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Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

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Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery
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Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

2026-07-07 08:00 Last Updated At:08:15

All-atom biomolecular foundation model uses co-folding as the entry point to a scalable drug discovery engine; the release marks a concrete step toward advancing open scientific AI for future biomedical research that benefit patients. 

LAGUNA HILLS, Calif. and SHANGHAI, July 7, 2026 /PRNewswire/ -- Aureka, an AI TechBio company building infrastructure for AI-driven biologics discovery, today announced the release of Open Drug Discovery Engine (OpenDDE), an open-source, all-atom biomolecular foundation model designed to serve as the structural reasoning core of next-generation drug discovery systems.

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Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

OpenDDE uses biomolecular co-folding as the entry point to model interactions across proteins, nucleic acids, small-molecule ligands, and other biomolecular components. Rather than treating structure prediction as an isolated endpoint, OpenDDE is designed as a shared structural reasoning layer for sequence–structure–function modeling, enabling complex structure prediction today while laying the foundation for de novo design, affinity estimation, structure-conditioned optimization, and closed-loop discovery workflows. Across in silico benchmarks, OpenDDE shows competitive co-folding performance and narrows the gap with reported IsoDDE-level results, while offering an open and reproducible framework for the broader drug discovery community.

"OpenDDE begins with open, all-atom co-folding and structural reasoning. On selected in silico benchmarks, it shows competitive performance that narrows the gap with reported IsoDDE-level results. We view this release as an early foundation toward a broader drug discovery engine: a system that can progressively connect structure prediction, molecular design, affinity estimation, and experimental feedback to support more informed exploration of disease- and target-relevant molecular space."

—Will Hua from Aureka AI Research

"OpenDDE begins with open, all-atom co-folding and structural reasoning. On selected in silico benchmarks, it shows competitive performance that narrows the gap with reported IsoDDE-level results. We view this release as an early foundation toward a broader drug discovery engine: a system that can progressively connect structure prediction, molecular design, affinity estimation, and experimental feedback to support more informed exploration of disease- and target-relevant molecular space."

—Will Hua from Aureka AI Research

Three Technical Contributions Behind OpenDDE

  • Atomic latent reasoning over biomolecular tokens. OpenDDE introduces latent reasoning for biomolecular modeling by refining representations of local geometry, chemical context, and cross-molecular interfaces before all-atom structure generation.
  • A folding-centered foundation for an extensible drug-discovery engine. OpenDDE currently focuses on complex structure prediction, but its unified architecture is designed to support de novo molecular design, affinity prediction, and other structure-conditioned modules.
  • Scaling laws and data distillation. Aureka studies scaling directions along model-parameter, data, inference, and training axes, pointing to practical routes for continued improvement in biomolecular foundation models.

Open Benchmark Performance in Antibody-Antigen Co-Folding

In Aureka's technical report, OpenDDE demonstrates strong antibody-antigen co-folding performance across three benchmarks. Under top-ranked selection, OpenDDE reaches 51.0% success on PXMeter-AB, 70.0% on FoldBench-AB, and 66.4% on the newly curated 2026ARK-AB benchmark. Under oracle selection, the corresponding success rates rise to 65.9%, 81.9%, and 80.1%, indicating strong latent sampling capacity and a clear opportunity for further gains through confidence calibration and candidate ranking.

The results are particularly relevant for therapeutic discovery because antibody-antigen interfaces are difficult, flexible, and chemically diverse. Aureka reports that OpenDDE improves not only low-threshold recovery but also medium- and high-quality DockQ regimes, suggesting stronger modeling of binding geometry rather than merely producing marginally acceptable complexes.

Biomolecular Foundation Models Are Entering the Scaling Era

OpenDDE has approximately 655 million trainable parameters. Aureka reports that the model required approximately 414,000 GPU-hours for training, equivalent to roughly 54 years on a single computing unit. This scale reflects a broader shift in AI for Biology: the frontier is no longer only an algorithm problem, but an infrastructure problem requiring compute, data pipelines, engineering, evaluation, and long-running training windows.

Aureka's analysis identifies clear scaling trends for biomolecular foundation models, suggesting that larger effective training corpora, larger models, more capable inference-time sampling, and post-training improvements can systematically translate into stronger biological reasoning and structure prediction. For Aureka, this is a signal that biomolecular AI is beginning to enter a scaling regime analogous to the one that transformed large language models.

An Open Release for the Global Scientific Community

OpenDDE is released to make frontier biomolecular modeling more accessible to researchers, startups, academic laboratories, and multinational corporations. Aureka is releasing training code, inference pipelines, checkpoints, and benchmarks under the Apache-2.0 license, with the goal of enabling independent validation, community-driven extension, and global collaboration.

The release is available at:

Building TechBio Infrastructures

OpenDDE is an initial foundation for that future. Today, it serves structure prediction, antibody-antigen modeling, and drug discovery research. Over time, Aureka will extend the system toward de novo design, affinity estimation, conformational ensemble modeling, structure-conditioned optimization, experimental feedback, and broader scientific world modeling.

Aureka is also pairing this computational foundation with a high-throughput automated wet-lab platform to build a dry-wet closed-loop discovery system. By integrating autonomous antibody-design agents with high-throughput single-cell functional screening and automated yeast evolution, Aureka aims to create a high-throughput, high-content experimental data flywheel for functional antibody discovery. This platform allows AI agents to propose candidates, test them through automated experimental workflows, absorb functional and phenotypic feedback, and iteratively improve their design strategies.

Together, Aureka's TechBio infrastructures are designed to support the next generation of antibody discovery across complex modalities such as epitope-specific antibodies, multispecific antibodies, internalizing antibodies, and pH-switch antibodies, with the long-term goal of developing differentiated First-in-Class and Best-in-Class therapeutic pipelines.

About Aureka

Aureka is an AI TechBio company developing infrastructure for AI-driven biology and therapeutic discovery. The company integrates large-scale compute, biomolecular foundation models, high-throughput wet-lab systems, and data flywheel capabilities to accelerate discovery in complex biological systems. Aureka's mission is to improve human health by digitalizing and democratizing therapeutic discovery.

Forward-Looking Statements

This press release contains forward-looking statements regarding Aureka, OpenDDE, future research directions, product plans, and potential applications. These statements are based on current expectations and assumptions and are subject to risks and uncertainties, including technical, experimental, regulatory, commercial, and market factors. OpenDDE's current release focuses primarily on biomolecular structure modeling and co-folding. Downstream capabilities such as molecular design, affinity prediction, conformational ensemble modeling, active learning, experimental feedback, and clinical translation require further research, validation, and development. Aureka does not guarantee the discovery, approval, or commercialization of any specific therapeutic candidate.

** This press release is distributed by PR Newswire through automated distribution system, for which the client assumes full responsibility. **

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

Aureka Releases OpenDDE, an Open-Source Drug Discovery Engine Designed to Accelerate AI-Driven Therapeutic Discovery

BANGKOK, July 7, 2026 /PRNewswire/ -- Sungrow, the globally leading PV inverter and energy storage system provider, showcased its latest residential, C&I, and utility-scale solutions at Asia Sustainable Energy Week (ASEW) 2026, reaffirming its commitment to advancing Southeast Asia's clean energy transition through localized innovation.

At ASEW 2026, Sungrow brought a comprehensive portfolio of PV and storage solutions tailored to local market needs, helping homeowners, businesses, project developers and utilities improve energy resilience, maximize solar value and achieve their long-term decarbonization goals.

Brand-New Low-Voltage Residential Storage Solution for Thai Households

To meet Thailand's rapidly growing residential energy demand, Sungrow unveiled its brand-new low-voltage residential solar & storage solution, featuring the MG5/10RL hybrid inverters and stackable MBL battery modules.

As electricity costs continue to rise and reliable backup power becomes increasingly important, Thai homeowners are seeking smarter and more flexible home energy solutions. The MGRL single-phase hybrid inverter is designed to deliver smarter and more user-friendly home energy management, tailored for mainstream residential applications in the country.

The MGRL series enables fast on/off-grid switching to ensure stable backup power during outages, while its modular battery system allows flexible capacity expansion to meet different household needs. Built for the local hot and humid climate, the solution combines reliability and adaptability for residential energy use. Equipped with AFCI (Arc Fault Circuit Interruption) protection to enhance electrical safety, the system effectively detects and mitigates arc faults. With an IP65 protection rating, it ensures strong resistance to dust and water ingress for stable outdoor operation. Designed for local coastal and high-humidity environments, the solution adopts CT5 anti-corrosion protection, significantly improving durability against salt mist and corrosive conditions. Together with optimized thermal design and robust system architecture, the MGRL series delivers reliable long-term performance for residential applications.

Empowering C&I and Utility Energy Transition

For commercial and industrial applications, Sungrow displayed the reliable SH125CX hybrid inverter and ST050CF stackable battery cabinet solution. Designed for factories, shopping malls and industrial parks, the integrated system enables effective peak shaving, intelligent demand control and uninterrupted backup power supply, helping local enterprises cut operational electricity costs and improve energy resilience. Optimized for tropical outdoor working conditions, the solution ensures stable year-round operation for commercial and industrial energy assets.

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"Southeast Asia is entering a new stage of energy transformation, creating growing demand for localized, reliable and intelligent clean energy solutions," said Luis Xu, General Manager of Sungrow APAC Region. "At ASEW 2026, we are showcasing technologies specifically designed to meet local market needs. Together with our partners, we remain committed to accelerating Thailand's clean energy transition and supporting a more sustainable energy future across Southeast Asia."

As Southeast Asia's clean energy market continues to grow, Sungrow will continue to drive innovation and deliver localized PV and storage solutions that create long-term value for customers and accelerate the region's energy transition.

Contact: 
Wang Luly
luly.wang@sungrow-hq.com 
+86-15618330862

** This press release is distributed by PR Newswire through automated distribution system, for which the client assumes full responsibility. **

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