Variational Search Distributions
This addresses active generation for sequence design in bioengineering, offering a novel method for rare class conditioning.
The paper tackles the problem of conditioning generative models on rare desired classes for discrete combinatorial designs using black-box evaluations, introducing VSD which outperforms baseline methods on protein and DNA/RNA engineering tasks.
We develop VSD, a method for conditioning a generative model of discrete, combinatorial designs on a rare desired class by efficiently evaluating a black-box (e.g. experiment, simulation) in a batch sequential manner. We call this task active generation; we formalize active generation's requirements and desiderata, and formulate a solution via variational inference. VSD uses off-the-shelf gradient based optimization routines, can learn powerful generative models for desirable designs, and can take advantage of scalable predictive models. We derive asymptotic convergence rates for learning the true conditional generative distribution of designs with certain configurations of our method. After illustrating the generative model on images, we empirically demonstrate that VSD can outperform existing baseline methods on a set of real sequence-design problems in various protein and DNA/RNA engineering tasks.