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+@document.meta
+title: proof
+description: 
+authors: ericmarin
+categories: 
+created: 2026-03-16T11:34:52
+updated: 2026-03-16T18:31:41
+version: 1.1.1
+@end
+
+* Proof for translation from Pytorch representation to Interaction Net graph
+
+
+* Proof for the Interaction Rules
+** Mathematical Definitions
+	 - Linear(x, q, r) = q*x + r %with q,r Real%
+	 - Concrete(k) = k %with k Real%
+	 - Add(a, b) = a + b
+	 - AddCheckLinear(x, q, r, b) = q*x + (r + b) %with q,r Real%
+	 - AddCheckConcrete(k, b) = k + b %with k Real%
+	 - Mul(a, b) = a * b
+	 - MulCheckLinear(x, q, r, b) = q*b*x + r*b %with q,r Real%
+	 - MulCheckConcrete(k, b) = k*b %with k Real%
+	 - ReLU(x) = IF (x > 0) THEN x ELSE 0
+	 - Materialize(x) = x
+
+** Rules
+*** Formatting
+		Agent1 >< Agent2 => Wiring
+
+		LEFT SIDE MATHEMATICAL INTERPRETATION
+
+		RIGHT SIDE MATHEMATICAL INTERPRETATION
+
+		SHOWING EQUIVALENCE
+
+*** Materialize
+		The Materialize agent transforms a Linear agent into a tree of explicit mathematical operations
+		that are used as final representation for the solver.
+		In the Python module the terms are defined as:
+		@code python
+		def TermAdd(a, b):
+			return a + b  
+		def TermMul(a, b):
+			return a * b
+		def TermReLU(x):
+			return z3.If(x > 0, x, 0)
+		@end
+**** Linear(x, q, r) >< Materialize(out) => (1), (2), (3), (4), (5)
+
+		 Linear(x, q, r) = term
+		 Materialize(term) = out
+		 out = q*x + r
+
+		 $$ Case 1: q = 0 => out ~ Concrete(r), x ~ Eraser
+		 Concrete(r) = out
+		 out = r
+
+		 0*x + r = r => r = r
+		 $$
+
+		 $$ Case 2: q = 1, r = 0 => out ~ x
+		 x = out
+		 out = x
+
+		 1*x + 0 = x => x = x
+		 $$
+
+		 $$ Case 3: q = 1 => out ~ TermAdd(x, Concrete(r))
+		 TermAdd(x, Concrete(r)) = out
+		 out = x + r
+
+		 1*x + r = x + r => x + r = x + r
+		 $$
+
+		 $$ Case 4: r = 0 => out ~ TermMul(Concrete(q), x)
+		 TermMul(Concrete(q), x) = out
+		 out = q*x
+
+		 q*x + 0 = q*x => q*x = q*x
+		 $$
+
+		 $$ Case 5: otherwise => out ~ TermAdd(TermMul(Concrete(q), x), Concrete(r))
+		 TermAdd(TermMul(Concrete(q), x), r) = out
+		 out = q*x + r
+
+		 q*x + r = q*x + r
+		 $$
+
+**** Concrete(k) >< Materialize(out) => out ~ Concrete(k)
+
+		 Concrete(k) = term
+		 Materialize(term) = out
+		 out = k
+
+		 Concrete(k) = out
+		 out = k
+
+		 k = k
+
+*** Add
+**** Linear(x, q, r) >< Add(out, b) => b ~ AddCheckLinear(out, x, q, r)
+
+		 Linear(x, q, r) = a
+		 Add(a, b) = out
+		 out = q*x + r + b
+
+		 AddCheckLinear(x, q, r, b) = out
+		 out = q*x + (r + b)
+
+		 q*x + r + b = q*x + (r + b) => q*x + (r + b) = q*x + (r + b)
+
+**** Concrete(k) >< Add(out, b) => (1), (2)
+
+		 Concrete(k) = a
+		 Add(a, b) = out
+		 out = k + b
+
+		 $$ Case 1: k = 0 => out ~ b
+		 b = out
+		 out = b
+
+		 0 + b = b => b = b
+		 $$
+
+		 $$ Case 2: otherwise => b ~ AddCheckConcrete(out, k)
+		 AddCheckConcrete(k, b) = out
+		 out = k + b
+
+		 k + b = k + b
+		 $$
+
+**** Linear(y, s, t) >< AddCheckLinear(out, x, q, r) => (1), (2), (3), (4)
+
+		 Linear(y, s, t) = b
+		 AddCheckLinear(x, q, r, b) = out
+		 out = q*x + (r + s*y + t)
+
+		 $$ Case 1: q,r,s,t = 0 => out ~ Concrete(0), x ~ Eraser, y ~ Eraser
+		 Concrete(0) = out
+		 out = 0
+
+		 0*x + (0 + 0*y + 0) = 0 => 0 = 0
+		 $$
+
+		 $$ Case 2: s,t = 0 => out ~ Linear(x, q, r), y ~ Eraser
+		 Linear(x, q, r) = out
+		 out = q*x + r
+
+		 q*x + (r + 0*y + 0) = q*x + r => q*x + r = q*x + r
+		 $$
+
+		 $$ Case 3: q, r = 0 => out ~ Linear(y, s, t), x ~ Eraser
+		 Linear(y, s, t) = out
+		 out = s*y + t
+
+		 0*x + (0 + s*y + t) = s*y + t => s*y + t = s*y + t
+		 $$
+
+		 $$ Case 4: otherwise => Linear(x, q, r) ~ Materialize(out_x), Linear(y, s, t) ~ Materialize(out_y), out ~ Linear(TermAdd(out_x, out_y), 1, 0)
+		 Materialize(Linear(x, q, r)) = out_x
+		 Materialize(Linear(y, s, t)) = out_y
+		 Linear(TermAdd(out_x, out_y), 1, 0) = out
+		 out_x = q*x + r
+		 out_y = s*y + t
+		 out = 1*TermAdd(q*x + r, s*y + t) + 0
+		 Because TermAdd(a, b) is defined as "a+b":
+		 out = 1*(q*x + r + s*y + t) + 0
+
+		 q*x + (r + s*y + t) = 1*(q*x + r + s*y + t) + 0 => q*x + r + s*y + t = q*x + r + s*y + t
+		 $$
+
+**** Concrete(j) >< AddCheckLinear(out, x, q, r) => out ~ Linear(x, q, r + j)
+
+		 Concrete(j) = b
+		 AddCheckLinear(x, q, r, b) = out
+		 out = q*x + (r + j)
+
+		 Linear(x, q, r + j) = out
+		 out = q*x + (r + j)
+
+		 q*x + (r + j) = q*x + (r + j)
+
+**** Linear(y, s, t) >< AddCheckConcrete(out, k) => out ~ Linear(y, s, t + k)
+
+		 Linear(y, s, t) = b
+		 AddCheckConcrete(k, b) = out
+		 out = k + s*y + t
+
+		 Linear(y, s, t + k)
+		 out = s*y + (t + k)
+
+		 k + s*y + t = s*y + (t + k) => s*y + (t + k) = s*y + (t + k)
+
+**** Concrete(j) >< AddCheckConcrete(out, k) => (1), (2)
+
+		 Concrete(j) = b
+		 AddCheckConcrete(k, b) = out
+		 out = k + j
+
+		 $$ Case 1: j = 0 => out ~ Concrete(k)
+		 Concrete(k) = out
+		 out = k
+
+		 k + 0 = k => k = k
+		 $$
+
+		 $$ Case 2: otherwise => out ~ Concrete(k + j)
+		 Concrete(k + j) = out
+		 out = k + j
+
+		 k + j = k + j
+		 $$
+
+*** Mul
+**** Linear(x, q, r) >< Mul(out, b) => b ~ MulCheckLinear(out, x, q, r)
+
+		 Linear(x, q, r) = a
+		 Mul(a, b) = out
+		 out = (q*x + r) * b
+
+		 MulCheckLinear(x, q, r, b) = out
+		 out = q*b*x + r*b
+
+		 (q*x + r) * b = q*b*x + r*b => q*b*x + r*b = q*b*x + r*b
+
+**** Concrete(k) >< Mul(out, b) => (1), (2), (3)
+
+		 Concrete(k) = a
+		 Mul(a, b) = out
+		 out = k * b
+
+		 $$ Case 1: k = 0 => out ~ Concrete(0), b ~ Eraser
+		 Concrete(0) = out
+		 out = 0
+
+		 0 * b = 0 => 0 = 0
+		 $$
+
+		 $$ Case 2: k = 1 => out ~ b
+		 b = out
+		 out = b
+
+		 1 * b = b => b = b
+		 $$
+
+		 $$ Case 3: otherwise => b ~ MulCheckConcrete(out, k)
+		 MulCheckConcrete(k, b) = out
+		 out = k * b
+
+		 k * b = k * b
+		 $$
+
+**** Linear(y, s, t) >< MulCheckLinear(out, x, q, r) => (1), (2)
+
+		 Linear(y, s, t) = b
+		 MulCheckLinear(x, q, r, b) = out
+		 out = q\*(s*y + t)\*x + r*(s*y + t)
+
+		 $$ Case 1: (q,r = 0) or (s,t = 0) => x ~ Eraser, y ~ Eraser, out ~ Concrete(0)
+		 Concrete(0) = out
+		 out = 0
+
+		 0\*(s*y + t)\*x + 0*(s*y + t) = 0 => 0 = 0
+		 or
+		 q\*(0*y + 0)\*x + r*(0*y + 0) = 0 => 0 = 0
+		 $$
+
+		 $$ Case 2: otherwise => Linear(x, q, r) ~ Materialize(out_x), Linear(y, s, t) ~ Materialize(out_y), out ~ Linear(TermMul(out_x, out_y), 1, 0)
+		 Materialize(Linear(x, q, r)) = out_x
+		 Materialize(Linear(y, s, t)) = out_y
+		 Linear(TermMul(out_x, out_y), 1, 0) = out
+		 out_x = q*x + r
+		 out_y = s*y + t
+		 out = 1*TermMul(q*x + r, s*y + t) + 0
+		 Because TermMul(a, b) is defined as "a*b":
+		 out = 1*(q*x + r)*(s*y + t) + 0
+
+		 q*(s*y + t)\*x + r*(s*y + t) = 1*(q*x + r)\*(s*y + t) => 
+		 q\*(s*y + t)\*x + r*(s*y + t) = (q*x + r)\*(s*y + t) => 
+		 q\*(s*y + t)\*x + r*(s*y + t) = q\*(s*y + t)\*x + r*(s*y + t)
+		 $$
+
+**** Concrete(j) >< MulCheckLinear(out, x, q, r) => out ~ Linear(x, q * j, r * j)
+
+		 Concrete(j) = b
+		 MulCheckLinear(x, q, r, b) = out
+		 out = q*j*x + r*j
+
+		 Linear(x, q * j, r * j) = out
+		 out = q*j*x + r*j
+
+		 q*j*x + r*j = q*j*x + r*j
+
+**** Linear(y, s, t) >< MulCheckConcrete(out, k) => out ~ Linear(y, s * k, t * k)
+
+		 Linear(y, s, t) = b
+		 MulCheckConcrete(k, b) = out
+		 out = k * (s*y + t)
+
+		 Linear(y, s * k, t * k) = out
+		 out = s*k*y + t*k
+
+		 k * (s*y + t) = s*k*y + t*k => s*k*y + t*k = s*k*y + t*k
+
+**** Concrete(j) >< MulCheckConcrete(out, k) => (1), (2), (3)
+
+		 Concrete(j) = b
+		 MulCheckConcrete(k, b) = out
+		 out = k * j
+
+		 $$ Case 1: j = 0 => out ~ Concrete(0)
+		 Concrete(0) = out
+		 out = 0
+
+		 k * 0 = 0 => 0 = 0
+		 $$
+
+		 $$ Case 2: j = 1 => out ~ Concrete(k)
+		 Concrete(k) = out
+		 out = k
+
+		 k * 1 = k => k = k
+		 $$
+
+		 $$ Case 3: otherwise => out ~ Concrete(k * j)
+		 Concrete(k * j) = out
+		 out = k * j
+
+		 k * j = k * j
+
+*** ReLU
+**** Linear(x, q, r) >< ReLU(out) => Linear(x, q, r) ~ Materialize(out_x), out ~ Linear(TermReLU(out_x), 1, 0)
+
+		 Linear(x, q, r) = x
+		 ReLU(x) = out
+		 out = IF (q*x + r) > 0 THEN (q*x + r) ELSE 0
+
+		 Materialize(Linear(x, q, r)) = out_x
+		 Linear(TermReLU(out_x), 1, 0) = out
+		 out_x = q*x + r
+		 out = 1*TermReLU(q*x + r) + 0
+		 Because TermReLU(x) is defined as "z3.If(x > 0, x, 0)":
+		 out = 1*(IF (q*x + r) > 0 THEN (q*x + r) ELSE 0) + 0
+
+		 IF (q*x + r) > 0 THEN (q*x + r) ELSE 0 = 1*(IF (q*x + r) > 0 THEN (q*x + r) ELSE 0) + 0 =>
+		 IF (q*x + r) > 0 THEN (q*x + r) ELSE 0 = IF (q*x + r) > 0 THEN (q*x + r) ELSE 0
+
+**** Concrete(k) >< ReLU(out) => (1), (2)
+
+		 Concrete(k) = x
+		 ReLU(x) = out
+		 out = IF k > 0 THEN k ELSE 0
+
+		 $$ Case 1: k > 0 => out ~ Concrete(k)
+		 Concrete(k) = out
+		 out = k
+
+		 IF true THEN k ELSE 0 = k => k = k
+		 $$
+
+		 $$ Case 2: k <= 0 => out ~ Concrete(0)
+		 Concrete(0) = out
+		 out = 0
+
+		 IF false THEN k ELSE 0 = 0 => 0 = 0
+		 $$