Inverse molecular design is critical in material science and drug discovery, where the generated molecules should satisfy certain desirable properties. In this paper, we propose equivariant energy-guided stochastic differential equations (EEGSDE), a flexible framework for controllable 3D molecule generation under the guidance of an energy function in diffusion models. Formally, we show that EEGSDE naturally exploits the geometric symmetry in 3D molecular conformation, as long as the energy function is invariant to orthogonal transformations. Empirically, under the guidance of designed energy functions, EEGSDE significantly improves the baseline on QM9, in inverse molecular design targeted to quantum properties and molecular structures. Furthermore, EEGSDE is able to generate molecules with multiple target properties by combining the corresponding energy functions linearly.
翻译:反分子设计在物质科学和药物发现中至关重要, 生成的分子应满足某些可取的特性。 在本文中, 我们提议了等量能源制导蒸气式方程式( EEGSDE ), 这是在扩散模型中能源函数指导下可控的3D分子生成的灵活框架。 形式上, 我们显示 EEGSDE 自然地在3D分子相容中利用几何对称, 只要能量函数不易对正方形变换。 在设计能源函数的指导下, EEGSDE 显著改进了QM9 的基线, 以量性与分子结构为对象的反分子设计。 此外, EGSDE 通过将相应的能量函数线性地结合, 能够产生具有多重目标特性的分子。