeroXWire.Set2sComplement(0);
                zx.ConnectInput1(InputX);
                zx.ConnectInput2(zeroXWire);
                zx.ConnectControl(ZeroX);
            }
            catch (Exception e)
            {
                Console.WriteLine("zx exp" + e.Message);
            }

            try
            {
                //nx//
                nx.ConnectInput1(zx.Output);
                notX.ConnectInput(zx.Output);
                nx.ConnectInput2(notX.Output);
                nx.ConnectControl(NotX);
            }
            catch (Exception e)
            {
                Console.WriteLine("nx exp" + e.Message);
            }

            try
            {
                //zy//
                var zeroYWire = new WireSet(Size);
                zeroYWire.Set2sComplement(0);
                zy.ConnectInput1(InputY);
                zy.ConnectInput2(zeroYWire);
                zy.ConnectControl(ZeroY);
            }
            catch (Exception e)
            {
                Console.WriteLine("zy exp" + e.Message);
            }

            try
            {
                //ny//
                ny.ConnectInput1(zy.Output);
                notY.ConnectInput(zy.Output);
                ny.ConnectInput2(notY.Output);
                ny.ConnectControl(NotY);
            }
            catch (Exception e)
            {
                Console.WriteLine("ny exp" + e.Message);
            }

            try
            {
                //f//
                fAdder.ConnectInput1(nx.Output);
                fAdder.ConnectInput2(ny.Output);

                fAnd.ConnectInput1(nx.Output);
                fAnd.ConnectInput2(ny.Output);

                fx.ConnectInput1(fAnd.Output);
                fx.ConnectInput2(fAdder.Output);

                fx.ConnectControl(F);
            }
            catch (Exception e)
            {
                Console.WriteLine("f exp" + e.Message);
                throw;
            }

            try
            {
                notOut.ConnectInput(fx.Output);
                nOut.ConnectInput1(fx.Output);
                nOut.ConnectInput2(notOut.Output);
                nOut.ConnectControl(NotOutput);

                /*********************************/
                Output = nOut.Output;
                /*********************************/
            }
            catch (Exception e)
            {
                Console.WriteLine("not Output exp" + e.Message);
            }

            try
            {
                //negative number check
                Negative = Output[Size - 1];

                //Zero number check
                notCheckzero.ConnectInput(nOut.Output);
                zeroCheck.ConnectInput(notCheckzero.Output);
                Zero.ConnectInput(zeroCheck.Output);
            }
            catch (Exception e)
            {
                Console.WriteLine("Output info exp" + e.Message);
                throw;
            }
        }
Exemple #8
0
        //your code here

        public ALU(int iSize)
        {
            Size      = iSize;
            InputX    = new WireSet(Size);
            InputY    = new WireSet(Size);
            ZeroX     = new Wire();
            ZeroY     = new Wire();
            NotX      = new Wire();
            NotY      = new Wire();
            F         = new Wire();
            NotOutput = new Wire();
            Negative  = new Wire();
            Zero      = new Wire();


            //Create and connect all the internal components
            Output = new WireSet(Size);

            BitwiseMux m_gZX     = new BitwiseMux(Size);
            BitwiseMux m_gZY     = new BitwiseMux(Size);
            WireSet    zeroForXY = new WireSet(Size);

            zeroForXY.Set2sComplement(0);

            BitwiseNotGate m_gNotX = new BitwiseNotGate(Size); // reverse X
            BitwiseNotGate m_gNotY = new BitwiseNotGate(Size); // reverse Y
            BitwiseMux     m_gNX   = new BitwiseMux(Size);
            BitwiseMux     m_gNY   = new BitwiseMux(Size);

            BitwiseAndGate m_gBAnd = new BitwiseAndGate(Size); // X & Y
            MultiBitAdder  mbAdder = new MultiBitAdder(Size);  // X + Y

            BitwiseMux m_gF = new BitwiseMux(Size);

            BitwiseNotGate m_gNotFOut = new BitwiseNotGate(Size); // reverse F output
            BitwiseMux     m_gN       = new BitwiseMux(Size);

            MultiBitAndGate m_gZeroAnd = new MultiBitAndGate(Size);
            BitwiseNotGate  m_gZeroNot = new BitwiseNotGate(Size);


            // connect inputX and input0 to ZX, connect ZXControl
            m_gZX.ConnectInput1(InputX);
            m_gZX.ConnectInput2(zeroForXY);
            m_gZX.ConnectControl(ZeroX);

            // connect bitwiseNotXIn to ZX output, connect ZXOut to NXIn1, connect bitwiseNotOut to NXIn2
            m_gNotX.ConnectInput(m_gZX.Output);
            m_gNX.ConnectInput1(m_gZX.Output);
            m_gNX.ConnectInput2(m_gNotX.Output);
            m_gNX.ConnectControl(NotX);

            // connect inputY and input0 to ZY, connect ZYControl
            m_gZY.ConnectInput1(InputY);
            m_gZY.ConnectInput2(zeroForXY);
            m_gZY.ConnectControl(ZeroY);

            // connect bitwiseNotYIn to ZY output, connect ZYOut to NYIn1, connect bitwiseNotYOut to NYIn2
            m_gNotY.ConnectInput(m_gZY.Output);
            m_gNY.ConnectInput1(m_gZY.Output);
            m_gNY.ConnectInput2(m_gNotY.Output);
            m_gNY.ConnectControl(NotY);

            // connect NXOut to bitwiseAndIn1, connect NYOut to bitwiseAndIn2
            m_gBAnd.ConnectInput1(m_gNX.Output);
            m_gBAnd.ConnectInput2(m_gNY.Output);
            // connect NXOut to mbAdderIn1, connect NYOut to mbAdderIn2
            mbAdder.ConnectInput1(m_gNX.Output);
            mbAdder.ConnectInput2(m_gNY.Output);
            // connect bitwiseAndOut to F_In1, connect mbAdderOut to F_In2
            m_gF.ConnectInput1(m_gBAnd.Output);
            m_gF.ConnectInput2(mbAdder.Output);
            m_gF.ConnectControl(F);

            //connect F_Out to bitwiseNotFIn
            m_gNotFOut.ConnectInput(m_gF.Output);
            // connect F_Out to N_In1, connect bitwiseNotFOut to N_In2
            m_gN.ConnectInput1(m_gF.Output);
            m_gN.ConnectInput2(m_gNotFOut.Output);
            m_gN.ConnectControl(NotOutput);

            // connect N_Out to Output
            Output.ConnectInput(m_gN.Output);

            // connect negativeIndicator to last Output wire
            Negative.ConnectInput(Output[Size - 1]);
            // connect ZeroIndicator depending on zeroNot and zeroAnd concatenation
            m_gZeroNot.ConnectInput(Output);
            m_gZeroAnd.ConnectInput(m_gZeroNot.Output);
            Zero.ConnectInput(m_gZeroAnd.Output);
        }