Entity statement

An optional entity statement part (preceded by the keyword begin) after the declarative part can be included but will be ignored by the s)mthesizer. 

The entity describes the top-level structure of a design and acts as the I/O interface between the multiplexer and the external environment. The connections at the top level of the design hierarchy are illustrated in Figure 4.1. The entity dedaration required for this drcuit is shown in Figure 4.2. It does not contain a Generic statement, default port values or a entity statement part, all of which cannot be synthesized. 

To receive a filing date, an appHcation made on the basis of intent-to-use must include "a claim of bona fide intention to use the mark in commerce," a description of the goods upon or in connection with which the appHcant has the intention to use the mark and the mode and manner in which it is to be used, and a statement that the appHcant is entitled to use the mark and that, to the best of the appHcant s knowledge, no other person or entity has the right to use the mark or a confusingly similar mark. A drawing of the mark must be submitted with the appHcation. 

The 1990s was a decade of fruition because the computer-based drug discovery work of the 1980s yielded an impressive number of new chemical entities reaching the pharmaceutical marketplace. We elaborate on this statement later in this section, but first we complete the story about supercomputers in the pharmaceutical industry. 

In the course of reactions of chromium(VI) with different substrates (inductors), depending on whether the inductor is 1- or 2-equivalent reagent, in the primary reaction formation of Cr(V) and Cr(IV), respectively, was assumed. However, no definite statement can be made as to whether the chromium species formed in the primary reaction or another chromium entity produced in a secondary step reacts with the acceptor. The possibility of simultaneous formation of both chromium species in the primary reaction can be excluded. 

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A description of the present status of PFC sourcing from Asia by Western big pharma companies is the following statement from a Pfizer spokesperson Pfizer is working intensively with Asian based companies to move there the manufacturing of old APIs (= commodities) because of cost containment goals, while the European based companies are mostly used for contract manufacturing on advanced intermediates for New Chemical Entities. ... 

Macquer calls these statements, fundamental truths, from which we shall deduce an explanation of all the phenomena in Chymistry. Numbers I, 5, 6, and 7 come from Geoffroy and are statements of well-established laboratory experience. According to Alistair M. Duncan,numbers 2, 3, and 4 came from Stahl, and represent conjectural or theoretical assertions, though 2 and 3 had long been traditional views. As we shall eventually see, the latter group becomes increasingly in conflict with the behavior of real chemical entities. But first let us see how Macquer utilizes these truths to explain all the phenomena of chemistry. ... 

At the beginning of the EntityDictionaryDao, it defines a series of constants the size and the name of each entity dictionary. Using these constants, the code allocates the Java Collection objects so that the sizes of these Collection objects do not need to expand at runtime, which causes extra CPU cycles to be wasted. Following the sizes are String constants names that are used to look up each entity dictionary. The class also defines SQL statements that are used to query the entity dictionary as static variables and initialize them in a static block ... 

All entity objects should be able to be queried by their primary keys. The way it works has little difference between the entity objects except in the SQL statement. The method abstractFind() abstracts out common behaviors of find by primary key operation of all entity objects ... 

The SI traceability statement for a chemical composition of a material cannot be completed by the traceability to the mole of one entity. The statement must include reference to another quantity, which could be a mass, a length, some other quantity, or even an amount of substance of another entity. Examples of such traceability statements for chemical composition could refer to a mole and the kilogram for the concentration, say, of a known element in an ore. The source of the element in that ore is then described in terms of the ratio of SI units mol/kg. Similarly by the SI units of mole and meter one could designate the solution of a defined organic compound, that is in mol/L. For some important chemical measurements we need to find traceability to SI for the mole of one entity as well as the mole of another entity. These moles are not identical and need separate traceability chains (see next paragraph). Measurements by mol/mol ratios are appropriate, for instance, for a trace impurity of known composition in a pure compound, or for an amount of iso-tope-to-element substance ratio (abundance). 

A primary method [2] is one that is capable of operation at the highest metrological level, which can be completely described and for which a complete uncertainty statement can be produced in SI units. The amount of substance can be measured either directly, without reference to any other chemical standard, or indirectly, by use of a ratio method which relates the amount of unknown entity X to a chemical standard. Primary direct methods, such as gravimetry and certain electrochemical and thermal methods are the exceptions in chemistry, as the majority of measurements are made indirectly by comparison with other pure substance RMs as discussed above and below. These ratio methods include isotope dilution mass spectrometry and chromatographic and classical methods. Hence the importance of pure substance RMs. 

The other sort of physicalism which contradicts (IR3) is the extreme view according to which nothing really exists in the strict sense of the word, except for the entities which can be completely described in physical terms. It is a kind of global eliminativism about everything apart from the physical. On this view there is nothing else but particles, fields, etc. tables, elephants and clouds do not exist in the strict sense of the word. This view is hardly ever embraced openly, even though one may often find statements of physicalism which can be construed in this way. On this view there is really only one adequate conceptual scheme, the conceptual scheme of physics. Other conceptual schemes are adequate only in some loose sense. 

Wigner in 1963 [11] concluded that the standard theory of measurement remains the only one that is compatible with the QM. This is a strong statement made by one of the pioneers that should be nuanced by supplementing with another comment made in the same paper "This is a legitimate statement if we acknowledge that the interpretation is sustained by the idea that QM describes the states of objects (entities) in real space. A measurement put the object in a particular eigenstate of the observable one selects the linear superposition collapse as it were [11]."... 

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