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Design logic

The basic constructs of type, collaboration, and refinement support all levels of specification, architecture, and implementation. However, we also pay explicit attention to specific levels of architectural design logical and physical database mapping, technical architecture (including client-server and multitier peer-to-peer architectures), and user-interface modeling. The case study touches only on some of these aspects. [Pg.538]

Design T/F The current design used the correct specifications and was built so that it was adequate for the intended service. (This includes design logic, hardware, installation accuracy, arrangement, and ergonomic factors.)... [Pg.330]

Controls question performed in accordance with the design logic, programming, or other instructions. (This deals with the actual control operation or execution. It would not include control logic that is in the design category.)... [Pg.330]

Aristotle, so that harmony, beauty, design, logical consistency came to be considered the criteria of the acceptability of theories rather than the data of observation or experiment. [Pg.122]

Fluorescent PET (photoinduced electron transfer) sensors are considered to be those molecular systems where the binding of ions and other species leads to the perturbation of the competition between the de-excitation pathways of fluorescence and electron transfer. The early developments in this field are traced and the design logic of these sensors is detailed. A variety of examples drawn from different areas of chemistry are classified according to the fluorophore-spacer-receptor format and their photophysical behaviour is rationalized in terms of fluorescent PET sensor principles. Cases are pointed out where such experimental data are unavailable but desirable. During these discussions, the relevance of twisted fluorophore-receptor systems and the contrast with integrated fluorophore-receptor systems is noted. The utility of the fluorescence on-ofP phenomenon in these PET sensors for the area of molecular photoionic devices is pointed out. [Pg.224]

Importantly, the goodness-of-fit parameters are satisfactory and the coefficient of the term involving (M +tolal) is near unity in all cases. Also, it must be noted that the stability constants for the alkali cation-benzocrown ether interaction available in the literature [30,48] agree closely with the values extracted from Fig. 5 for the alkali cation (14) association. All of this very gratifyingly support the expectations of the fluorescent PET sensor design logic in terms of a supermolecule with modular behaviour [43],... [Pg.233]

Corrective maintenance or correcting the system because of detection of errors in the design, logic, or programming of the system. It is essential to recognize that the longer a defect is present in the software before it is detected the more expensive it is to fix it. [Pg.712]

Figure 1. Diagrammatic representation of the design logic of fluorescent PET sensors for cations. Figure 1. Diagrammatic representation of the design logic of fluorescent PET sensors for cations.
Dumas A, Lercher L, Spicer CD, Davis BG (2015) Designing logical codon reassignment—expanding the chemistry in biology. Chem Sci 6(l) 50-69. doi 10.1039/c4sc01534g... [Pg.27]

IBM s Yorktown Silicon Compiler includes partitioning, scheduling, data path synthesis, design iteration, controller design, logic synthesis, and timing optimization. See also Univ. of Karlsruhe s DSL Synthesis System / CADDY System — Camposano was previously involved with that system, and IBM s HIS System — Camposano is now involved with that system. [Pg.100]

Appendix A presents a historical summary of previously attempted depot demonstration missions. Appendix B presents the full list of screens available for screen channel IADs as well as a summary of the data mining of all previously reported bubble point data. Appendices C and D present Langmuir isotherms for the data presented in Chapter 4 while Appendix E presents previously reported heated pressurant gas historical data relevant to Chapter 8. Appendix F presents the results of the literature review into previous solutions for porous channel flow. Appendix G presents LAD design logic and a summary of updated design tools. [Pg.14]

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See also in sourсe #XX -- [ Pg.46 , Pg.47 ]



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