QBench
QBench provides a comprehensive solution for monitoring all your samples and their positions within the workflow through a unified platform. By using QBench, you can forgo the traditional reliance on spreadsheets, shared network folders, and outdated paper tracking systems. The platform enables you to review numerous PDF reports and Certificates of Analysis (COAs) before finalizing or distributing them via email. You also have the option to create customizable barcodes and labels for your samples, ensuring compatibility with standard printers and scanners. Additionally, QBench features a billing module that streamlines the creation and dispatch of invoices directly from the system. Users can access data on counts and latencies for various data types within QBench, which encompasses metrics such as turnaround times, sample counts per test, delays, and more. This innovative tool simplifies the data collection process necessary for the assays conducted in your laboratory while enhancing overall efficiency. With QBench, managing your laboratory workflow has never been more straightforward and effective.
Learn more
Aizon
Aizon: Intelligent GxP Manufacturing
Aizon delivers an AI-powered platform that redefines how pharmaceutical and biotech manufacturers operate under GxP requirements. Our solutions empower teams to enhance efficiency, raise yields, and maintain the highest standards of product quality.
- Aizon Execute — Intelligent Batch Record (iBR): Digitize production quickly to reduce manual errors, lower deviations, and accelerate the release of compliant batches.
- Aizon Unify — Contextualized Intelligent Lakehouse: Connect and contextualize data from diverse sources to improve decision-making and achieve operational excellence.
- Aizon Predict — GxP AI Industrialization: Use predictive AI models to fine-tune critical process parameters, increase Right-First-Time outcomes, and deliver higher manufacturing performance.
Aizon enables manufacturers to move beyond traditional compliance and embrace true operational intelligence—learning from the past, acting decisively in the present, and innovating for the future.
Learn more
SYNTHIA Retrosynthesis Software
SYNTHIA™ Retrosynthesis software, created through the collaboration of computer scientists and chemists, empowers researchers to swiftly explore new and established pathways for target molecules. This tool enables efficient scanning of numerous pathways, helping to pinpoint the most suitable options tailored to specific requirements. With advanced visualization and filtering capabilities, users can uncover the most economical route to synthesize their desired molecule. The platform also allows for the customization of search parameters, enabling the user to either exclude or emphasize particular reactions, reagents, or molecular classes. Additionally, it presents innovative and distinctive synthetic routes to construct the target compound. Users can effortlessly generate a list of commercially available starting materials needed for their synthesis projects. Furthermore, the ISO/IEC 27001 Information Security Certification ensures the utmost confidentiality, integrity, and security of all data processed within the software, providing peace of mind to its users. This commitment to data protection reinforces the software's value in the scientific community.
Learn more
StarDrop
StarDrop™ is an all-encompassing software suite that offers cutting-edge in silico technology, all presented within an intuitive visual framework. By facilitating a smooth transition between up-to-date data, predictive modeling, and strategic decision-making for subsequent synthesis rounds, StarDrop™ enhances the discovery process's speed, efficiency, and overall productivity. Achieving a harmonious balance of various properties is crucial for the development of successful compounds. StarDrop™ effectively navigates the complexities of multi-parameter optimization, assisting users in identifying compounds with the greatest likelihood of success. Additionally, it conserves both time and resources by enabling the synthesis of fewer compounds and reducing the frequency of testing needed. As a result, researchers can focus their efforts more effectively, leading to more successful outcomes in their projects.
Learn more
