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Computer, computers hardware

Computers. Computer hardware and often computer software are designed by electrical engineers. The CPU and other IGs of the computer are the... [Pg.572]

In order to prepare the system for 3D-CT, it is not enough to integrate a second detector array. Besides this special attention has to be paid to the computer hardware, the synchronisation between object movement and the data read out as well as to the collimator of the LINAC. The collimator has been built with 4 tungsten blocks which can be moved individually m order to shape different sht sizes for 2D-CT as well as different cone angles for 3D-CT or digital radiography. [Pg.586]

The system should support all the inspection types available in the PSP-3 P-scan, T-scan and Through Transmission, TOFD and A-scan. It should be possible to record data for all the inspection types simultaneously. The developments in computer hardware, in particular disk storage, during the last years have made it feasable to increase the emphasis on the A-scan recording modes. It has also been feasible to extend the P-scan format to include P-scan image storage in a full 3D format, that allows cross-section views to be generated off-line. [Pg.782]

That said, the remarkable advances in computer hardware have made ab initio calculations feasible for small systems, provided that various technical details are carefiilly treated. A few examples of recent computations... [Pg.199]

Molecular modelling used to be restricted to a small number of scientists who had access to the necessary computer hardware and software. Its practitioners wrote their own programs, managed their own computer systems and mended them when they broke down. Today s computer workstations are much more powerful than the mainframe computers of even a few years ago and can be purchased relatively cheaply. It is no longer necessary for the modeller to write computer programs as software can be obtained from commercial software companies and academic laboratories. Molecular modelling can now be performed in any laboratory or classroom. [Pg.13]

We cannot solve the Schroedinger equation in closed fomi for most systems. We have exact solutions for the energy E and the wave function (1/ for only a few of the simplest systems. In the general case, we must accept approximate solutions. The picture is not bleak, however, because approximate solutions are getting systematically better under the impact of contemporary advances in computer hardware and software. We may anticipate an exciting future in this fast-paced field. [Pg.169]

Computer hardware costs have decreased dramatically. As a result, systems have become more affordable. Higher performance of new technology allows more functional capacity to be provided ia a smaller, less cosdy machine. [Pg.521]

Instmmentation advances have increased the power and quahty of the fundamental analytical techniques used in conjunction with LIMS. Unfortunately, these advances come at a price of increasing complexity and volume of information. Despite ah. of the architectural and technological advances of computer hardware and software, the demands of the information requirements still exceed the computing capabhities, so as to put continuing pressure on computer manufacturers to iacrease storage and processiag capabhities evea further. [Pg.521]

Computational fluid dynamics (CFD) emerged in the 1980s as a significant tool for fluid dynamics both in research and in practice, enabled by rapid development in computer hardware and software. Commercial CFD software is widely available. Computational fluid dynamics is the numerical solution of the equations or continuity and momentum (Navier-Stokes equations for incompressible Newtonian fluids) along with additional conseiwation equations for energy and material species in order to solve problems of nonisothermal flow, mixing, and chemical reaction. [Pg.673]

With the advances in computing hardware that have occurred over the last decade, three-dimensional computational analyses of shock and impact problems have become relatively common. In Lagrangian calculations, element erosion schemes have provided a means for handling the large deformations and material failure that is often involved, and Fig. 9.28 shows results of a penetration calculation which makes use of this methodology [68]. [Pg.347]

Despite recent developments in algorithms and computer hardware, to bridge the gap between the time and size scales accessible by computer simulations and those required by experimental observations we still need to develop noble approaches. [Pg.66]

Algorithms and computer hardware have limited the size of most of the all-atom membrane simulations performed to date to 50-100 lipids plus water. However, with the increasing availability of parallel computers, larger systems containing up to 1000 lipids are starting to be simulated [75], and systems containing more than 100 lipids will soon be routine. [Pg.467]

Section 1. Provides a checklist for evaluating the computer hardware (equipment) and additional software (programs) required to operate the system. The flexibility and ease of use of the system and the availability of training and other types of vendor support are also addressed. [Pg.268]

The accuracy of a CFD program is greatly influenced by the number of cells in the grid. The larger the number of cells, the more accurate the solution. Additionally, the cost of computer hardware and calculation time combined with the accuracy of a solution depends on the preciseness of the grid. [Pg.784]

Unauthorized interference with computer hardware is usually difficult, but interference with peripheral equipment may be more serious than on a traditional plant, as the computer will not know that interference has occurred. For example, the leads on a limit switch on a valve were interchanged to carry out some tests. The plant was on manual control at the time but was switched back to computer control before the leads were restored to their coirect positions. The computer thought the valve was open (when it was shut) and elected to close it. It actually opened it, releasing flammable material [2]. [Pg.362]

Molecular modeling is a major new learning activity, and there are substantial obstacles that must be overcome before it can be used to best effect. Training is required so that teachers can decide what aspects of modeling will prove most useful, and students can make most effective use of their time. Funds need to be raised for the purchase of computer hardware and software. [Pg.3]

Such units are used in the watches with electronic drives instead of the traditional mechanical spring driven drives. Another area where the combination function is being used is in large-scale integrated circuit unit supports where the complex interconnection requirements make a combination circuit support and printed circuit unit an attractive way to achieve high packing efficiency such as computer hardware systems. [Pg.226]

A number of areas in which plastics are used in electrical and electronic design have been covered there are many more. Examples include fiber optics, computer hardware and software, radomes for radar transmitters, sound transmitters, and appliances. Reviewed were the basic use and behavior for plastics as an insulator or as a dielectric material and applying design parameters. The effect of field intensity, frequency, environmental effects, temperature, and time were reviewed as part of the design process. Several special applications for plastics based on intrinsic properties of plastics materials were also reviewed. [Pg.229]

The use of computers in design and related fields is widespread and will continue to expand. It is increasingly important for designers to keep up to date continually with the nature and prospects of new computer hardware and software technologies. For example, plastic databases, accessible through computers, provide product designers with property data and information on materials and... [Pg.412]


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See also in sourсe #XX -- [ Pg.22 , Pg.23 , Pg.24 , Pg.30 , Pg.125 , Pg.238 ]




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