R

     ↳Dependency Pair Analysis

AND(xor(x, y), z) -> XOR(and(x, z), and(y, z))
AND(xor(x, y), z) -> AND(x, z)
AND(xor(x, y), z) -> AND(y, z)
IMPL(x, y) -> XOR(and(x, y), xor(x, T))
IMPL(x, y) -> AND(x, y)
IMPL(x, y) -> XOR(x, T)
OR(x, y) -> XOR(and(x, y), xor(x, y))
OR(x, y) -> AND(x, y)
OR(x, y) -> XOR(x, y)
EQUIV(x, y) -> XOR(x, xor(y, T))
EQUIV(x, y) -> XOR(y, T)
NEG(x) -> XOR(x, T)

   R

     ↳DPs

       →DP Problem 1

         ↳Polynomial Ordering

AND(xor(x, y), z) -> AND(y, z)
AND(xor(x, y), z) -> AND(x, z)

xor(x, F) -> x
xor(x, neg(x)) -> F
xor(x, x) -> F
and(x, T) -> x
and(x, F) -> F
and(x, x) -> x
and(xor(x, y), z) -> xor(and(x, z), and(y, z))
impl(x, y) -> xor(and(x, y), xor(x, T))
or(x, y) -> xor(and(x, y), xor(x, y))
equiv(x, y) -> xor(x, xor(y, T))
neg(x) -> xor(x, T)

AND(xor(x, y), z) -> AND(y, z)
AND(xor(x, y), z) -> AND(x, z)

POL(xor(x1, x2))	=  1 + x1 + x2
POL(AND(x1, x2))	=  x1

   R

     ↳DPs

       →DP Problem 1

         ↳Polo

           →DP Problem 2

             ↳Dependency Graph

xor(x, F) -> x
xor(x, neg(x)) -> F
xor(x, x) -> F
and(x, T) -> x
and(x, F) -> F
and(x, x) -> x
and(xor(x, y), z) -> xor(and(x, z), and(y, z))
impl(x, y) -> xor(and(x, y), xor(x, T))
or(x, y) -> xor(and(x, y), xor(x, y))
equiv(x, y) -> xor(x, xor(y, T))
neg(x) -> xor(x, T)