The LES software aims to assist laboratories in ensuring compliance with current industry regulations, such as Good Laboratory Practices (GLP) or various ISO standards (ISO 17025 or ISO 9001 for Quality Management System).
LES systems must be capable of interfacing with other software, particularly LIMS, and laboratory instruments to enable automated collection of analysis data. A seamless integration reduces manual transcription errors and enhances efficiency by automating the data collection process.
Laboratory Execution Systems (LES) aim to assist users in interpreting results and making informed decisions. This can include statistical capabilities, data visualization tools, and advanced analysis functionalities to detect trends, anomalies, or significant patterns.
The generation of knowledge during analyses plays a pivotal role in driving productivity for laboratories. It is of utmost importance to capitalize on and enhance the technical assets of the laboratory, enabling seamless information sharing among stakeholders and enhancing visibility of quality control activities.
The LES software aims to assist laboratories in ensuring compliance with current industry regulations, such as Good Laboratory Practices (GLP) or various ISO standards (ISO 17025 or ISO 9001 for Quality Management System).
LES systems must be capable of interfacing with other software, particularly LIMS, and laboratory instruments to enable automated collection of analysis data. A seamless integration reduces manual transcription errors and enhances efficiency by automating the data collection process.
Laboratory Execution Systems (LES) aim to assist users in interpreting results and making informed decisions. This can include statistical capabilities, data visualization tools, and advanced analysis functionalities to detect trends, anomalies, or significant patterns.
The generation of knowledge during analyses plays a pivotal role in driving productivity for laboratories. It is of utmost importance to capitalize on and enhance the technical assets of the laboratory, enabling seamless information sharing among stakeholders and enhancing visibility of quality control activities.
Creation and import of control protocols from LIMS
Real-time task and authorization management
Equipment management, availability, downtime, and machine capability
Scan QR codes / barcodes for samples
Time management and assignment of controls based on profiles
Workflow automation for executing various analysis steps
Planning and workload management
Data acquisition and structuring in the database, compatible with a LIMS
Results entry available on mobile devices
Customizable result report generation
Calculations, statistical analysis, and data visualization tools
Interfacing through barcodes / QR codes with laboratory instruments for data acquisition
Traceability and data validation to ensure integrity
Sample traceability throughout the analysis process (stock indicators, consumables, etc.)
Creation and import of control protocols from LIMS
Real-time task and authorization management
Equipment management, availability, downtime, and machine capability
Scan QR codes / barcodes for samples
Time management and assignment of controls based on profiles
Workflow automation for executing various analysis steps
Planning and workload management
Data acquisition and structuring in the database, compatible with a LIMS
Results entry available on mobile devices
Customizable result report generation
Calculations, statistical analysis, and data visualization tools
Interfacing through barcodes / QR codes with laboratory instruments for data acquisition
Traceability and data validation to ensure integrity
Sample traceability throughout the analysis process (stock indicators, consumables, etc.)
a LIMS solution plays a crucial role in data and information management in the lab. However, to achieve true digital continuity, a Laboratory Execution System (LES) steps in to reinforce the execution of analysis processes and streamline laboratory activities coordination. By seamlessly integrating with LIMS, LES provides a powerful framework for maximizing laboratory efficiency, ensuring smooth process execution, and fostering enhanced productivity.
The Laboratory Execution System (LES) enhances laboratory productivity by automating low-value tasks. With seamless integration into laboratory equipment and optimized for smartphone and tablet formats, it streamlines result entry, reduces errors, and ensures comprehensive traceability of all laboratory control activities. Experience increased efficiency and accuracy with our cutting-edge LES solution.
TEEXMA® is a unique, low-code, and 100% configurable technology that enables complete customization of your activities based on the needs and technical specificities of your industry.
a LIMS solution plays a crucial role in data and information management in the lab. However, to achieve true digital continuity, a Laboratory Execution System (LES) steps in to reinforce the execution of analysis processes and streamline laboratory activities coordination. By seamlessly integrating with LIMS, LES provides a powerful framework for maximizing laboratory efficiency, ensuring smooth process execution, and fostering enhanced productivity.
The Laboratory Execution System (LES) enhances laboratory productivity by automating low-value tasks. With seamless integration into laboratory equipment and optimized for smartphone and tablet formats, it streamlines result entry, reduces errors, and ensures comprehensive traceability of all laboratory control activities. Experience increased efficiency and accuracy with our cutting-edge LES solution.
TEEXMA® is a unique, low-code, and 100% configurable technology that enables complete customization of your activities based on the needs and technical specificities of your industry.
LIMS Software
LIMS Software - Industry 4.0 Planning Digitalization Laboratory Activities
LIMS Software - TEEXMA LIMS - Laboratory Digitalization - Mobility - Digital Continuity - Requests and Batches - Planning - Samples - Reports
