Design Code fundamental requirements

As LIMS are basically configurable software packages, the quality of the design, coding, and documentation by the supplier is critical to obtaining an acceptably validated LIMS. The LIMS suppliers have developed an appreciation for the unique requirements of the pharmacentical industry, and the last few years have seen an improvement in the system development fife cycles used by some suppliers. Therefore, a thoroughly documented evaluation of the snpplier s practices forms a fundamental part of the validation of LIMS. 

Technology infrastructure often determines the effectiveness of the learning experience. The effectiveness of the underlying code, the design and fundamental scalability of the database, the server configuration, and available bandwidth are all essential considerations. Because internal networks often lack the speed and reliability required for compliance education purposes, many organizations are employing Application Service Providers for secure and specialized services outside the firewall of their internal networks. 

SAV requirements are the means by which the behaviours intended for the SAV are documented for commnnication to other lifecycle processes (e.g design, code and verification), the SAV developers and the tools (e.g., DOORS and 3SL Cradle) supporting those processes. Therefore, the precision and accuracy to which requirements are recorded is fundamental to successful implementation in the SAV design, and is particularly important for SAV safety requirements such as those identified in Step 2 of Chapter 9. 

The primary objective of the BD-1 test is to obtain representative data on the release, transport, plateout, and liftoff of condensible fission products in an in>pile test loop under nominally "clean" conditions. These data will then be used to validate that the design methods used to predict fission product transport in the MHTGR have the required predictive accuracies. Typically, these transport codes contain multiple component models which are derived from differential single effects tests performed in the laboratory or in-pile experiments. The purpose of these in-pile loop tests is not to provide fundamental data from which transport models may be derived but rather to provide integral test data to assess the validity of these integral computer codes. 

Because all conventional cellular wireless systems, including 3G systems, were fundamentally designed as circuit-switched, voice-transmission systems, they were designed and optimized primarily at the physical layer. The choice of code-division multiple access (CDMA)i as multiple-access technology at the physical layer was also dictated by voice-transmission requirements. Hash-OFDM,... 

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