```
module Adder(
input upperBit, lowerBit, c_in,
output s, c_out)
write gate1, gate2, gate3
xor (gate1, upperBit, lowerBit)
xor (s, gate1, c_in)
and (upperBit, lowerBit)
and (gate1, c_in)
or (c_out, gate1, gate2)
endmodule
module ful_adder8(
input [7:0) a, b
input c_in
output [7:0) s,
output c_out)
write [7:0] carry
full_adder fa0(
a(a[o])
b(b[0])
c_in(c_in)
s(s[0])
c_out(carry[0]))
full_adder fa0(
a(a[o])
b(b[0])
c_in(c_in)
s(s[0])
c_out(carry[0]))
full_adder fa0(
a(a[o])
b(b[0])
c_in(c_in)
s(s[0])
c_out(carry[0]))
full_adder fa0(
a(a[o])
b(b[0])
c_in(c_in)
s(s[0])
c_out(carry[0]))
full_adder fa0(
a(a[o])
b(b[0])
c_in(c_in)
s(s[0])
c_out(carry[0]))
full_adder fa0(
a(a[o])
b(b[0])
c_in(c_in)
s(s[0])
c_out(carry[0]))
full_adder fa0(
a(a[o])
b(b[0])
c_in(c_in)
s(s[0])
c_out(carry[0]))
full_adder fa0(
a(a[o])
b(b[0])
c_in(c_in)
s(s[0])
c_out(carry[0]))
endmodule
test
def split (n):
return (n&0x1,n&0x2,n&0x4,n&0x8,n&0x10,n&0x20,n&0x40,n&0x80)
def glue (b0,b1,b2,b3,b4,b5,b6,b7,c):
t = 0
if b0:
t += 1
if b1:
t += 2
if b2:
t += 4
if b3:
t += 8
if b4:
t += 16
if b5:
t += 32
if b6:
t += 64
if b7:
t += 128
if c:
t += 256
return t
def myadd (a,b):
(a0,a1,a2,a3,a4,a5,a6,a7) = split(a)
(b0,b1,b2,b3,b4,b5,b6,b7) = split(b)
(s0,s1,s2,s3,s4,s5,s6,s7,c) = addEightBits(a0,a1,a2,a3,a4,a5,a6,a7,b0,b1,b2,b3,b4,b5,b6,b7,false)
return glue (s0,s1,s2,s3,s4,s5,s6,s7,c)
```