Scientific journal
European Journal of Natural History
ISSN 2073-4972
ИФ РИНЦ = 0,301

THE PERSPECTVE INFORMATION TECHNOLOGIES EFFICIENT REALIZATION AT THE GRAPHICS PERFORMANCE FOR THE MEAT SYSTEMS COMPONENTS SIMULATION

Kovalev A.S., Shalimova O.A, Antziferova N.I., Kirillova L.P.

The "Microsoft Windows 7" perspective operating system (OS) arrival has become a new step in the realization efficiency rise of the profiling new graphics models of the force - meat structure. The new operating system (OS) is distinguished by the high reliability, the large - scale productivity, the advanced graphical interface, and the advanced operation facilities, as in the global area, well as in the local area networks (LANs).

The application of the 64 - bit computations in the "Windows 7" operating system (OS) is permitted to use a more 4 gigabit main memory, owing to the "Core i7" platform by three exchange channels (DCC) on the basis of the 45 - nanometer technological process of the DDR3 type. The conversion to the parallel computing is practically provided the following core sets expansion in the computer processors. The new generation programs of the "Windows" operating systems (OS) are optimized the multi - nuclear computer processors possibilities (e.g. 2-, 4-, and 8 - nuclear ones). It is expected the following expansion from 16 up to 64 cores sets in the computer microprocessor in the near - term outlook. So, it has been obtained the PC higher productivity of more, than four teraflops (TFLOPS) at one graphics processing unit (GPU), and 240 data flow processors, having the 16 gigabytes memory capacity, on the basis of the "Nvidia Tesla" computing systems, and without the main computer processor operation.

The "Core i7" new generation chips of the 45 - nanometer technology on the basis of the "Nehalem" micro - architecture with the built - in memory controller into the processor have increased the operation velocity of the main memory for 50 per cent that resulted in the computer power has been increased for two orders more. The "Nvidia GeForce GTX 280" graphics card, at the multi - data flow processors and one gigabyte display memory on the frequency of 1,296 megahertz, has provided the graphic presentation efficiency of the rheological and structural profiles of the meat system for 50 per cent higher, than at the present "Nvidia GeForce 8800" graphics card on the basis of the "GT 200" new graphics processing unit (GPU), having performed by the 65 - nanometer technological process.

These graphics cards of the high definition (XHD) on the wide screen monitor within the ultrahigh resolutions are being provided in 7 times brighter and more sharp presentation image of the meat profiles and the histological sections, in comparison with the screen monitors, having their less resolution, and they are printing in 2 times more sharp image, than at the displays of the existing park.

The "NVIDIA CUDA 3" technology is being opened all the possibilities of the GPU main core sets, thus, having accelerated the most exacting system tasks, for example, the video conversion, and, having provided almost the sevenfold increase in productivity, in comparison with the traditional GPU.

The "NVIDIA HybridPower 5" technology is provided automatically to switch from the "GeForce GTX 280" graphics card to the "GeForce" graphics processing unit (GPU), which has been integrated into the system board, in a case of its operation with so called "not difficult" graphics applications. This operation is, practically, resulted in the noise reduction and also the considerable energy conservation.

Table 1. The "GeForce GTX 280" Specifications

Data flow processors

240

Core set frequency (MHz)

602 MHz

Shader unit frequency (MHz)

1296 MHz

Memory frequency (MHz)

1107 MHz

Memory capacity

1G

Memory interface

512-bit

Memory bandwidth (Gb/sec.)

141.7

Textures mapping velocity (bln./sec.)

48.2

The «Super Speed USB 3.0» new technology has been provided the graphics files communication of the time history image of the functionally and technological parameters of the meat systems between the peripheral units and the computer, having memory capacity more, than 30 gigabytes, in 10 times fastly, than the "USB 2.0", which is now existing. For all this, the maximum data transfer rate (DTR) on the biochemical - and functional -, and technological parameters of the meat product at the "USB 3.0" application, simultaneously to the both sides (e.g. the duplex data exchange) has been made up 5.0 gigabits per second. This new "USB 3.0" standard is being supported only by the new "Windows 7" operating system (OS).

Thus, the new "Windows 7" operating system (OS) realization will be permitted to carry out the new qualitative and quantitative conversion to the productive systems (PS) of the present generation hardware control and software control devices of the graphics and the data processing (DP) with the high levels performance of the reliability and efficiency meat system component composition designing at the meat products production with the specified food and biological parameters.

The work is submitted to Scientific Conference "The Problems of International Integration of Educational Standards", England (London) - France (Paris), April 20-28, 2009. Came to the Editor´s Office on 02.03.2009.