吉林快三走势图综合板 www.saanl.com Signals Screening is an intuitive, configurable, and flexible screening workflow processing engine on top of the unparalleled data visualization and analysis capabilities of TIBCO Spotfire. The initial offering of Signals Screening addresses three key drug discovery assays:
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From plate readers to high content data to SPR, Signals Screening processes raw data from multiple instrument sources, so scientists only need to learn one software package for all their data analysis needs. This one platform allows data comparisons from different experiments and instruments increasing confidence that the results are real. Templates can be saved for procedures that are run over and over providing a nearly automated analysis decreasing repetition and increasing the consistency of data processing day to day, within groups and across departments. Analyzing raw data directly output from an instrument means less data wrangling, cutting and pasting, decreasing chances for human error. Custom integration with electronic notebooks or corporate databases further increases data integrity.
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Imaging-based phenotypic screening of cell-based disease models has become an indispensable tool for modern drug discovery. Despite the growing adoption of high-content screening (HCS), analyzing the complex imaging data produced by these systems can take weeks and typically requires handson programming by data scientists.
Recent advances in deep learning have enabled the possibility of automating these analyses. In this work we present a framework to analyze multiple image datasets with minimal tuning or optimization.
The global specialty chemicals industry, forecast to reach approximately 2.5 billion dollars by 2020, is essential to innovation in industries ranging from cosmetics and construction to food and textiles. Manufacturers looking to maintain a pipeline of new and improved products that are safe and cost effective rely on specialty chemicals to improve the performance or function of their goods. It’s a never-ending endeavor, with the goal of gaining market share by being fast – if not first – to market with a better solution. This white paper talks about the accelerated innovation in specialty chemical formulation and development with informatics.
Researchers are increasingly looking to 3D cell cultures, microtissues, and organoids to bridge the gap between 2D cell cultures and in vivo animal models. This whitepaper documents a streamlined procedure for getting the most information, as quickly as possible, using solutions from PerkinElmer.