A thermodynamically unstable spin glass growth model described by means of the parametrically-dependent Kardar-Parisi-Zhang equation is analyzed within the symplectic geometry-based gradient-holonomic and optimal control motivated algorithms. The finitely-parametric functional extensions of the model are studied, and the existence of conservation laws and the related Hamiltonian structure is stated. A relationship of the Kardar-Parisi-Zhang equation to a so called dark type class of integrable dynamical systems, on functional manifolds with hidden symmetries, is stated.
Keywords: Lax–Noether condition; Poisson structure; asymptotic solution; complete integrability; conservation law; dark type flow; dynamical systems; optimal control problem; parametric evolution flow; symplectic analysis; symplectic structure; the Kardar–Parisi–Zhang-type equation; thermodynamic stability.