def alu_control(f0, f1, f2, f3, aluop0, aluop1):
    op3 = And((Not(aluop0), aluop0))
    op2 = Or((aluop0, And((aluop1, f1))))
    op1 = Or((Not(f2), Not(aluop1)))
    op0 = And((aluop1, Or(f3, f0)))
    return {
        op0: op0, op1: op1, op2: op2, op3: op3
    }
Example #2
0
    def build(self):
        s = []
        sp = []
        for i in range(self.n):
            s.append(self.selectors[len(self.selectors) - 2 - self.n +
                                    i] if self.reverse ==
                     True else self.selectors[i])
            sp.append(
                Not(
                    self.selectors[len(self.selectors) - 2 - self.n + i]
                    if self.reverse == True else self.selectors[i],
                    f"{self.name}_sp{i}"))

        ands = []
        for i in range(2**self.n):
            i_bin = bin(i)[2:].zfill(self.n)
            self.i_bin = i_bin

            ands.append(
                And(
                    tuple([
                        s[j] if i_bin[j] == '1' else sp[j]
                        for j in range(self.n)
                    ]) + (self.inputs[i], ), f"{self.name}_and{i}"))

        or0 = Or(tuple(ands), f"{self.name}_or0")

        self.output = or0
    def build(self):
        xors = []
        for i in range(self.n):
            xors.append(Xor((self.inputs[0][i], self.inputs[1][i]), f"{self.name}_xor{i}"))

        or0 = Or(tuple(xors), f"{self.name}_or0")

        self.output = Not(or0, f"{self.name}_not")
    def build(self):
        and0 = And(
            (self.inputs[0], Not(self.selectors[0], f"{self.name}_s0p")),
            f"{self.name}_and0")
        and1 = And((self.inputs[1], self.selectors[0]), f"{self.name}_and1")

        or0 = Or((and0, and1), f"{self.name}_or0")

        self.output = or0
Example #5
0
    def build(self):
        not0 = Not(self.input, f"{self.name}_not0")
        and1 = And((not0, self.clock), f"{self.name}_and1")
        and2 = And((self.input, self.clock), f"{self.name}_and2")

        or1 = Or(None, f"{self.name}_or1")
        or2 = Or(None, f"{self.name}_or2")
        not1 = Not(or1, f"{self.name}_not1")
        not2 = Not(or2, f"{self.name}_not2")
        or1.set_inputs((not2, and1))
        or2.set_inputs((not1, and2))

        self.output = not1
        self.outputp = not2
    def build(self):
        a, b = self.inputs[0], self.inputs[1]
        cin = self.cin

        xor0 = Xor((a, b), f"{self.name}_xor0")
        xor1 = Xor((xor0, cin), f"{self.name}_xor1")

        and0 = And((cin, xor0), f"{self.name}_and0")
        and1 = And((a, b), f"{self.name}_and1")

        or0 = Or((and0, and1), f"{self.name}_or0")

        self.sum = xor1
        self.cout = or0
    def build(self):
        s1 = self.selectors[0]
        s0 = self.selectors[1]
        s0p = Not(s0, f"{self.name}_s0p")
        s1p = Not(s1, f"{self.name}_s1p")

        and0 = And((s1p, s0p, self.inputs[0]), f"{self.name}_and0")
        and1 = And((s1p, s0, self.inputs[1]), f"{self.name}_and1")
        and2 = And((s1, s0p, self.inputs[2]), f"{self.name}_and2")
        and3 = And((s1, s0, self.inputs[3]), f"{self.name}_and3")

        or0 = Or((and0, and1, and2, and3), f"{self.name}_or0")

        self.output = or0
def generate_control(opcode):
    Op5, Op4, Op3, Op2, Op1, Op0 = int_to_logic(opcode[0]), \
                                   int_to_logic(opcode[1]), int_to_logic(opcode[2]), int_to_logic(opcode[3]), \
                                   int_to_logic(opcode[4]), int_to_logic(opcode[5])

    r_format = And((Not(Op5), Not(Op4), Not(Op3), Not(Op2), Not(Op1), Not(Op0)), "r_format")
    lw = And((Op5, Not(Op4), Not(Op3), Not(Op2), Op1, Op0))
    sw = And((Op5, Not(Op4), Op3, Not(Op2), Op1, Op0))
    beq = And((Not(Op5), Not(Op4), Not(Op3), Op2, Not(Op1), Not(Op0)))

    reg_dst = r_format
    alu_src = Or((lw, sw))
    mem_to_reg = lw
    reg_write = Or((r_format, lw))
    mem_read = lw
    mem_write = sw
    branch = beq
    alu_op1 = r_format
    alu_op0 = beq

    return {"reg_dst": reg_dst, "alu_src": alu_src, "mem_to_reg": mem_to_reg,
            "reg_write": reg_write, "mem_read": mem_read, "mem_write": mem_write
        , "branch": branch, "alu_op1": alu_op1, "alu_op0": alu_op0}