from nmutil.singlepipe import PrevControl, NextControl
from nmutil.pipeline import ObjectProxy
+import math
+
+
+class FPFormat:
+ """ Class describing binary floating-point formats based on IEEE 754.
+
+ :attribute exponent_width: the number of bits in the exponent field.
+ :attribute mantissa_width: the number of bits stored in the mantissa
+ field.
+ :attribute has_int_bit: if the FP format has an explicit integer bit (like
+ the x87 80-bit format). The bit is considered part of the mantissa.
+ :attribute has_sign: if the FP format has a sign bit. (Some Vulkan
+ Image/Buffer formats are FP numbers without a sign bit.)
+ """
+
+ def __init__(self,
+ exponent_width,
+ mantissa_width,
+ has_int_bit=False,
+ has_sign=True):
+ """ Create ``FPFormat`` instance. """
+ self.exponent_width = exponent_width
+ self.mantissa_width = mantissa_width
+ self.has_int_bit = has_int_bit
+ self.has_sign = has_sign
+
+ def __eq__(self, other):
+ """ Check for equality. """
+ if not isinstance(other, FPFormat):
+ return NotImplemented
+ return (self.exponent_width == other.exponent_width
+ and self.mantissa_width == other.mantissa_width
+ and self.has_int_bit == other.has_int_bit
+ and self.has_sign == other.has_sign)
+
+ @staticmethod
+ def standard(width):
+ """ Get standard IEEE 754-2008 format.
+
+ :param width: bit-width of requested format.
+ :returns: the requested ``FPFormat`` instance.
+ """
+ if not instanceof(width, int):
+ raise TypeError()
+ if width == 16:
+ return FPFormat(5, 10)
+ if width == 32:
+ return FPFormat(8, 23)
+ if width == 64:
+ return FPFormat(11, 52)
+ if width == 128:
+ return FPFormat(15, 112)
+ if width > 128 and width % 32 == 0:
+ if width > 1000000: # arbitrary upper limit
+ raise ValueError("width too big")
+ exponent_width = round(4 * math.log2(width)) - 13
+ return FPFormat(exponent_width, width - 1 - exponent_width)
+ raise ValueError("width must be the bit-width of a valid IEEE"
+ " 754-2008 binary format")
+
+ def __repr__(self):
+ """ Get repr. """
+ if (self.width in (16, 32, 64, 128)
+ or (self.width > 128 and self.width % 32 == 0)):
+ if self == self.standard(self.width):
+ return f"FPFormat.standard({self.width})"
+ retval = f"FPFormat({self.exponent_width}, {self.mantissa_width}"
+ if self.has_int_bit is not False:
+ retval += f", {self.has_int_bit}"
+ if self.has_sign is not True:
+ retval += f", {self.has_sign}"
+ return retval + ")"
+
+ @property
+ def width(self):
+ """ Get the total number of bits in the FP format. """
+ return self.has_sign + self.exponent_width + self.mantissa_width
+
+ @property
+ def exponent_inf_nan(self):
+ """ Get the value of the exponent field designating infinity/NaN. """
+ return (1 << self.exponent_width) - 1
+
+ @property
+ def exponent_denormal_zero(self):
+ """ Get the value of the exponent field designating denormal/zero. """
+ return 0
+
+ @property
+ def exponent_min_normal(self):
+ """ Get the minimum value of the exponent field for normal numbers. """
+ return 1
+
+ @property
+ def exponent_max_normal(self):
+ """ Get the maximum value of the exponent field for normal numbers. """
+ return self.exponent_inf_nan - 1
+
+ @property
+ def exponent_bias(self):
+ """ Get the exponent bias. """
+ return (1 << (self.exponent_width - 1)) - 1
+
+ @property
+ def fraction_width(self):
+ """ Get the number of mantissa bits that are fraction bits. """
+ return self.mantissa_width - self.has_int_bit
class MultiShiftR:
if name is None:
name = ""
self.guard = Signal(reset_less=True, name=name+"guard") # tot[2]
- self.round_bit = Signal(reset_less=True, name=name+"round") # tot[1]
+ self.round_bit = Signal(reset_less=True, name=name+"round") # tot[1]
self.sticky = Signal(reset_less=True, name=name+"sticky") # tot[0]
- self.m0 = Signal(reset_less=True, name=name+"m0") # mantissa bit 0
+ self.m0 = Signal(reset_less=True, name=name+"m0") # mantissa bit 0
#self.roundz = Signal(reset_less=True)
projects / ieee754fpu.git / commitdiff