HSE Scientists Optimise Training of Generative Flow Networks
Researchers at the HSE Faculty of Computer Science have optimised the training method for generative flow neural networks to handle unstructured tasks, which could make the search for new drugs more efficient. The results of their work were presented at ICLR 2025, one of the world’s leading conferences on machine learning. The paper is available at Arxiv.org.
Generative Flow Networks (GFlowNets) are a class of machine learning algorithms that build complex objects step by step. Researchers use them to search for new proteins and drugs, and to optimise transport systems.
For GFlowNets to discover such complex structures, researchers specify the desired properties of the target object. The closer the network’s proposed solution is to these properties, the higher the reward it receives. GFlowNets aim to solve problems in a way that maximises their reward. They do not rely on data directly, but instead on the reward, which is computed using an equation known as the value function.
The search for a complex object can be compared to assembling a Lego model, where pieces are added step by step until the object is complete, with each model assigned a specific value—for example, a plant model might be valued higher than an animal model. Unlike other machine learning methods that would strive to construct a plant at any cost, GFlowNets generate a variety of objects—but plants more frequently than animals—because the reward for plants is higher.
In this type of search, GFlowNets rely on two stochastic policies that operate together: a forward policy and a backward policy. The forward policy can be thought of as a construction foreman, deciding the next step and estimating the probability of the subsequent state, while the backward policy acts as a deconstruction expert, identifying the preceding step. Maintaining balance between these flows is crucial but difficult to achieve. First, it requires significant computing power. Second, backward policies lack flexibility: researchers usually prevent them from adapting during the search or from observing the actions of the forward policy.
HSE scientists have developed a way to optimise backward policies using a method called Trajectory Likelihood Maximisation (TLM). They refined the backward policy’s algorithms so that it can be continuously checked against the steps of the forward policy.
'We designed the search for the optimal solution to resemble a negotiation, where both sides are ready to adjust their positions. In highly uncertain problems, the backward policy serves only as an auxiliary tool that improves the results of the forward policy. Our goal was to make the backward policy more flexible, and we finally succeeded,' explains Timofey Gritsaev, co-author of the paper and Research Assistant of the Centre for Deep Learning and Bayesian Methods at the HSE FCS AI and Digital Science Institute.
After implementing TLM, the reward function that measures the backward model’s success became more complex. Nevertheless, despite this increased complexity, the overall search system became faster and more efficient.
'Our method explores the space of possible solutions noticeably faster and identifies more high-quality options. Overall, this approach brings generative models closer to reinforcement learning methods,' explains Nikita Morozov, Junior Research Fellow of the Centre for Deep Learning and Bayesian Methods at the AI and Digital Science Institute of the HSE FCS.
The authors of the study are confident that their work will benefit specialists using GFlowNets across various fields, including the search for new medicinal compounds, the development of materials with specific properties, and the fine-tuning of large language models. Thanks to these networks’ ability to efficiently explore vast solution spaces and quickly identify the best options, the demand on computing power can be significantly reduced.
Timofey Gritsaev
See also:
HSE Students Among Winners of Yandex High-Tech Startup Accelerator
Yandex has announced the results of its Yandex AI Startup Lab accelerator, whose final round featured 12 IT projects. Over the course of three months, their creators—students and young entrepreneurs—worked alongside the company’s experts to develop their products. Four startups in digital marketing, medicine, and robotics were named the best, with their teams receiving cash prizes and cloud resource grants. Among them was Gradius, a startup founded by students from HSE University.
Researchers Find More Effective Approach to Revealing Majorana Zero Modes in Superconductors
An international team of researchers, including physicists from HSE MIEM, has demonstrated that nonmagnetic impurities can help more accurately reveal Majorana zero modes—quantum states considered promising building blocks for quantum computing. The researchers found that these impurities shift the energy levels that typically obscure the Majorana signal, while leaving the mode itself largely unaffected, thereby making its spectral peak more distinct. The study has been published in Research.
New Development by HSE Scientists Helps Design Reliable Electronics Faster at a Lower Cost
Scientists from HSE MIEM have developed a new approach to modelling electrothermal processes in high-power electronic circuits on printed circuit boards (PCB). The method allows engineers to quickly and accurately predict how electronic components heat up during operation, helping prevent overheating and potential failures. The results have been published in Russian Microelectronics.
HSE Biologists Identify Factors That Accelerate Breast Cancer Recurrence
Scientists at HSE University have identified a molecular mechanism underlying aggressive breast cancer. They found that the signals supporting tumour growth originate not from the tumour itself but from its microenvironment. The researchers also demonstrated that reduced levels of the IGFBP6 protein in the tumour microenvironment lead to the accumulation of macrophages—immune cells associated with a higher risk of cancer recurrence. These findings already make it possible to assess patient risk more accurately and may, in the future, enable the development of drugs that target cells of the tumour microenvironment. The study has been published in Current Drug Therapy.
HSE University and Moscow DIT Partner to Advance 5G and 6G Networks
The Moscow Department of Information Technology and HSE University have signed a cooperation agreement in the field of innovative development of the capital’s IT infrastructure. The parties agreed on joint research into modern and promising communication technologies, including 5G and 6G, as well as AI, the Internet of Things, and other smart city technologies.
HSE University Presents Research Results at AI Conference in Oman
In April 2026, the International Conference on Intelligent Systems and Artificial Intelligence Applications (ISAA 2026) was held at the University of Nizwa in the Sultanate of Oman. The event was co-organised by HSE University, the University of Nizwa, and the University of Technology and Applied Sciences–Ibri. Researchers from HSE University were among the key speakers at the conference.
HSE’s CardioLife Test Among Winners of Data Fusion Awards 2026
The CardioLife genetic test—a development by the Centre for Biomedical Research and Technologies of the AI and Digital Science Institute at HSE University’s Faculty of Computer Science—has won the All-Russian cross-industry Data Fusion Awards, which recognise achievements in data and AI technologies. The project took first place in the Science–Business Partnership category, demonstrating a successful model for transferring technology from university research into the real healthcare sector.
HSE University Installs Geoscan Station at IIT Bombay
A Russian ground station for receiving SONIKS satellite data has been installed on the campus of the Indian Institute of Technology Bombay (IIT Bombay). Developed by Geoscan, the system will become part of a mirror laboratory project run jointly by HSE University and one of India’s leading universities.
HSE MIEM and MTS Launch Workshop on Innovative Solutions in Communication Networks
The HSE Tikhonov Moscow Institute of Electronics and Mathematics (MIEM) and MTS are launching a joint workshop in which students will work at the intersection of communications network engineering, data analysis, and digital technologies. The project is designed as a practice-oriented learning format, enabling students to tackle real industry challenges alongside company engineers and MIEM specialists. Registration to participate in the workshop is open until April 15, 2026.
HSE Unveils Anthropomorphic Courier Robot
From April 1 to 3, 2026, the Fourth Robotics Festival took place, with the HSE Faculty of Computer Science acting as the main organiser. The event featured the presentation of the anthropomorphic courier robot Arkus. The humanoid was introduced by the Institute for Robotic Systems, established jointly by HSE University and the EFKO Group of Companies.