Alternatives to SILCS
Compare SILCS alternatives for your business or organization using the curated list below. SourceForge ranks the best alternatives to SILCS in 2026. Compare features, ratings, user reviews, pricing, and more from SILCS competitors and alternatives in order to make an informed decision for your business.
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SYNTHIA Retrosynthesis Software
Merck KGaA
Expert-coded by chemists and engineered by computer scientists, SYNTHIA™ Retrosynthesis Software enables scientists to quickly find and easily navigate innovative and novel pathways for novel and published target molecules. Quickly and efficiently scan hundreds of pathways to help you identify the best option according to your needs. Explore the most cost-effective routes to your target molecules with state of the art visualization and filtering options. Easily customize search parameters to eliminate or promote reactions, reagents or classes of molecules. Explore unique and innovative syntheses that may be unknown for building your desired molecule. Easily generate a list of commercially available starting materials for your synthesis. Benefit from ISO/IEC 27001 Information Security Certification to guarantee the confidentiality, integrity, and protection of your data.Starting Price: €0 / 30 days -
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FindMolecule
FindMolecule
FindMolecule is an innovative online inventory and ELN platform for chemists and biologists. It is used in labs all around the world to improve their efficiency. Great for structure searches, barcode scanning, health & safety, orders management and much more. The electronic lab notebook is the most intuitive on the market. Our inventory management software and our ELN are very intuitive. FindMolecule is built to satisfy the requirements of the most security-sensitive organizations. Link your inventory to your electronic lab notebook in one click! Use our innovative drawing application to search your products by structure. No more excel files is requiered! Reduce errors and eliminate waste time of manual recordkeeping using barcodes. Use our chemical inventory management system and facilitate your work with our advanced features: the multiscan module, the structure and substructure search, the “Order” section including an impressive database. -
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Aurora Drug Discovery
Aurora Fine Chemicals
Aurora employs quantum mechanics, thermodynamics, and an advanced continuous water model for solvation effects to calculate ligand´s binding affinities. This approach differs dramatically from scoring functions that are commonly used for binding affinity predictions. By including the entropy and aqueous electrostatic contributions in to the calculations directly, Aurora algorithms produce much more accurate and robust values of binding free energies. Interaction of a ligand with a protein is characterized by the value of binding free energy. The free energy (F) is the thermodynamic quantity that is directly related to experimentally measurable value of inhibition constant (IC50) and depends on electrostatic, quantum, aqueous solvation forces, as well as on statistical properties of interacting molecules. There are two major contributing quantities leading to non-additivity in F: 1) the electrostatic and solvation energy and 2) the entropy. -
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3decision
Discngine
3decision® is a cloud-based protein structure repository designed for comprehensive structural data management and advanced analytics, enabling small molecule and biologics discovery teams to accelerate structure-based drug design. It centralizes and standardizes experimental and in-silico protein structures from public sources like RCSB PDB and AlphaFoldDB, as well as proprietary data, supporting formats like PDBx/mmCIF and ModelCIF. This ensures easy access to X-Ray, NMR, cryo-EM, and modeled structures, fostering collaboration and enhancing research efforts. Beyond storage, 3decision® enriches entries with metadata and sequence information, including protein-ligand interactions, antibody annotations, and binding site details. Advanced analytical tools identify druggable sites, assess off-target risks, and enable binding site comparisons, transforming vast structural data into actionable knowledge. Its cloud-based platform facilitates collaboration among research teams. -
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AutoDock
AutoDock
AutoDock is a suite of automated docking tools. It is designed to predict how small molecules, such as substrates or drug candidates, bind to a receptor of known 3D structure. Over the years, it has been modified and improved to add new functionalities, and multiple engines have been developed. Current distributions of AutoDock consist of two generations of software: AutoDock 4 and AutoDock Vina. More recently, we developed AutoDock-GPU, an accelerated version of AutoDock4 that is hundreds of times faster than the original single-CPU docking code. AutoDock 4 actually consists of two main programs: autodock performs the docking of the ligand to a set of grids describing the target protein; autogrid pre-calculates these grids. In addition to using them for docking, the atomic affinity grids can be visualized. This can help, for example, to guide organic synthetic chemists design better binders. -
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LigPlot+
EMBL-EBI
LigPlot+ is a successor to our original LIGPLOT program for the automatic generation of 2D ligand-protein interaction diagrams. It is run from an intuitive java interface that allows on-screen editing of the plots via mouse click-and-drag operations. In addition to the new interface, the program includes several major enhancements over the old version. When two or more ligand-protein complexes are sufficiently similar, LigPlot+ can automatically display their interaction diagrams either superposed or side by side. Any conserved interactions are highlighted. The LigPlot+ suite also now includes an update of the original DIMPLOT program for plotting protein-protein or domain-domain interactions. Users can flexibly select the interface of interest and DIMPLOT will then generate a diagram showing the residue-residue interactions across the interface. To assist in interpretation, the residues in one of the interfaces can be optionally displayed in sequence order. -
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Bruker Drug Discovery
Bruker
Bringing a new drug into the market, from the first step to the final market introduction, is a time-consuming, highly regulated, and expensive process, which can take a decade or more. Final success crucially depends on the early availability of accurate analytical results, fast enough for taking the right decisions at the beginning of the development and minimizing late attrition rates. Today’s drug development is mainly based on a rational approach where typically establishing the biological target to focus on is the first key step. This target identification requires a deep understanding of the candidates´ properties to identify the most promising ones as quickly and reliable as possible. Once a biological target has been established, finding the most promising lead molecules is often seen as the next challenge. Typically, lead discovery is the identification of potential drug candidates – either small organic molecules or biologic assemblies with therapeutic potential. -
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alvaBuilder
Alvascience
alvaBuilder is a no-code de novo molecular design software for generating novel chemical structures that satisfy user-defined structural, physicochemical, and modeling constraints. It enables the creation of new molecules starting from scratch or by evolving existing structures using fragment-based and rule-driven approaches. alvaBuilder integrates seamlessly with QSAR/QSPR workflows, allowing users to guide molecule generation using predictive models, descriptor ranges, and property targets. The software supports medicinal chemistry, lead optimization, and virtual screening tasks by efficiently exploring chemical space while maintaining chemical feasibility and interpretability. alvaBuilder is designed for research and industrial applications where transparent, controllable, and reproducible molecular generation is required. -
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Atomwise
Atomwise
We use our AI engine to transform drug discovery. Our discoveries help create better medicines faster. Our AI-enabled discovery portfolio includes wholly-owned and co-developed pipeline assets, and is backed by prominent investors. Atomwise developed a machine-learning-based discovery engine that combines the power of convolutional neural networks with massive chemical libraries to discover new small-molecule medicines. The secret to reinventing drug discovery with AI is people. We are dedicated to developing the best AI platform and using it to transform small molecule drug discovery. We have to tackle the most challenging, seemingly impossible targets and streamline the drug discovery process to give drug developers more shots on goal. Computational efficiency enables screening of trillions of compounds in silico, increasing the likelihood of success. Demonstrated exquisite model accuracy, overcoming the challenge of false positives. -
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VeraChem
VeraChem
VeraChem LLC was founded in 2000 to advance the state of the art in computer-aided drug discovery and molecular design by developing computational chemistry methods that are based on cutting-edge basic science but are also applicable in applied science research settings. Efficient high-performance software implementations of these methods coupled with comprehensive user support are a central company strategy for product development. Current VeraChem software capabilities include protein-ligand and host-guest binding affinity prediction, fast calculation of accurate partial atomic charges for drug-like compounds, computation of energies and forces with all the commonly used empirical force fields, automatic generation of alternate resonance forms of drug-like compounds, conformational search with the powerful Tork algorithm, and automatic detection of topological and 3D molecular symmetries. VeraChem’s software packages are constructed from a modular code base. -
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AIDDISON
Merck KGaA
AIDDISON™ drug discovery software combines the power of artificial intelligence (AI), machine learning (ML), and 3D computer-aided drug design (CADD) methods to act as a valuable toolkit for medicinal chemistry needs. As a unified platform for efficient and effective ligand-based and structure-based drug design, it integrates all the facets for virtual screening and supports methods for in-silico lead discovery and lead optimization. -
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Iktos
Iktos
Makya is the first user-friendly SaaS platform for AI-driven de novo drug design focused on Multi-Parametric Optimization (MPO). It enables the design of novel and easy-to-make compounds in line with a multi-objective blueprint with unprecedented speed, performance, and diversity. Makya offers multiple generative algorithms covering different use cases from hit discovery to lead optimization: fine-tuning generator to find optimal solutions within your chemical space in line with your project blueprint; novelty generator to find new ideas with high novelty for re-scaffolding/hit discovery; forward generator to design a focused library of compounds easily accessible from commercial starting materials. The new Makya 3D module enhances the user experience and scientific utility of Makya. With an extensive set of 3D modeling features in both ligand-based and structure-based pipelines, with Makya 3D you can now calculate 3D scores and use these to guide generations natively in Makya. -
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alvaMolecule
Alvascience
alvaMolecule is a no-code cheminformatics tool for visualizing, curating, and standardizing molecular datasets before analysis. It supports common molecular formats (SMILES, SDF/MOL2) and lets users explore collections in grid or spreadsheet views, with automatic import of associated data. The software provides structure verification and standardization using predefined standardizers and custom SMIRKS rules, helps detect and manage duplicates, and offers scaffold analysis to summarize core frameworks. Built-in filters and charting tools enable sorting by substructure, calculated molecular descriptors, and physicochemical properties. alvaMolecule calculates ~88 structural and physicochemical properties, including drug-like and lead-like scores such as LogP, TPSA, and the Lipinski alert index, helping prepare high-quality datasets for QSAR/QSPR modeling, descriptor calculation, and virtual screening workflows. -
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BIOiSIM
VERISIMLife
BIOiSIMTM is a first-in-class 'virtual drug development engine' that offers unprecedented value for the drug development industry by narrowing down the number of drug compounds that offer anticipated value for the treatment or cure of specific illnesses or diseases. We offer a range of translational-based solutions, customized for your pre-clinical and clinical programs. These offerings are all centered around our proven and validated BIOiSIMTM platform for small molecules, large molecules, and viruses. Our models are built on data from thousands of compounds across 7 species, leading to robustness rarely seen in the industry. With a focus on human outcomes, the platform has at its core a translatability engine that transforms insights across species. The BIOiSIMTM platform can be used before the preclinical animal trial start, allowing earlier insights and savings in expensive outsourced experimentation. -
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BIOVIA Discovery Studio
Dassault Systèmes
Today’s biopharmaceutical industry is marked by complexity: growing market demands for improved specificity and safety, novel treatment classes and more intricate mechanisms of disease. Keeping up with this complexity requires a deeper understanding of therapeutic behavior. Modeling and simulation methods provide a unique means to explore biological and physicochemical processes down to the atomic level. This can guide physical experimentation, accelerating the discovery and development process. BIOVIA Discovery Studio brings together over 30 years of peer-reviewed research and world-class in silico techniques such as molecular mechanics, free energy calculations, biotherapeutics developability and more into a common environment. It provides researchers with a complete toolset to explore the nuances of protein chemistry and catalyze discovery of small and large molecule therapeutics from Target ID to Lead Optimization. -
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BenevolentAI
BenevolentAI
BenevolentAI is an AI-enabled drug discovery platform and scientific technology company that unites advanced artificial intelligence, machine learning, and domain-specific science to accelerate the discovery, design, and development of new medicines for complex diseases by making sense of vast, diverse biomedical data and generating actionable scientific insights faster than traditional methods. Its proprietary Benevolent Platform ingests and harmonizes structured and unstructured biomedical information, including literature, genomics, clinical information, and multi-omics data, into a comprehensive knowledge graph, enabling scientists to reason across biological systems, generate hypotheses, predict novel drug targets, and design candidate molecules with higher confidence and lower failure rates. -
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QSimulate
QSimulate
QSimulate offers a suite of quantum simulation platforms that leverage quantum mechanics to solve complex, industrial-scale problems in life sciences and materials science. The QSP Life platform provides unique quantum-powered methods for drug discovery and optimization, enabling first-of-a-kind quantum simulations of ligand-protein interactions applicable throughout the computational drug discovery process. The QUELO platform performs hybrid quantum/classical free energy calculations, offering users the ability to run relative free energy calculations using the free energy perturbation (FEP) approach. Additionally, QSimulate's technology enables groundbreaking advances in quantum mechanics/molecular mechanics (QM/MM) simulations for large protein modeling. For materials science, the QSP Materials platform democratizes quantum mechanical simulations, allowing experimentalists to automate complex workflows without the need for specialization. -
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Molecule
Molecule
Molecule is the modern, reliable ETRM/CTRM. Built in the cloud with an intuitive, easy-to-use experience at its core, Molecule is the alternative to the convoluted systems of the past. With near real-time reporting, 30+ integrations, and headache-free implementations, Molecule gets your ETRM/CTRM out of your way - because you have more valuable things to do with your time. Molecule is next-generation P&L, near real-time VaR, position, and risk reporting software for companies trading any kind of commodity. Molecule is designed for power, natural gas, crude, renewables, liquids, metals, ags, softs, and FX options/futures. Molecule is everything an ETRM should be: • Automatic deal capture • Automatic market data • Automatic position, P&L, near real-time VaR, and risk • Advanced and custom reporting with an embedded BI tool • Automatic FCM reconciliation • ISO connectivity for FTRs & virtuals • Connections to multiple exchanges and market data providers • Fund allocation -
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quattro/CM
quattro research
quattro research GmbH is an interdisciplinary team of scientists and IT specialists. We develop innovative solutions and products for our customers from the life science , pharma and chemistry industries. Integration and separation of databases and intellectual property after mergers and spin-offs respectively. Biological and chemical registration systems, including complex proteins, supporting the HELM notation. Scientists working with antibodies, antibodydrug-conjugates, large peptides, RNA molecules or any other biomolecule need appropriate software solutions. quattro research offers solutions for registration and management of biomolecules based on the open HELM Notation & Editor. -
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Discngine Assay
Discngine
Discngine Assay is a laboratory informatics platform that integrates every phase of plate-based assays into a cohesive, compliant, and efficient workflow, making it an essential tool for screening research labs. It enables scientists to streamline the entire High Throughput Screening workflow, from sample management and assay data analysis to data warehousing and liquid handling equipment qualification. With its intuitive interface and robust API, Discngine Assay integrates seamlessly with Lab equipments and existing IT environment, ensuring efficient data capture and processing. Designed to accelerate new molecule discovery, it addresses the needs of pharmaceutical, biotech, and CRO industries, enhancing collaboration and driving innovation in life science research. -
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Gritstone
Gritstone bio
The first pillar of our immunotherapy is our understanding of antigens and neoantigens, and specifically which ones will be transcribed, translated, processed and presented on a cell surface by Human leukocyte antigen (HLA) molecules; and therefore will be visible to T cells. We accomplish this through the use of Gritstone EDGETM, our proprietary machine learning-based platform. Developing cancer immunotherapies that include tumor-specific neoantigens presents a challenge due to their nature – tumors typically have hundreds of mutations, but only a small percentage of those mutations result in true tumor-specific neoantigens that are. To address this challenge, we trained EDGE’s novel integrated neural network model architecture with millions of data points from hundreds of tumor and normal tissue samples from patients of various ancestries. -
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Qwickly
Qwickly
Whether taking attendance in face-to-face & online courses, grading student participation, analyzing attendance trends for customized groups of students, or reviewing real time attendance data to remain proactive, Qwickly attendance simplifies a wide range of institutional requirements. Simplify management of multiple courses while increasing user adoption of your learning management system with Qwickly course tools. Improve communication, streamline content, and simplify the repetitive tasks in each course an instructor teaches to keep the focus on teaching and learning. Expand the scope of digital assignments with diagrams, charts, maps, & more. Allow students to write on an array of interactive assignments in the learning management system directly. Cover a vast variety of subject matter like blocking out scenes in a play on a blank stage, diagramming the chemical bonds of a water molecule, and locating geographic features on a map. -
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Schrödinger
Schrödinger
Transform drug discovery and materials research with advanced molecular modeling. Our physics-based computational platform integrates differentiated solutions for predictive modeling, data analytics, and collaboration to enable rapid exploration of chemical space. Our platform is deployed by industry leaders worldwide for drug discovery, as well as for materials science in fields as diverse as aerospace, energy, semiconductors, and electronics displays. The platform powers our own drug discovery efforts, from target identification to hit discovery to lead optimization. It also drives our research collaborations to develop novel medicines for critical public health needs. With more than 150 Ph.D. scientists on our team, we invest heavily in R&D. We’ve published over 400 peer-reviewed papers that demonstrate the strength of our physics-based approaches, and we’re continually pushing the limits of computer modeling. -
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InQuanto
Quantinuum
Quantum computing offers a path forward to rapid and cost-effective development of new molecules and materials. InQuanto, a state-of-the-art quantum computational chemistry platform, represents a critical step toward this goal. Quantum chemistry aims to accurately describe and predict the fundamental properties of matter and hence is a powerful tool in the design and development of new molecules and materials. However, molecules and materials of industrial relevance are complex and not easy to accurately simulate. Today’s capabilities force a trade to either use highly accurate methods on the smallest-sized systems or use approximating techniques. InQuanto’s modular workflow enables both computational chemists and quantum algorithm developers to easily mix and match the latest quantum algorithms with advanced subroutines and error mitigation techniques to get the best out of today’s quantum platforms. -
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Torx
Cresset Group
Make better design decisions and track compound synthesis from start to finish with ease. Torx is a visual, chemistry aware, web-based platform that inspires discovery chemistry teams to work together and deliver faster. Dedicated stand-alone modules for Design, Make, Test and Analyze that work in synergy to deliver a complete discovery cycle platform. Design molecules faster, capture and share knowledge, and manage resources with ease. Collaborative team working and information delivery for all roles in the DMTA cycle. However you refer to it, 'Design-Make-Test-Analyze' or 'Design-Synthesize-Test-Analyze', all small molecule chemistry teams go through a common process: design molecules, make or synthesize compounds, then test and analyze the results before the next iteration; it’s the mantra of chemistry teams all over the world. -
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Khimera
Kintech Laboratory
Khimera is used to calculate the kinetic parameters of microscopic processes, thermodynamic and transport properties of substances and their mixtures in gases, plasmas and gas-solid phases boundary. The primary users are researchers and engineers, involved in kinetic model development as well as thermodynamic and kinetic modeling for chemical engineering, combustion, catalysis, metallurgy, and microelectronics areas. Khimera ideally fits the needs of multi-scale modeling providing the link between fundamental molecular properties of individual molecules and mesoscale ensemble-averaged characteristics of the reactive medium: thermodynamic and transport properties as well as rates of chemical reactions. All the models can use the results of quantum-chemical simulations as an input, thus providing the possibility to recover properties without any experimental input from the user side. -
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IPA can also be used for analysis of small-scale experiments that generate gene and chemical lists. IPA allows searches for targeted information on genes, proteins, chemicals, and drugs, and building of interactive models of experimental systems. Data analysis and search capabilities help in understanding the significance of data, specific targets, or candidate biomarkers in the context of larger biological or chemical systems. The software is backed by the Ingenuity Knowledge Base of highly structured, detail-rich biological and chemical findings. Learn more about QIAGEN Ingenuity Pathway Analysis (IPA). Comparison Analysis determines the most significant pathways, upstream regulators, diseases, biological functions, and more, across time points, dose, or other conditions.
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BIOVIA COSMOtherm
Dassault Systèmes
BIOVIA COSMOtherm is an advanced COSMO-RS implementation that combines quantum chemistry and thermodynamics to predict thermodynamic properties of liquids. It calculates the chemical potential of molecules in pure or mixed liquids across variable temperatures, enabling the prediction of properties such as solubility, partitioning, vapor pressure, and phase diagrams. Unlike other methods, COSMOtherm applies thermodynamically consistent equations to predict properties as functions of concentration and temperature. Key features include the ability to predict solubility of liquids, solids, and gases; activity coefficients; two-phase partitioning (e.g., LogP); phase behavior; vapor pressures; free energy of solvation; pKa; energy of transfer to liquid-liquid interfaces; micelle and membrane partitioning; and interfacial tension. COSMOtherm offers an easy-to-use graphical interface and a command-line version for seamless integration into existing workflows. -
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BIOVIA TURBOMOLE
Dassault Systèmes
BIOVIA TURBOMOLE is a high-performance quantum chemistry software package designed for ab initio electronic structure calculations across molecules, clusters, periodic systems, and solutions. Developed initially by the University of Karlsruhe and Forschungszentrum Karlsruhe GmbH, and now maintained by TURBOMOLE GmbH, it offers a comprehensive suite of computational methods, including density functional theory (DFT), Møller–Plesset perturbation theory, coupled-cluster techniques, and GW-Bethe–Salpeter methods. It excels in delivering accurate predictions for chemical reactions, spectroscopy, and optical device simulations, with features like reaction path optimizations, transition state searches, and solvation effects modeled using COSMO-RS. Spectroscopic capabilities encompass IR, Raman, VCD, UV-Vis, and vibronic spectra, while optical property simulations benefit from advanced spin-orbit coupling methods and relativistic all-electron calculations. -
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AQBioSim
SandboxAQ
AQBioSim is a cloud-native platform developed by SandboxAQ that leverages Large Quantitative Models (LQMs) grounded in physics and chemistry to revolutionize materials discovery and optimization. By integrating Density Functional Theory (DFT), Iterative Full Configuration Interaction (iFCI), Generative AI, Bayesian Optimization, and Chemical Foundation Models, AQBioSim enables high-fidelity simulations of molecular and material behaviors under real-world conditions. AQBioSim's capabilities include predicting performance under various stresses, accelerating formulation through in silico testing, and exploring sustainable chemical processes. Notably, AQBioSim has demonstrated significant advancements in battery technology by reducing lithium-ion battery end-of-life prediction time by 95%, achieving 35x greater accuracy with 50x less data. -
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Eidogen-Sertanty Target Informatics Platform (TIP)
Eidogen-Sertanty
Eidogen-Sertanty's Target Informatics Platform (TIP) is the world's first structural informatics system and knowledgebase that enables researchers with the ability to interrogate the druggable genome from a structural perspective. TIP amplifies the rapidly expanding body of experimental protein structure information and transforms structure-based drug discovery from a low-throughput, data-scarce discipline into a high-throughput, data-rich science. Designed to help bridge the knowledge gap between bioinformatics and cheminformatics, TIP supplies drug discovery researchers with a knowledge base of information that is both distinct from and highly complementary to information furnished by existing bio- and cheminformatics platforms. TIP's seamless integration of structural data management technology with unique target-to-lead calculation and analysis capabilities enhances all stages of the discovery pipeline. -
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YASARA
YASARA
YASARA is a molecular graphics, modeling, and simulation program for Windows, Linux, MacOS, and Android developed in 1993, that finally makes it really easy to answer your questions. With an intuitive user interface, photorealistic graphics, and support for affordable virtual reality headsets, shutter glasses, autostereoscopic displays, and input devices, YASARA creates a new level of interaction with the 'artificial reality', that allows you to focus on your goal and forget about the details of the program. YASARA is powered by PVL (Portable Vector Language), a new development framework that provides performance way above traditional software. PVL allows you to visualize even the largest proteins and enables true interactive real-time simulations with highly accurate force fields on standard PCs, making use of GPUs if available. You can push and pull molecules around and work with dynamic models instead of static pictures.Starting Price: Free -
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Sapio Scientific Data Cloud
Sapio Sciences
Sapio Scientific Data Cloud is a science-aware scientific data management system that unifies and contextualizes all your laboratory data, assay results, instrument outputs, archives, and third-party ELN/LIMS records into a single, searchable platform without any coding. It supports automated data capture and parsing from over 200 instrument adaptors, semantic search powered by ontologies, built-in charting, and advanced neural-network analytics (ANOVA, best-response curves, 4/5 PL curves, flow-cytometry gating), and AI-driven insights. Secure, role-based access and data archiving keep sensitive information safe, while protein, molecule, plasmid, and system-wide viewers let scientists explore results interactively. Deep integration with Sapio LIMS and ELN systems automatically associates data with samples, experiments, and entities. -
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Ontosight.ai
Partex
Ontosight is a cutting-edge research and AI-powered Q&A platform designed to revolutionize how you access and process information. Leveraging advanced artificial intelligence, Ontosight combines the precision of academic and specialized databases with the ease of conversational search. Whether you're an undergraduate, a Ph.D. student, or a seasoned researcher, Ontosight transforms traditional research into an efficient, insightful, and engaging experience. Why Choose Ontosight? Precision and Depth: Unlike generic search engines, Ontosight AI delivers highly targeted results from specialized databases, academic journals, and clinical trials. Transparency: Always know where your information comes from, with clear citations and references. Efficiency: Save hours by summarizing lengthy papers and highlighting critical insights. Exploration of Connections: Highlights relationships between entities—like genes, molecules, or treatments—helping you uncover patterns and ideas for iStarting Price: $11 per month -
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Genedata Biologics
Genedata
Genedata Biologics® streamlines discovery of biotherapeutics including bispecifics, ADCs, TCRs, CAR-Ts, and AAVs. The most widely adopted platform across the industry, it integrates all discovery workflows so you can focus on true innovation. Accelerate research with a first-in-class platform uniquely designed from the start to digitalize biotherapeutic discovery. The platform facilitates complex R&D processes by designing, tracking, testing, and assessing novel biotherapeutics drugs. It works with any format, from antibodies, bi- or multi-specifics, ADCs, novel scaffolds, and therapeutic proteins, to engineered therapeutic cell lines such as TCRs and CAR-T cells. Acting as a central end-to-end data backbone, Genedata Biologics integrates all R&D processes, from library design and immunizations, selections and panning, molecular biology, screening, protein engineering, expression, purification, and protein analytics, to candidate developability and manufacturability assessments. -
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Recursion
Recursion
Recursion is a TechBio company focused on transforming drug discovery by combining biology, data, and artificial intelligence. Founded over a decade ago, the company pioneered the use of large-scale cellular imaging to train AI models that decode the biological drivers of disease. Recursion’s mission is to deliver better medicines through novel insights and precision design, reducing the high failure rates of traditional drug development. Its proprietary Recursion OS platform integrates massive biological datasets with machine learning to accelerate discovery from target identification to clinical development. The company has built an advanced pipeline of potential first-in-class and best-in-class therapies targeting aggressive cancers and rare diseases. Automated wet labs and robotics enable millions of experiments per week, feeding continuous learning into its AI models. -
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Kebotix
Kebotix
Kebotix is a technology platform company for new chemicals and materials, ushering in a new age of high-speed innovation using artificial intelligence and robotic automation. Kebotix has built the world’s first self-driving lab for materials discovery powered by AI and robotics. Kebotix is accelerating the exploration, discovery, use, and production of new molecules and materials that can solve some of the world’s most urgent problems. Bring your products to market faster with us and benefit from the leading material design technology powered by our self-driving lab. Kebotix boosts your R&D to the forefront of digitalization by providing enterprise AI solutions customized for your materials discovery. We help you bring better products to market faster with automated learning from each iteration of the predict-produce-prove cycle. -
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Ascalaph Designer
Agile Molecule
Ascalaph Designer is a general-purpose program for molecular dynamic simulations. Under a single graphical environment are represented as their own implementation of molecular dynamics as well as the methods of classical and quantum mechanics of popular programs. Molecular geometry optimization with conjugate gradient methods. Shows molecular models in separate windows. Each window has two cameras, which allow the model to be simultaneously visualized from two sides and in different graphic modes. The subwindow can be opened by dragging the splitter in the right corner of each graphical window. Clicking on an atom or bond with the left mouse button slightly changes their color and a brief info about the picked object appears in the status bar. The wire-frame style is convenient for large molecules, particularly, proteins. Drawing is very fast for this style. Finally, CPK wire frame combines the properties of several above styles.Starting Price: Free -
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Chemical Computing Group
Chemical Computing Group
Chemical Computing Group (CCG) has a strong reputation for collaborative scientific support. With offices in North America, Europe and Asia, our team of PhD-level scientists works closely with our clients, providing support, hands-on training and scientific advice on a wide range of projects. CCG continuously develops new technologies with its team of mathematicians, scientists and software engineers and through scientific collaborations with customers. -
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Quandela
Quandela
Quandela Cloud offers a wide range of functionalities. First, intensive documentation is available to walk you through Perceval, our photonic quantum computing framework. Perceval's programming language is Python, thus coding on Quandela’s QPUs is seamless. Moreover, you can leverage a wide range of unique algorithms already implemented (resolving PDEs, clustering data, generating certified random numbers, solving logistical problems, computing properties of molecules, and much more). Then, the status and specifications of Quandela’s QPUs are displayed. You can choose the appropriate one, run your job and check its evolution on the job monitoring interface. -
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Dotmatics
Dotmatics
Dotmatics is the global leader in R&D scientific software that connects science, data, and decision-making. Combining a workflow and data platform with best-of-breed applications, we offer the first true end-to-end solutions for biology, chemistry, formulations, data management, flow cytometry, and more. Trusted by more than 2 million researchers from the world’s leading biopharma, chemicals and materials enterprises, and academic institutions, we are dedicated to working with the scientific community to help make the world a healthier, cleaner and safer place to live. Learn more about our platform and products, including GraphPad Prism, Geneious, SnapGene, Protein Metrics, LabArchives, and more. -
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Signals VitroVivo
PerkinElmer Informatics
Signals VitroVivo unites assay development, low throughput to ultra-high-throughput production assays, High Content Screening, and in vivo studies so users can search across all assay and screening data in a single platform. Signals VitroVivo is flexible enough for one-off assay work during assay development, comprehensive enough for more sophisticated essays, and diverse enough to support a long and growing list of techniques and that is scalable all the way to ultra-high data volumes. Scientists can now leverage a consistent, repeatable pattern for data acquisition as well as the data processing protocols themselves. Quick and easy structure-activity relationship analysis for small and large molecules. Built for the purpose to address specific requirements for handling studies, treatments and samples. -
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Avogadro
Avogadro
Avogadro is an advanced molecule editor and visualizer designed for cross-platform use in computational chemistry, molecular modeling, bioinformatics, materials science, and related areas. It offers flexible high quality rendering and a powerful plugin architecture. Avogadro is a free, open-source molecular editor and visualization tool, designed for use on Mac, Windows, and Linux in computational chemistry, molecular modeling, bioinformatics, materials science, and related areas. It offers flexible high quality rendering and a powerful plugin architecture. -
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Promethium
Promethium
Promethium is a GPU-powered chemistry simulation platform designed to accelerate drug and materials development by enabling faster and more accurate quantum chemistry calculations. Built from the ground up for NVIDIA datacenter GPUs like A100, it employs novel QC Ware streaming algorithms to achieve unprecedented computational speed and high throughput-to-power consumption ratios. It supports density functional theory calculations on systems with up to 2,000 atoms, allowing simulations of large molecular systems that are not feasible with legacy CPU-powered ab initio codes. For instance, a single-point calculation of a 2,056-atom protein can be completed in 14 hours on a single GPU. Promethium offers a range of capabilities, including single-point energy calculations, geometry optimization, conformer search, torsion scan, reaction path optimization, transition state optimization, interaction energy computations, and relaxed potential energy surface scans.Starting Price: $30 per hour -
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Kanteron
Kanteron Systems
Kanteron Platform ingested medical images, digital pathology slides, genomics sequences, and patient data from modalities, scanners, sequencers and databases, and provided a complete data toolkit to every team in hospital networks. Pharmacogenomics for adverse medication event prevention, and Precision Medicine application at the point of care: Incorporates sources of drug-gene interaction data that were previously only available in in accessible formats (e.g. tables in a PDF document), implementing the major Pharmacogenomic databases (like PharmGKB, CGI, DGIdb, OpenTargets...) Allows the user to refine their query to certain gene families, types of interactions, classes of drugs, etc. Flexible AI means you can choose the data set that best fits your use case, and apply it to your relevant medical images. -
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Scilligence ELN
Scilligence
Scilligence ELN is a unified informatics platform that supports R&D effort across all scientific branches focusing on small molecules, mRNA, ADCs, DEL, and more. Our ELN provides an elegant solution to macromolecule work by leveraging the most advanced HELM implementations. With its purposeful design the Scilligence ELN is a platform that will help your lab elevate internal and external collaborative processes. Major Features • Large selection of user-vetted experiment templates • Proprietary indexing capabilities enable structure, HELM, and biosequence queries • Seamless integration with registration, inventory, and assay data warehouse • Proprietary informatics engine enables advanced HELM functionality and enhanced stereochemistry • Auto-extract information from flat files via our Data Reader technology for efficient data capturing and processing -
47
CDD Vault
Collaborative Drug Discovery
With CDD Vault, you can intuitively organize chemical structures and biological study data, and collaborate with internal or external partners through an easy to use web interface. Start your free trial and see first hand how easy it is to manage drug discovery data. Tailored for you Affordable Scales with your project team(s) Activity & Registration * Electronic Lab Notebook (ELN) * Visualization * Inventory * APIs * Secure Online Hosting -
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NVIDIA BioNeMo
NVIDIA
BioNeMo is an AI-powered drug discovery cloud service and framework built on NVIDIA NeMo Megatron for training and deploying large biomolecular transformer AI models at a supercomputing scale. The service includes pre-trained large language models (LLMs) and native support for common file formats for proteins, DNA, RNA, and chemistry, providing data loaders for SMILES for molecular structures and FASTA for amino acid and nucleotide sequences. The BioNeMo framework will also be available for download for running on your own infrastructure. ESM-1, based on Meta AI’s state-of-the-art ESM-1b, and ProtT5 are transformer-based protein language models that can be used to generate learned embeddings for tasks like protein structure and property prediction. OpenFold, a deep learning model for 3D structure prediction of novel protein sequences, will be available in BioNeMo service. -
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Scilligence Inventory
Scilligence
Create and manage containers of various entities including samples, reagents, biologics, 96-well plates, and small molecules. Conduct inventory management by simply scanning barcodes; create, move, use, split, and dispose of containers. With Inventory's user roles and powerful search features, readily track hazardous compounds, regulate user access, and maintain laboratory compliance with safety regulations. Inventory allows for the management of unique entities, reagents, and stockroom R&D materials. Generate reports based on container or sample type, container status, or container location. Track compound usage and set automatic low-stock alerts. -
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ChemDraw
PerkinElmer
Since 1985 ChemDraw® solutions have provided powerful capabilities and integrations to help you quickly turn ideas and drawings into publications you can be proud of. A chemistry communication suite, ChemOffice+ Cloud transforms your chemical drawings into chemical knowledge by facilitating the management, reporting and presenting of your Chemistry research. ChemOffice+ Cloud, is a robust, comprehensive suite, purpose-built to simplify, facilitate, and accelerate chemistry communication. The cloud-native chemistry communication suite builds on the foundations of ChemDraw Professional and adds access to a powerful set of tools to enable scientific research. The mundane task of creating reports to communicate chemical research has become much more efficient with ChemOffice+ Cloud. With powerful capabilities to search, reuse, select, and organize chemical structures and data, chemists can use ChemOffice+ Cloud to create presentation-ready PowerPoint slides and manuscripts.
