共找到 15 条与 电子计算机应用 相关的标准,共 1 页
Evaluation of thickness, density and interface width of thin films by X-ray reflectometry - Instrumental requirements, alignment and positioning, data collection, data analysis and reporting
Industrial automation systems and integration - Open technical dictionaries and their application to master data - Part 35: Query for characteristic data
Industrial automation systems and integration - Open technical dictionaries and their application to master data - Part 40: Master data representation
Industrial automation systems and integration - Open technical dictionaries and their application to master data - Part 10: Dictionary representation
Industrial automation systems and integration - Open technical dictionaries and their application to master data - Part 14: Dictionary query interface
Industrial Automation Systems and Integration - Product Data Representation and Exchange - Part 214: Application Protocol: Core Data for Automotive Mechanical Design Processes (Third Edition; Includes Access to Addition Content)
Industrial automation systems and integration - Exchange of characteristic data - Part 6: Concept dictionary terminology reference model
Industrial automation systems and integration - Exchange of characteristic data - Part 20: Concept dictionary resolution services
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Industrial automation systems and integration-Product data representation and exchange-Part 214:Application protocol: Core data for automotive mechanical design processes
Validation is an important and mandatory activity for laboratories that fall under regulatory agency review. Such laboratories produce data upon which the government depends to enforce laws and make decisions in the public interest. Examples include data to support approval of new drugs, prove marketed drugs meet specifications, enforce environmental laws, and develop forensic evidence for trial. This also extends to LIMS used in environmental laboratories. In some cases these systems may need to be interoperable with CLIMS and computer-based patient records (CPR) for reporting environmental exposures and clinical laboratory testing for biologic measure of stressor exposure. The enormous financial, legal, and social impact of these decisions requires government and public confidence in laboratory data. To ensure this confidence, government agencies regularly review laboratories operating under their rules to confirm that they are producing valid data. Computer system validation is a part of this review. This guide is designed to aid users validating LIMS and incorporating the validation process into their LIMS life cycle. Validation must provide evidence of testing, training, audit and review, management responsibility, design control, and document control, both during the development of the system and its operation life (2).1.1 This guide describes an approach to the validation process for a Laboratory Information Management System (LIMS).1.2 This guide is for validation of a commercial LIMS purchased from a vendor. The procedures may apply to other types of systems, but this guide makes no claim to address all issues for other types of systems. Further, in-house developed LIMS, that is, those developed by internal or external programmers specifically for an organization, can utilize this guide. It should be noted that there are a number of related software development issues that this guide does not address. Users who embark on developing a LIMS either internally or with external programmers also should consult the appropriate ASTM, ISO, and IEEE software development standards.1.3 This guide is intended to educate individuals on LIMS validation, to provide standard terminology useful in discussions with independent validation consultants, and to provide guidance for development of validation plans, test plans, required standard operating procedures, and the final validation report.
Standard Guide for Validation of Laboratory Information Management Systems
1.1 This guide describes an approach to the validation process for a Laboratory Information Management System (LIMS).1.2 This guide is for validation of a commercial LIMS purchased from a vendor. The procedures may apply to other types of systems, but this guide makes no claim to address all issues for other types of systems. Further, in-house developed LIMS, that is, those developed by internal or external programmers specifically for an organization, can utilize this guide. It should be noted that there are a number of related software development issues that this guide does not address. Users who embark on developing a LIMS either internally or with external programmers also should consult the appropriate ASTM, ISO, and IEEE software development standards.1.3 This guide is intended to educate individuals on LIMS validation, to provide standard terminology useful in discussions with independent validation consultants, and to provide guidance for development of validation plans, test plans, required standard operating procedures, and the final validation report.
Standard Guide for Validation of Laboratory Information Management Systems
Uniform Provisions on Computer Peripheral Device Interface Part 2: JB-1 Parallel Interface
Uniform Provisions on Computer Peripheral Device Interface Part 1: JC-1 Serial Interface
Supporting document to ENV 1613:1994. Messages for exchange of laboratory information
The document defines the physical data interface between laboratory apparatus and computer; the definitions cover the physical layer (layer 1) of the OSI Basic Reference Model according to DIN EN ISO/IEC 7498-1. It is valid for any laboratory apparatus linked to computers of all kinds.
Laboratory data communication - Part 1: Point-to-point connection with RS-232; physical arrangements
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