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Synthesis structural

After behavioral synthesis, a transformed and optimized flow graph is available, which still does not include any explicit structural information (except module-type proposals for background memory and constraints specified in the input description). The goal of the consecutive structural synthesis process is to transform this flow graph information into an actual implementation that can be executed on the ASIC emulator board. The main steps to be carried out are scheduling, allocation, and binding. The results will again be illustrated by means of the DHRC-benchmark. [Pg.183]

Scheduling receives the optimized data/control flow graph, a fixed CBB allocation, and a maximum timing constraint as input. The goal of scheduling [Pg.183]

Due to the constructive nature of list scheduling, hardware constraints can be checked easily whenever operations of the ready-list (this list keeps all operations that can be scheduled in the actual control step, i.e., all their predecessors are already scheduled) are mapped into the current cycle. In order to [Pg.184]

The example in figure 11 illustrates this concept. Assume that each addition needs one cycle and that only one adder-CBB is available. At first glance it seems that four cycles are necessary to execute this piece of code, since there are data dependencies (Al, A2) and (A3, A4). However, a more detailed analysis of data dependencies shows that a solution with three cycles is possible since the results of A2 and A3 are never used simultaneously, the two operations are mutually exclusive. The same is true for A4 and A5. Under the assump- [Pg.185]

Kernighan-Lin algorithm [18]. This heuristic exploits operation commutativity in order to align operands. [Pg.187]


A reevaluation of the original sequence data established that natural bradykinm was indeed the nonapeptide shown Here the synthesis of a peptide did more than confirm structure synthesis was instrumental m determining structure... [Pg.1135]

Chondrodendron polyanthum, 371 Chondrodendron tomentosum, 363, 371, 373, 377, 391 alkaloids, 376 Chondrodine, 363, 364 Chondrofoline, 364, 365 Chrycentrine, 172, 313 Chiysanthemine, 773 Chrysanthemum cineraricefoHum, 773 Chuchuara, 781 Chuehuhuasha, 781 Cicuta virosa, 13 Cinchamidine, 419, 429 Cinchene, 439 Cinchenine, 438, 439, 440 apoCinchenine, 440, 441 Cincholoipon, 438 Cincholoiponic acid, 438, 443 Cinchomeronic acid, 183 Cinchona alkaloid structure, synthesis, 457 Cinchona alkaloids, bactericidal action of some derivatives, 478 centres of asymmetry, 445 constitution, 435 formulae and characters of transformation products, 449, 451 general formula, 443 hydroxydihydro-bases, 448, 452-4 melting-points and specific rotations, 446... [Pg.787]

Lucien A. Schmit, The Structural Synthesis Concept and Its Potential Role in Design with Composites, in Mechanics of Composite Materials, Proceedings of the Sth Symposium on Naval Structural Mechanics, F. W. Wendt, H. Llebowitz, and N. Perrone (Editors), Philadelphia, Pennsylvania, 8-10 May 1967, Pergamon, New York, 1970, pp. 553-582. [Pg.466]

M. E. Waddoups, L. A. McCullers, F. O. Olsen, and J. E. A ton, Structure Synthesis of Anisotropic Plates, presented at the AIAA/ASME 11th Stnjctures, Structural Dynemriics, and Materials Conference, Denver, Colorado, April 1970. (not in the Proceedings)... [Pg.466]

Each section has the following structure synthesis of target structures, properties including spectral properties (meaning anomalous or confirming structure), reactions on ring atoms, reactions on substituents, partially saturated heterocycles, applications, and biological properties. [Pg.192]

Fincher, G. B. Stone, B. A., Clarke, A. E. (1983). Arabinogalactan-protein Structure, synthesis and function. Annual Review of Plant Physiology, Vol.34, (June 1983), pp. 47-70, ISSN 0066-4294. [Pg.21]

NATURAL DITERPENE AND TRITERPENE QUINONE METHIDES STRUCTURES, SYNTHESIS, AND BIOLOGICAL POTENTIALS... [Pg.269]

In parallel, Tamura et al. [114] conducted a brief investigation into the cytotoxic effect of purified CNTs in cultured neutrophils isolated from human blood. Purified CNTs significantly increased superoxide anion and TNF-a production after 1 h, and caused cell death. Unfortunately, no details of the CNT structure, synthesis, or handling methods were provided. [Pg.193]

Lomant, A.J., and Fairbanks, G. (1976) Chemical probes of extended biological structures synthesis and properties of the cleavable cross-linking reagent [35S] dithiobis(succinimidyl propionate)./. Mol. Biol. 104, 243-261. [Pg.1089]

Perhaps the most important issues to consider now are the application of novel methodologies, molecular diversity, and synthetic convenience. There have been several reports of novel, one-pot procedures for the preparation of 1,2,4-triazoles with diverse structures. Synthesis of 1,2,4-triazoles on polymeric supports, in both solution and solid phase, represents a step toward the combinatorial synthesis of these heterocycles. It is these novel applications of technology to organic synthesis that perhaps lead the way in 1,2,4-triazole chemistry. [Pg.202]

Catlow, C.R.A. (1992). Zeolites structure, synthesis and properties - an introduction. In Modelling of Structure and Reactivity in Zeolites, Catlow, C.R.A. (ed.), pp. 1-17. Academic Press, London... [Pg.263]

Quinonoid structure, synthesis of natural products containing, 21 254 Quinonoid systems, oxygen addition to, 21 249... [Pg.783]

Gel electrophoresis is widely used in the routine analysis and separation of many well-known biopolymers such as proteins or nucleic acids. Little has been reported concerning the use of this methodology for the analysis of synthetic polymers, undoubtedly since in many cases these polymers are not soluble in aqueous solution - a medium normally used for electrophoresis. Even for those water-soluble synthetic polymers, the broad molecular weight dispersities usually associated with traditional polymers generally preclude the use of electrophoretic methods. Dendrimers, however, especially those constructed using semi-controlled or controlled structure synthesis (Chapters 8 and 9), possess narrow molecular weight distribution and those that are sufficiently water solubile, usually are ideal analytes for electrophoretic methods. More specifically, poly(amidoamine) (PAMAM) and related dendrimers have been proven amendable to gel electrophoresis, as will be discussed in this chapter. [Pg.239]

Until recently, synthesis of nanostructured carbon materials was usually based on very harsh conditions such as electric arc discharge techniques [1], chemical vapor deposition [2], or catalytic pyrolysis of organic compounds [3]. In addition (excluding activated carbons), only little research has been done to synthesize and recognize the structure of carbon materials based on natural resources. This is somewhat hard to understand, as carbon structure synthesis has been practiced from the beginning of civilization on the base of biomass, with the petrochemical age only being a late deviation. A refined approach towards advanced carbon synthesis based on renewable resources would be significant, as the final products provide an important perspective for modern material systems and devices. [Pg.201]

A naturally occurring phenazine of nonbacterial origin is the methano-phenazine (MP) (10) which has been isolated from the cytoplasmic membrane of Methanosarcina (Ms.) mazei Gol archaea. The structure, synthesis, properties, and function of this natural product will be discussed in detail since it is not only the first and so far the sole phenazine derivative from archaea, but also the first one that is acting as an electron carrier in a respiratory chain - a biologic function equivalent to that of ubiquinones in mitochondria and bacteria. [Pg.80]

Structure, Synthesis and Analysis of P743, P749 and P840 161... [Pg.151]

Anderson, L. Unger, F. M. Bacterial Lipopolvsaccharides Structure. Synthesis and Biological Activities. American Chemical Society Washington, DC 1983 ACS Symp. Ser. No. 231. [Pg.175]

You find them in citrus fruits (citric acid), vinegar (acetic acid), aspirin (acetylsalicylic acid), and numerous other natural and synthetic compounds, as well on numerous organic exams. In this chapter you explore the structure, synthesis, and reactions of these acids and acids like them. [Pg.187]

Molinski, T. F. 1993. Marine pyridoacridines alkaloids Structure, synthesis, an biological chemistry. Chemical Reviews, 93 1825-1838. [Pg.262]

However, care must be exercised in using molecular sieves for drying organic liquids. Appreciable amounts of impurities were formed when samples of acetone, 1,1,1-trichloroethane and methyl-r-butyl ether were dried in the liquid phase by contact with molecular sieves 4A (Connett Lab.Practice 21 545 1972). Other, less reactive types of sieves may be more suitable but, in general, it seems desirable to make a preliminary test to establish that no unwanted reaction takes place. For the principles of synthesis and identification see R. Szostak Molecular Sieves, Chapman Hall, London 1988, and for structure, synthesis and properties see R.Szostak Handbook of Molecular Sieves, Chapman Hall 1992. [Pg.29]


See other pages where Synthesis structural is mentioned: [Pg.178]    [Pg.428]    [Pg.457]    [Pg.175]    [Pg.363]    [Pg.218]    [Pg.209]    [Pg.211]    [Pg.213]    [Pg.215]    [Pg.217]    [Pg.219]    [Pg.221]    [Pg.227]    [Pg.229]    [Pg.231]    [Pg.233]    [Pg.235]    [Pg.37]    [Pg.697]    [Pg.457]    [Pg.321]   
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See also in sourсe #XX -- [ Pg.512 ]

See also in sourсe #XX -- [ Pg.512 ]

See also in sourсe #XX -- [ Pg.187 ]

See also in sourсe #XX -- [ Pg.83 ]




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