diff --git a/specs/_features/eip7594/polynomial-commitments-sampling.md b/specs/_features/eip7594/polynomial-commitments-sampling.md index 60ecafe17b..a238a95fe2 100644 --- a/specs/_features/eip7594/polynomial-commitments-sampling.md +++ b/specs/_features/eip7594/polynomial-commitments-sampling.md @@ -315,20 +315,19 @@ def compute_kzg_proof_multi_impl( Where: - r(X) is the degree `k-1` polynomial that agrees with f(x) at all `k` points - Z(X) is the degree `k` polynomial that evaluates to zero on all `k` points + + We further note that since the degree of r(X) is less than the degree of Z(X), + the computation can be simplified in monomial form to Q(X) = f(X) / Z(X) """ # For all points, compute the evaluation of those points ys = [evaluate_polynomialcoeff(polynomial_coeff, z) for z in zs] - # Compute r(X) - interpolation_polynomial = interpolate_polynomialcoeff(zs, ys) - # Compute f(X) - r(X) - polynomial_shifted = add_polynomialcoeff(polynomial_coeff, neg_polynomialcoeff(interpolation_polynomial)) # Compute Z(X) denominator_poly = vanishing_polynomialcoeff(zs) # Compute the quotient polynomial directly in monomial form - quotient_polynomial = divide_polynomialcoeff(polynomial_shifted, denominator_poly) + quotient_polynomial = divide_polynomialcoeff(polynomial_coeff, denominator_poly) return KZGProof(g1_lincomb(KZG_SETUP_G1_MONOMIAL[:len(quotient_polynomial)], quotient_polynomial)), ys ```