Manufacturing industry devices central of computer networks, systems, complexes and electronic digit
Today's world runs on computers. Nearly every aspect of modern life involves computers in some form or fashion. As technology is advancing, the scale of computer use is increasing. Computer users include both corporate companies and individuals.VIDEO ON THE TOPIC: Computer Networks: Crash Course Computer Science #28
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Without industrial communication, complex tasks like controlling machines and entire production lines, monitoring state-of-the-art transportation systems or managing power distribution would be impossible.
The digital transformation would also be impossible without powerful communication solutions. The basis for efficient automation: with increasing digitalization, the requirements on industrial communications networks are rising continually. Powerful, integrated, and more and more real-time capable communications networks are required.
Industrial Ethernet is the tried-and-tested technology that can meet these challenges — including the Ethernet-based standard TSN Time-Sensitive Networking in the future. Wireless communication offers many possibilities in the industry for particularly flexible and efficient automation solutions.
Whether your applications include logistics or port facilities, automobile manufacturing or amusement parks, our components for wireless communication cover various indoor as well as outdoor applications, even under the toughest conditions. Industrial plants are frequently widely spread apart — sometimes even across countries and borders.
Siemens offers proven solutions for industrial remote access in public infrastructure, the manufacturing and the process industries, for both telecontrol and teleservice applications. For connecting plants distributed around the world, we offer a broad spectrum of industrial routers, both for wired and wireless access to private and public networks remote networks.
This also allows further remote applications such as video surveillance, condition monitoring, and smart grid applications. Monitor and manage your industrial networks from a central location with powerful hardware and software products. In industrial networks, the Ethernet-based standard TSN enables reserved bandwidths, quality of service QoS mechanisms, low transmission latency, and parallel transmission of multiple protocols — even real-time-capable ones.
PROFIBUS can be adapted to the most diverse applications following a modular concept and proves its worth in all segments of discrete automation and the process industries. AS-Interface AS-i provides you with an effective and powerful bus system which connects all sensors and actuators on the lowest field level with the superior control — with unrivaled ease, safety and integration!
They ensure maximum consistency and efficiency on the last steps to the process and thereby seamless communication. When you want to protect high value assets, you need the most reliable, efficient, and automated operations in place.
Known for industry-leading reliability and performance — not to mention the ability to function as expected, even in the harshest conditions — RUGGEDCOM offers an impressive line of utility grade communications and smart grid technology. Whether on land, coast, or in the high seas, these types of automated energy systems require a certain type of rugged communications system.
Without real-time condition and performance data available at all times, the consequences could be dire. With RUGGEDCOM networking equipment for smart grid technology applications, renewable power generation operators can count on state-of-the-art communications technology and maximum reliability.
The conditions that oil and gas operations face every day are extremely demanding, including challenges such as explosive atmospheres, high vibration and shock, electromagnetic interference, and extreme operating temperatures, making particularly robust communications technology essential. Companies must adapt to increasing dynamic markets. Competing successfully over the long term requires maximum efficiency throughout the entire product lifecycle, and industrial communication networks play an essential role in making this possible.
They provide a platform for the smart use of all relevant data, from design and simulation to optimization and implementation, so that these phases can be linked and optimized. Intelligent use of data is crucial for operating plants safely and productively. It is also a real challenge in the process industry because of the size and complexity of some plants.
But industrial communication networks can turn this challenge into an even greater opportunity. They provide permanent access to real-time data and thus, open up entirely new potential. We offer best-in-class, end-to-end networking solutions for road and rail that are able to withstand the harshest conditions.
Improved mobility, efficiency, safety and sustainability are just some of the benefits appreciated by Siemens customers. Shorter development cycles, higher productivity and improved quality — cloud computing is an important prerequisite to profit from the benefits of digitalization in industry.
All this can work only if the cloud receives valid data from the field. CloudConnect connects machine developers, engineers and plant planners to the future — unbelievably simply, quickly, and securely. Industrie 4. Designing production plants and intralogistics to be more flexible, autonomous, and efficient requires the right communication framework and comprehensive connectivity.
The new 5G communication standard opens up important new prospects. With seamless redundancy you optimize the data transmission in your network — for wired and wireless communication.
The advantage of seamless redundancy mechanisms is that no more data is lost when, e. Industrial communication networks are much more complex than traditional office networks. Successfully planning, designing, and implementing them therefore requires a partner that has comprehensive experience in this area, as well as thorough knowledge of automation and the industry as a whole.
High-availability communications network enables totally smooth manufacture of rotor blades for wind turbines. Scalable network security for transparent, access-protected, and failsafe production of aluminum profiles. Comprehensive services for the digital future of industry assure added value throughout the entire machine and plant lifecycle. Safety Integrated fulfills the steadily increasing requirements for functional safety in machines and plants.
Totally Integrated Automation provides a holistic offering built around the digital twin. Digitalize now and gain a competitive edge with the Digital Enterprise Suite. When operation becomes much easier and more intuitive, data access significantly faster, process safety and quality increasingly greater, and reaction times, as well as downtimes reduced to the minimum, then you are benefitting from the passion we put into the development of our process control systems.
Do you have any questions? Our experts will be glad to help. Contact us. Industrial Ethernet. Network Security. Industrial IoT Gateways. System Interfacing. Cabling Technology. Network Transitions. Time-Sensitive Networking.
Industrial Wireless Communication. Industrial Wireless LAN. Industrial Routers. Industrial Remote Communication. Remote Networks. Rugged Communication. Network Management and Diagnostics.
Communication standards and bus systems. Time-Sensitive Networking TSN In industrial networks, the Ethernet-based standard TSN enables reserved bandwidths, quality of service QoS mechanisms, low transmission latency, and parallel transmission of multiple protocols — even real-time-capable ones. AS-Interface AS-Interface AS-i provides you with an effective and powerful bus system which connects all sensors and actuators on the lowest field level with the superior control — with unrivaled ease, safety and integration!
Industries Industry-specific Communication The special requirements of some industries make special solutions necessary. Discover the industry-specific products and services for industrial communication from Siemens.
In focus Industrial Communication Highlights At Siemens, industrial communication is not only about hardware products. You can also obtain special services and support, along with domain-specific expertise to help ensure continued success for your projects. Further information Downloads and Media Articles and videos with additional information on our products and services.
Ordering tools and catalogs Online catalog More brochures and catalogs Configurators. Follow us on Twitter:. Don't miss new videos on youtube:. References Successful examples from practical application Around the world, companies from all industries rely on our skills in all aspects of future-proof communications networks.
Metal processing. Central administration, high network availability and flexible expansion options. Full transparency during remote maintenance. Fast and simple diagnostics and monitoring. Read the success story.
Molkerei Ammerland. Powerful, scalable, redundant and thus fail-safe network infrastructure. Network structure meets IT and OT requirements. Siemens Wind Power. Reliable communication under harsh conditions, even in humid and salty air. Entire network implemented in accordance with strict safety regulations.
Volkswagen AG. Work stations operate together smoothly. Much improved safety. Redundant network ensures greater availability.
History of Computers
Last updated: December 25, T hank goodness for computer networks! If they'd never been invented, you wouldn't be reading this now using the Internet and I wouldn't be writing it either using a wireless home network to link up my computer equipment.
Without industrial communication, complex tasks like controlling machines and entire production lines, monitoring state-of-the-art transportation systems or managing power distribution would be impossible. The digital transformation would also be impossible without powerful communication solutions. The basis for efficient automation: with increasing digitalization, the requirements on industrial communications networks are rising continually. Powerful, integrated, and more and more real-time capable communications networks are required. Industrial Ethernet is the tried-and-tested technology that can meet these challenges — including the Ethernet-based standard TSN Time-Sensitive Networking in the future.
History of computing
Computer Memory. The chips that make up a computer's internal memory come in two broad flavors known as RAM random access memory and ROM read-only memory. Airy Memory Cleaner saves you time and will make your computer run as new. Select your preferred country or region. Select Erase, which is located on the lower right-hand side on t he screen. It relies on electricity constantly flowing through it at a controlled voltage in order to continue storing the memory. Shop for hard drives and computer memory at Costco. There is some storage involved with memory, which is why it's understandable many make the mistake of confusing the two. Fast Shipping!.
Glossary of Network Terms
Computers and computer networks have changed the way in which people work, play, do business, run organizations and countries, and interact with one another on a personal level. The workplace of the early twentieth century was full of paper, pens, and typewriters. The office of the early twenty-first century is a place of glowing monitor screens, keyboards, mice, scanners, digital cameras, printers, and speech recognition equipment. The office is no longer isolated; it is linked by computer networks to others like it around the world. Computers have had such an effect that some say an information revolution is occurring.
Computers are being used in increasing numbers in the pharmaceutical industry. As microprocessors become more powerful, reliable, and less expensive we can expect the proliferation of this technology, with increasing use by even very small pharmaceutical establishments. Computer systems are used in a wide variety of ways in a pharmaceutical establishment, such as, maintenance of quarantine systems for drug components, control of significant steps in manufacturing the dosage form, control of laboratory functions, management of warehousing and distribution activities. Computer systems may control one or more of these phases, either singly or as part of a highly automated integrated complex.
Volume I encompasses the field of data processing, and includes a considerable review of existing and potential applications for computers and associated systems, peripheral and verifying equipment in the continually expanding realm of banking and accountancy. Volume II covers money and cheque handling equipment; communications systems; drive-in banking; safes and security equipment; closed-circuit television monitoring; intruder alarm systems; office and mailing machinery; paper and forms handling equipment; etc. Useful features include a Directory of suppliers who specialise in the types of equipment, system-planning and services featured in these volumes; also a Glossary which is aimed to be of equal importance to readers with a bias of expertise in banking and money technology, or in automation. These features appear in Volume I.SEE VIDEO BY TOPIC: OSI Model Explained - OSI Animation - Open System Interconnection Model - OSI 7 layers - TechTerms
Computer , device for processing, storing, and displaying information. Computer once meant a person who did computations, but now the term almost universally refers to automated electronic machinery. The first section of this article focuses on modern digital electronic computers and their design, constituent parts, and applications. The second section covers the history of computing. For details on computer architecture , software , and theory, see computer science.
History of computing
The history of computing hardware covers the developments from early simple devices to aid calculation to modern day computers. Before the 20th century, most calculations were done by humans. Early mechanical tools to help humans with digital calculations, like the abacus , were called "calculating machines", called by proprietary names, or referred to as calculators. The machine operator was called the computer. The first aids to computation were purely mechanical devices which required the operator to set up the initial values of an elementary arithmetic operation, then manipulate the device to obtain the result. Later, computers represented numbers in a continuous form, for instance distance along a scale, rotation of a shaft, or a voltage.
In fact, calculation underlies many activities that are not normally thought of as mathematical. Walking across a room, for instance, requires many complex, albeit subconscious, calculations. Computers, too, have proved capable of solving a vast array of problems, from balancing a checkbook to even—in the form of guidance systems for robots—walking across a room.
The Key to the Digital Enterprise
As it is getting increasingly difficult to achieve gains in the density and power efficiency of microelectronic computing devices because of lithographic techniques reaching fundamental physical limits, new approaches are required to maximize the benefits of distributed sensors, micro-robots or smart materials. Biologically-inspired devices, such as artificial neural networks, can process information with a high level of parallelism to efficiently solve difficult problems, even when implemented using conventional microelectronic technologies. We describe a mechanical device, which operates in a manner similar to artificial neural networks, to solve efficiently two difficult benchmark problems computing the parity of a bit stream, and classifying spoken words. The device consists in a network of masses coupled by linear springs and attached to a substrate by non-linear springs, thus forming a network of anharmonic oscillators.
Introduction to Computer Information Systems/Print version
Computers Computer is a machine for performing calculations automatically. An expert at calculation or at operating calculating machines. A machine that can be instructed to carry out sequences of arithmetic or logical operations automatically via computer programming.
Вагончик вновь подобрал нас в течение десяти минут и переправил через тоннель под Цилиндрическим морем. - А ты искал Эпонину. - спросила Николь. Макс кивнул. - Нечто вроде .
Ты невозможен. - После вчерашней ночи, - сказал Ричард, пока огонек приближался к ним, - я вновь ощущаю себя мальчишкой. Николь усмехнулась и качнула головой. Они молча взялись за руки, тем временем светящийся шар продолжал увеличиваться в размерах. Минуту спустя он остановился - в двадцати-тридцати метрах от них, высоко над головой.
Ричард и Николь выключили фонарики, поскольку теперь могли видеть местность вокруг себя более чем на сотню метров.
Но когда они не обнаружат нас там, то могут полезть и в логово октопауков, в случае если их сопровождает Кэти. Впрочем, едва ли они пройдут дальше тоннеля. - А как насчет тебя, Макса и Патрика. - спросила Николь.