Exemplo n.º 1
0
        private static FixFormat Equalize(UFix a, UFix b, out Unsigned an, out Unsigned bn)
        {
            an = a._value;
            bn = b._value;
            FixFormat dfmt;

            switch (DesignContext.Instance.FixPoint.ArithSizingMode)
            {
            case EArithSizingMode.Safe:
                dfmt = new FixFormat(false,
                                     Math.Max(a.Format.IntWidth, b.Format.IntWidth) + 1,
                                     Math.Max(a.Format.FracWidth, b.Format.FracWidth));
                an = an.Resize(dfmt.TotalWidth - 1);
                bn = bn.Resize(dfmt.TotalWidth - 1);
                if (a.Format.FracWidth > b.Format.FracWidth)
                {
                    bn = bn << (int)(a.Format.FracWidth - b.Format.FracWidth);
                }
                else if (b.Format.FracWidth > a.Format.FracWidth)
                {
                    an = an << (int)(b.Format.FracWidth - a.Format.FracWidth);
                }
                return(dfmt);

            case EArithSizingMode.VHDLCompliant:
                dfmt = new FixFormat(false,
                                     Math.Max(a.Format.IntWidth, b.Format.IntWidth) + 1,
                                     Math.Max(a.Format.FracWidth, b.Format.FracWidth));
                an = an.Resize(dfmt.TotalWidth);
                bn = bn.Resize(dfmt.TotalWidth);
                if (a.Format.FracWidth > b.Format.FracWidth)
                {
                    bn = bn << (int)(a.Format.FracWidth - b.Format.FracWidth);
                }
                else if (b.Format.FracWidth > a.Format.FracWidth)
                {
                    an = an << (int)(b.Format.FracWidth - a.Format.FracWidth);
                }
                return(dfmt);

            case EArithSizingMode.InSizeIsOutSize:
                dfmt = a.Format;
                bn   = bn.Resize(dfmt.TotalWidth);
                if (a.Format.FracWidth > b.Format.FracWidth)
                {
                    bn = bn << (int)(a.Format.FracWidth - b.Format.FracWidth);
                }
                else if (b.Format.FracWidth > a.Format.FracWidth)
                {
                    an = an << (int)(b.Format.FracWidth - a.Format.FracWidth);
                }
                return(dfmt);

            default:
                throw new NotImplementedException();
            }
        }
Exemplo n.º 2
0
 /// <summary>
 /// Converts the format to a SysDOM type descriptor.
 /// </summary>
 public static TypeDescriptor ToType(this FixFormat fmt)
 {
     if (fmt.IsSigned)
     {
         return(TypeDescriptor.GetTypeOf(SFix.FromDouble(0.0, fmt.IntWidth, fmt.FracWidth)));
     }
     else
     {
         return(TypeDescriptor.GetTypeOf(UFix.FromDouble(0.0, fmt.IntWidth, fmt.FracWidth)));
     }
 }
Exemplo n.º 3
0
 /// <summary>
 /// Extracts the fixed-point format from a SysDOM type descriptor, given that it actually describes a fixed-point number type.
 /// </summary>
 public static FixFormat GetFixFormat(this TypeDescriptor td)
 {
     if (td.CILType.Equals(typeof(Signed)) ||
         td.CILType.Equals(typeof(SFix)))
     {
         return(SFix.GetFormat(td));
     }
     else if (td.CILType.Equals(typeof(Unsigned)) ||
              td.CILType.Equals(typeof(UFix)))
     {
         return(UFix.GetFormat(td));
     }
     else
     {
         return(null);
     }
 }
Exemplo n.º 4
0
 public override object CreateInstance(ETypeCreationOptions options, object template)
 {
     if (options.HasFlag(ETypeCreationOptions.MultiplicativeNeutral))
     {
         if (template == null)
         {
             return(UFix.One);
         }
         else
         {
             var ufix = (UFix)template;
             return(UFix.FromDouble(1.0, ufix.Format.IntWidth, ufix.Format.FracWidth));
         }
     }
     else if (options.HasFlag(ETypeCreationOptions.NonZero))
     {
         if (template == null)
         {
             return(UFix.One);
         }
         else
         {
             var ufix = (UFix)template;
             return(UFix.FromUnsigned(Unsigned.FromUInt(1, ufix.Format.TotalWidth), ufix.Format.FracWidth));
         }
     }
     else
     {
         if (template == null)
         {
             return(UFix.Zero);
         }
         else
         {
             var ufix = (UFix)template;
             return(UFix.FromDouble(0.0, ufix.Format.IntWidth, ufix.Format.FracWidth));
         }
     }
 }
Exemplo n.º 5
0
        private static FixFormat Equalize(UFix a, UFix b, out Unsigned an, out Unsigned bn)
        {
            an = a._value;
            bn = b._value;
            FixFormat dfmt;
            switch (DesignContext.Instance.FixPoint.ArithSizingMode)
            {
                case EArithSizingMode.Safe:
                    dfmt = new FixFormat(false,
                        Math.Max(a.Format.IntWidth, b.Format.IntWidth) + 1,
                        Math.Max(a.Format.FracWidth, b.Format.FracWidth));
                    an = an.Resize(dfmt.TotalWidth - 1);
                    bn = bn.Resize(dfmt.TotalWidth - 1);
                    if (a.Format.FracWidth > b.Format.FracWidth)
                        bn = bn << (int)(a.Format.FracWidth - b.Format.FracWidth);
                    else if (b.Format.FracWidth > a.Format.FracWidth)
                        an = an << (int)(b.Format.FracWidth - a.Format.FracWidth);
                    return dfmt;

                case EArithSizingMode.VHDLCompliant:
                    dfmt = new FixFormat(false,
                        Math.Max(a.Format.IntWidth, b.Format.IntWidth) + 1,
                        Math.Max(a.Format.FracWidth, b.Format.FracWidth));
                    an = an.Resize(dfmt.TotalWidth);
                    bn = bn.Resize(dfmt.TotalWidth);
                    if (a.Format.FracWidth > b.Format.FracWidth)
                        bn = bn << (int)(a.Format.FracWidth - b.Format.FracWidth);
                    else if (b.Format.FracWidth > a.Format.FracWidth)
                        an = an << (int)(b.Format.FracWidth - a.Format.FracWidth);
                    return dfmt;

                case EArithSizingMode.InSizeIsOutSize:
                    dfmt = a.Format;
                    bn = bn.Resize(dfmt.TotalWidth);
                    if (a.Format.FracWidth > b.Format.FracWidth)
                        bn = bn << (int)(a.Format.FracWidth - b.Format.FracWidth);
                    else if (b.Format.FracWidth > a.Format.FracWidth)
                        an = an << (int)(b.Format.FracWidth - a.Format.FracWidth);
                    return dfmt;

                default:
                    throw new NotImplementedException();
            }
        }
Exemplo n.º 6
0
        /// <summary>
        /// Converts <paramref name="src"/> to <paramref name="dstType"/> datatype, possibly with loss of precision or overflow.
        /// </summary>
        /// <remarks>Currently, conversions between all primitive numeric CIL types, enum types, and System#-intrinsic datatypes
        /// Signed, Unsigned, SFix, UFix and StdLogicVector are supported.</remarks>
        /// <exception cref="ArgumentNullException">if <paramref name="dstType"/> is null</exception>
        /// <exception cref="NotImplementedException">if there is no known conversion to <paramref name="dstType"/></exception>
        public static object ConvertUFix(UFix src, TypeDescriptor dstType)
        {
            Contract.Requires<ArgumentNullException>(dstType != null, "dstType");

            if (dstType.CILType.Equals(typeof(UFix)))
                return src.Resize(UFix.GetFormat(dstType).IntWidth, UFix.GetFormat(dstType).FracWidth);
            else if (dstType.CILType.Equals(typeof(Unsigned)))
                return src.UnsignedValue.Resize(UFix.GetFormat(dstType).IntWidth);
            else if (dstType.CILType.Equals(typeof(StdLogicVector)))
                return src.SLVValue[StdLogicVector.GetLength(dstType) - 1, 0];
            else
                return ConvertUFix(src, dstType.CILType);
        }
Exemplo n.º 7
0
        /// <summary>
        /// Converts <paramref name="src"/> to <paramref name="dstType"/> datatype, possibly with loss of precision or overflow.
        /// </summary>
        /// <remarks>Currently, conversions between all primitive numeric CIL types and enum types are supported.</remarks>
        /// <exception cref="ArgumentNullException">if <paramref name="dstType"/> is null</exception>
        /// <exception cref="NotImplementedException">if there is no known conversion to <paramref name="dstType"/></exception>
        public static object ConvertUFix(UFix src, Type dstType)
        {
            Contract.Requires<ArgumentNullException>(dstType != null, "dstType");

            if (dstType.Equals(typeof(double)))
                return src.DoubleValue;
            else if (dstType.Equals(typeof(sbyte)))
                return (sbyte)src.SFixValue.Resize(8, 0).SignedValue.LongValue;
            else if (dstType.Equals(typeof(byte)))
                return (byte)src.Resize(8, 0).UnsignedValue.ULongValue;
            else if (dstType.Equals(typeof(short)))
                return (short)src.SFixValue.Resize(16, 0).SignedValue.LongValue;
            else if (dstType.Equals(typeof(ushort)))
                return (byte)src.Resize(16, 0).UnsignedValue.ULongValue;
            else if (dstType.Equals(typeof(int)))
                return (int)src.SFixValue.Resize(32, 0).SignedValue.LongValue;
            else if (dstType.Equals(typeof(uint)))
                return (uint)src.Resize(32, 0).UnsignedValue.ULongValue;
            else if (dstType.Equals(typeof(long)))
                return src.SFixValue.Resize(64, 0).SignedValue.LongValue;
            else if (dstType.Equals(typeof(ulong)))
                return src.Resize(64, 0).UnsignedValue.ULongValue;
            else
                throw new NotImplementedException();
        }
Exemplo n.º 8
0
        /// <summary>
        /// Constructs a new instance
        /// </summary>
        /// <param name="lutWidth">resolution of data table</param>
        /// <param name="xFracWidth">fractional width of operand</param>
        /// <param name="yFracWidth">fractional width of result</param>
        /// <param name="pipeStages">additional pipeline stages for interpolation computation</param>
        public SinCosLUTCore(int lutWidth, int xFracWidth, int yFracWidth, int pipeStages)
        {
            PipeStages = pipeStages;
            XIntWidth = 2;
            XFracWidth = xFracWidth;
            YIntWidth = 2;
            YFracWidth = yFracWidth;
            DIntWidth = 2;
            DFracWidth = yFracWidth;
            LUTWidth = lutWidth;

            _x = new Signal<UFix>()
            {
                InitialValue = UFix.FromDouble(0.0, LUTWidth + 1, XFracWidth - LUTWidth - 1)
            };
            _xq = new Signal<UFix>()
            {
                InitialValue = UFix.FromDouble(0.0, LUTWidth + 1, XFracWidth - LUTWidth - 1)
            };
            _sinRaw = new Signal<SFix>()
            {
                InitialValue = SFix.FromDouble(0.0, YIntWidth, YFracWidth)
            };
            _cosRaw = new Signal<SFix>()
            {
                InitialValue = SFix.FromDouble(0.0, YIntWidth, YFracWidth)
            };
            _sinIn = new SLVSignal(YIntWidth + YFracWidth)
            {
                InitialValue = SFix.FromDouble(0.0, YIntWidth, YFracWidth).SLVValue
            };
            _cosIn = new SLVSignal(YIntWidth + YFracWidth)
            {
                InitialValue = SFix.FromDouble(0.0, YIntWidth, YFracWidth).SLVValue
            };
            _sinOut = new SLVSignal(YIntWidth + YFracWidth)
            {
                InitialValue = SFix.FromDouble(0.0, YIntWidth, YFracWidth).SLVValue
            };
            _cosOut = new SLVSignal(YIntWidth + YFracWidth)
            {
                InitialValue = SFix.FromDouble(0.0, YIntWidth, YFracWidth).SLVValue
            };
            AddrWidth = lutWidth + 1;
            _sinAddr = new Signal<Unsigned>()
            {
                InitialValue = Unsigned.FromUInt(0, AddrWidth)
            };
            _cosAddr = new Signal<Unsigned>()
            {
                InitialValue = Unsigned.FromUInt(0, AddrWidth)
            };
            _sinData = new Signal<SFix>()
            {
                InitialValue = SFix.FromDouble(0.0, YIntWidth, YFracWidth)
            };
            _cosData = new Signal<SFix>()
            {
                InitialValue = SFix.FromDouble(0.0, YIntWidth, YFracWidth)
            };
            _sinLUT = new VSignal<SFix>((1 << lutWidth) + 2, _ => new Signal<SFix>() 
            { 
                InitialValue = SFix.FromDouble(Math.Sin(Math.PI * 0.5 * _ / (double)(1 << lutWidth)), 2, yFracWidth) 
            });
            _sinFlipSignIn = new SLVSignal(1)
            {
                InitialValue = "0"
            };
            _cosFlipSignIn = new SLVSignal(1)
            {
                InitialValue = "0"
            };
            _sinFlipSignOut = new SLVSignal(1)
            {
                InitialValue = "0"
            };
            _cosFlipSignOut = new SLVSignal(1)
            {
                InitialValue = "0"
            };

            _mirror = UFix.FromUnsigned(Unsigned.One.Resize(XFracWidth + 2) << (xFracWidth + 1), xFracWidth - LUTWidth);
            _mirror2 = UFix.FromUnsigned(Unsigned.One.Resize(XFracWidth + 2) << xFracWidth, xFracWidth - LUTWidth);

            _sinPipe = new RegPipe(pipeStages, YIntWidth + YFracWidth);
            Bind(() => {
                _sinPipe.Clk = Clk;
                _sinPipe.Din = _sinIn;
                _sinPipe.Dout = _sinOut;
            });

            _cosPipe = new RegPipe(pipeStages, YIntWidth + YFracWidth);
            Bind(() => {
                _cosPipe.Clk = Clk;
                _cosPipe.Din = _cosIn;
                _cosPipe.Dout = _cosOut;
            });

            _sinFlipSignPipe = new RegPipe(2, 1);
            Bind(() => {
                _sinFlipSignPipe.Clk = Clk;
                _sinFlipSignPipe.Din = _sinFlipSignIn;
                _sinFlipSignPipe.Dout = _sinFlipSignOut;
            });

            _cosFlipSignPipe = new RegPipe(2, 1);
            Bind(() => {
                _cosFlipSignPipe.Clk = Clk;
                _cosFlipSignPipe.Din = _cosFlipSignIn;
                _cosFlipSignPipe.Dout = _cosFlipSignOut;
            });

            _sinUnit = new LERPUnit(lutWidth + 1, xFracWidth - 1 - lutWidth, YIntWidth, yFracWidth, 0);
            Bind(() =>
            {
                _sinUnit.Clk = Clk;
                _sinUnit.X = _x;
                _sinUnit.Y = _sinRaw;
                _sinUnit.Addr = _sinAddr;
                _sinUnit.Data = _sinData;
            });

            _cosUnit = new LERPUnit(lutWidth + 1, xFracWidth - 1 - lutWidth, YIntWidth, yFracWidth, 0);
            Bind(() =>
            {
                _cosUnit.Clk = Clk;
                _cosUnit.X = _xq;
                _cosUnit.Y = _cosRaw;
                _cosUnit.Addr = _cosAddr;
                _cosUnit.Data = _cosData;
            });

            TASite = new TransactionSite(this);
        }
Exemplo n.º 9
0
        public object Deserialize(StdLogicVector slv, TypeDescriptor targetType)
        {
            var fmt = UFix.GetFormat(targetType);

            return(UFix.FromUnsigned(slv.UnsignedValue, fmt.FracWidth));
        }
Exemplo n.º 10
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        public StdLogicVector Serialize(object value)
        {
            UFix ufix = (UFix)value;

            return(ufix.UnsignedValue.SLVValue);
        }
Exemplo n.º 11
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        public override object CorrectArgument(object arg)
        {
            var org = (UFix)arg;

            return(UFix.FromDouble(1.0, org.Format.IntWidth, org.Format.FracWidth));
        }