Siemens solid edge 2019 help collection free
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Innovation – for a better future | Company | Siemens Global.Free Software | 2D and 3D CAD | Solid EdgeSiemens solid edge 2019 help collection free.Tinder for industrial Internet of Things
Water is the most important basis of tree — and the more people live on earth, the greater the demand. However, climate change, urbanization, and increasing environmental pollution pose major challenges to water companies everywhere.
In line with solud UN goals to enable access to clean drinking and sanitary facilities for everybody bywe help our customers in the water industry to achieve their sustainable water management goals. As an innovation-driven technology company, we enable the water industry to perform both edgs water supply and wastewater disposal in a particularly efficient, economical, and sustainable manner. For the Greek city of Larissa, smart water solutions are proving to be the most sustainable option.
The digital twin creates a virtual image of the real plant: The intelligent linking of data from various sources and their processing in a consistent data model helps exploit the full potential of new and existing plants.
Consistent data management and the consistent data model result in the digital twin: an exact, always up-to-date, and virtual image of the entire plant. The digital twin enables, among col,ection things, simulations to be performed as early as during the engineering phase, comprehensive tests of automation applications, and a realistic training environment for plant operators even before the actual commissioning of the siemens solid edge 2019 help collection free.
This creates opportunities for process optimization and knowledge management, in this way significantly accelerating commissioning. In addition, efficiency is sustainably increased throughout the entire life cycle of manufacturing как сообщается здесь process plants. Digitalization also pays off with brownfield plants by the creation of a digital image of the real plant that can be linked with imported planning data in a database structure.
In this way, the data can be verified, and plant operators obtain an up-to-date digital image of the plant, which is the starting point for comprehensive operations optimization. SIWA Sewer is a powerful and innovative sewer network management application, that calculates the need for control interventions in drainage systems using optimization algorithms.
In this way Siemenw Sewer 219 effective utilization of existing buffers in the sewer network under consideration of rainfall events, thereby avoids and reduces spill overs of untreated water. Providing transparency, SIWA Leak generates real-time information on water transportation pipelines for fully automatic detection, localization and alarming of larger or creeping leaks. SIWA Burst uses intelligent algorithms over an intuitive interface to analyze in real time high frequency recorded pressure fluctuations in pipelines siemenss to locate the source of pipe damage with an accuracy of 20 to 50 meters.
SIWA Optim is a solution for a cost optimized control of pumping schedules for an entire network, providing flexible operation siemens solid edge 2019 help collection free and cost-effective water supply under посетить страницу источник of volatile electricity tariffs and water sources. SIWA Blockage Predictor is an AI based solution that evaluates combined sewer overflow's adaptive performance in real time, considering rainfall patterns and deviations and uses fuzzy logic to warn operator before sewers will be blocked partially or completely.
SIWA OptimDynamics enables fully automated cost and energy effective operation of pumping stations, considering mechanical and hydraulic aspects of single pumps or pump groups. Leverage the hidden potential in your engineering, process, diagnostic and event data siemens solid edge 2019 help collection free our applications heelp digital services to ensure uptime, improve processes and manage operations. As digitalization in the water industry continues to grow, cybersecurity is becoming increasingly important for protecting critical infrastructure from cyberattacks.
Learn more. The Water Portal provides an solir and freely siemens solid edge 2019 help collection free collection of sample solutions and configurations, engineering standards, and tools for automation, process instrumentation, drive technology, and the electrotechnical equipment in water and waste water plants.
Instructions for industrial security and communication are also available. Expert support for engineering companies, system integrators, and plant construction companies for designing, configuring, and engineering water and waste water посетить страницу and systems, pump stations, and desalination plants.
These future-proof sample solutions enable end customers to minimize their costs and risks throughout the lifecycle of their plant. Discover the Water Portal. Standardized engineering of the control system application pays off. It reduces costs and risks during planning, project engineering, commissioning, ongoing maintenance, and servicing and перейти for future modernizations of the plant. Smooth running and ergonomic operation soljd diagnostics are ensured for utility companies.
The Water Templates — available free siemens solid edge 2019 help collection free charge — are custom-made templates for system integrators, plant construction companies, and operators. They contain functions for open- and closed-loop control and ergonomic operation and diagnostics — including for distributed control rooms and external stations. Use of hardware components for automation systems, drive technology, and industrial communication, which includes telecontrol technology, is all fully prepared.
The Water Templates are optimally embedded in the integrated engineering and also encompass simulation, testing, and commissioning. Using the Water Templates also ensures a standardized database for end-to-end digitalization. Standardization reduces configuration costs and increases operational reliability in the water industry.
With this library, you can solve a wide variety of automation tasks in the water industry very efficiently siemenz significantly reduce the engineering workload and thus the configuration siemens solid edge 2019 help collection free as well as the project duration. The library for these different product variants is available for download free of charge at Siemens Online Support.
Intelligent solutions and services from Siemens for planning, engineering, operation, and maintenance are ensuring reliably and sustainably treated drinking water of the highest possible sold around the world. They include process control, automation, and drive technology приведу ссылку well as the power supply for water treatment plants, pipeline systems, and large-scale water networks.
Siemens offers tailor-made hardware and software systems, comprehensive services, and in-depth, specialized expertise for the construction of new or the читать статью of existing waste water systems. This ensures safe and reliable waste water disposal via sewer networks and waste water pump stations even in the event of heavy rainfall, as well as the energy-efficient, environmentally friendly, and straightforward operations management of waste water treatment plants.
Seawater desalination is playing an increasingly important role worldwide, especially in regions suffering from growing water siemens solid edge 2019 help collection free.
Today over countries are already desalinating seawater. Our customers rely on the energy-efficient process siemens solid edge 2019 help collection free reverse osmosis.
Software, energy supply, energy management, and end-to-end service from Siemens in the areas of design, operation, and maintenance support the energy-optimized operation siemens solid edge 2019 help collection free desalination plants around the world. The digital twin of a drinking water supply, waste water treatment, or seawater desalination plant consistently ssolid all the relevant information and business processes — from plant engineering and commissioning to operation, maintenance, and servicing.
As an ссылка на подробности manufacturer of control systems, Siemens offers DCS and SCADA — two different approaches, both of which are modular, flexibly expandable, and therefore fit for the future — that cover relevant industry standards like ergonomic operation and diagnostics as well as industrial security for critical infrastructures.
Collectiob systems offer open library concepts for custom application standards. WinCC Open Architecture also provides a platform for developing customized systems. PCS 7 is scalable from smaller operations with a high automation density to siemens solid edge 2019 help collection free installations.
The system provides consistent, top-down engineering, including the integration of low- and medium-voltage switchgear. The Siemens portfolio for process instrumentation, when combined with the liquid analysis systems from HACH, provides solutions to meet all 10 april 2019 features free download in the по этому адресу and waste water industry — from efficient process control and guaranteed water quality to sure compliance with legal guidelines. The comprehensive drive technology and industrial controls portfolio from Siemens is impressive for its seamlessly coordinated components — from frequency converters and electric motors to modular motor management systems, including industrial controls and protection relays.
It covers the requirements of water and waste water management applications in every performance category and ensures economical plant operation.
The powerful networking of all system components in compliance with international standards is a critical foundation for secure and reliable plant operation in the water and waste water industry. Solutions from Siemens also include telecontrol technology for widely distributed substations that create optimal conditions for the ongoing digitalization of operations. Water and waste water plants are one of the highest energy consumers in the public sector.
Our comprehensive portfolio for electrical power supply ranges from medium and low voltage to DC 24 V. Our portfolio also ensures the highest reliability and availability supported by our engineering expertise for the best optimum solution.
Planning tools for network calculations and design /11570.txt full transparency of all relevant energy consumers. They also enable operators to quickly and efficiently identify saving potentials to reduce operating costs and comply with regulations.
With the applications specifically developed for the water and waste water industry, operators can optimize energy efficiency, avoid water loss, reduce contamination of water bodies and take predictive maintenance measures.
Critical infrastructures like the drinking water supply must be fully and reliably protected from cyberattacks. The comprehensive and practice-oriented security concepts from Siemens lay the groundwork for the secure operation of water management facilities using certified products, systems, and processes according to IECthe leading international standard for security in industrial automation.
The digital transformation is also posing перейти challenges for companies in the water and waste water industry. As an experienced industry partner, Siemens offers customized solutions and consulting services that take advantage of the full commercial and technological potential of digitalization — including plant operation, remote maintenance and diagnostics, tailored software systems for Siemens DCS and SCADA systems, virtualization solutions, and solutions covering all aspects of plant and system security.
Desalination of sea water is becoming more essential for water security. As desalination is very energy intensive, the future desal plants need to be operated more efficient and resource-friendly.
Get an insight how can the commissioning of the prezzo download 10 windows free become faster and error-free. Water scarcity is siemens solid edge 2019 help collection free huge challenge. The process to desalinate seawater is though very energy intensive. Siemens can help in this matter by providing digital technologies to make the operation of the collechion plants more efficient. The solution reduces the number of combined sewer overflows by using AI to detect impending blockages in the sewer system — in some cases as early as two weeks in advance.
Get insights on this best practice project from the customer and Siemens expert. How can leaks in the drinking water system be detected and repaired more efficiently? Water loss and leaks from pipelines are one of the greatest problems in drinking water networks. Learn from the Siemens experts how utilities can use AI to detect leaks more quickly and precisely.
Virtualization, standardization and centralization of all process control systems on a consistent platform. Sustainable renaturation of Emscher and Lippe river basins, which used to be heavily polluted and obstructed. Siemens helps realize large-scale infrastructure by providing technology and financing from the same source. Comprehensive overview of energy consumption of every stage of the process for maximal process optimization and efficiency.
Provision solud 11 million liters of clean and safe water per day via the distributed pump stations and storage tanks. Optimum data visibility high plant availability thanks to seamless integration of all the components using TIA Portal and the Profinet backbone. Siemens solid edge 2019 help collection free efge thanks to siemens solid edge 2019 help collection free automation and drive technology components. Digital twin of the pumping station siemens solid edge 2019 help collection free the test facility enables the intelligent data connection and analysis as well as the simulation download review 16 ashampoo free studio burning various use-cases.
Future-oriented project with the integrated innovative automation and digitalization technologies of Siemens. Reduced operational expenditures and faster maintenance, thanks to the vertical and horizontal integration of all electrical components.
Maximum efficiency and a colllection water supply, thanks to centralized process monitoring and automation. The digital twin accelerates the construction of water production, desalination, and waste water treatment plants. The comprehensive COMOS software solution from Siemens serves as a platform for centralized engineering and microsoft 2013 64 bit management.
Siemens works closely with selected partners in edfe water industry around the world, including EPCs, system integrators, and wholesalers. This means ссылка на страницу the comprehensive offering free digitalization and automation and drive technology can be optimally adapted to the specific requirements of customers on-site anywhere in the world.
In line with our pledge to be siemens solid edge 2019 help collection free agile and active market leader, we go beyond traditional distributorships and increasingly rely on collaboration in different areas. The Digital Enterprise hflp the comprehensive, meaningful use of data for fast and confident decisions. This page requires JavaScript in order to be fully functional and displayed correctly.
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Siemens solid edge 2019 help collection free.Digital transformation for an efficient and sustainable water industry
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Student invents prosthetic limb A high-school student used CAD software to design, test, and construct a lighter weight and more streamlined prosthetic limb for a young US veteran.
Is flying really better? Energy transition, hawaian style Hundred percent renewable generation from wind and solar is not feasible today without significant reliability impacts.
Unknown insights into the body Medicine is reaching a turning point: Just in a few years, artificial intelligence will greatly help doctors make diagnostic decisions and plan treatments. Related Content. Research and development Research and development Our research activities focus on developing innovative and sustainable solutions for our customers.
Inventors Inventors 31 inventions per work day — this figure alone shows the innovative strength of our employees worldwide. Optimum data visibility high plant availability thanks to seamless integration of all the components using TIA Portal and the Profinet backbone. Consistent engineering thanks to coordinated automation and drive technology components.
Digital twin of the pumping station at the test facility enables the intelligent data connection and analysis as well as the simulation of various use-cases. Future-oriented project with the integrated innovative automation and digitalization technologies of Siemens. Reduced operational expenditures and faster maintenance, thanks to the vertical and horizontal integration of all electrical components. Maximum efficiency and a sustainable water supply, thanks to centralized process monitoring and automation.
The digital twin accelerates the construction of water production, desalination, and waste water treatment plants. The comprehensive COMOS software solution from Siemens serves as a platform for centralized engineering and data management. Siemens works closely with selected partners in the water industry around the world, including EPCs, system integrators, and wholesalers.
This means that the comprehensive offering for digitalization and automation and drive technology can be optimally adapted to the specific requirements of customers on-site anywhere in the world. In line with our pledge to be an agile and active market leader, we go beyond traditional distributorships and increasingly rely on collaboration in different areas.
The Digital Enterprise enables the comprehensive, meaningful use of data for fast and confident decisions. This page requires JavaScript in order to be fully functional and displayed correctly. Please enable JavaScript and reload the site. It looks like you are using a browser that is not fully supported. Please note that there might be constraints on site display and usability. For the best experience we suggest that you download the newest version of a supported browser:. Download the brochure Whitepaper Desalination Plants.
Digital transformation for an efficient and sustainable water industry. Holistic portfolio from a single source Water is the most important basis of life — and the more people live on earth, the greater the demand. Our water industry experts will be happy to advise you Contact us. Smart water solutions for Greek city of Larissa For the Greek city of Larissa, smart water solutions are proving to be the most sustainable option.
Giving the best for our most precious resource. For today. For tomorrow. For water. For an efficient and sustainable water industry. Siemens Water Team. Digital Enterprise for the water industry Digitalization for increased transparency and efficiency From data collection to the use of assistance systems, the networking and integration of subsystems, the decentralization of services, and all the way to the autonomy of entire infrastructure systems: Digitization in the water industry makes possible more efficient and sustainable processes for both new and existing facilities.
It involves two levers: the creation of digital twins to optimize processes and the use of digital applications. The digital twin pays off. The digital twin for greenfield plants. Reaching your goals faster and more effectively. The digital twin for brownfield plants. Targeted update. Find out more about our solutions for greater efficiency Download the brochure. Siemens Industry Suite for the Water Industry Smart apps for greater efficiency and security of supply The applications and digital services from the Siemens Industry Suite for water industry provide higher transparency and therefore help identify optimization and savings potential for stronger security of supply.
With the Siemens Water SIWA applications specifically developed for the water and waste water industry operators can optimize energy efficiency, avoid water loss, reduce contamination of water bodies and take predictive maintenance measures. More information. SIWA Sewer. SIWA Leak. Detecting leaks in real time SIWA Leak for Water transmission lines Providing transparency, SIWA Leak generates real-time information on water transportation pipelines for fully automatic detection, localization and alarming of larger or creeping leaks.
SIWA Burst. Detecting and Locating bursts in water pipelines SIWA Burst SIWA Burst uses intelligent algorithms over an intuitive interface to analyze in real time high frequency recorded pressure fluctuations in pipelines and to locate the source of pipe damage with an accuracy of 20 to 50 meters. SIWA Optim. Cost-optimized pump operation in water supply systems SIWA Optim SIWA Optim is a solution for a cost optimized control of pumping schedules for an entire network, providing flexible operation management and cost-effective water supply under consideration of volatile electricity tariffs and water sources.
Up to two weeks advance notice SIWA Blockage Predictor SIWA Blockage Predictor is an AI based solution that evaluates combined sewer overflow's adaptive performance in real time, considering rainfall patterns and deviations and uses fuzzy logic to warn operator before sewers will be blocked partially or completely. Minimize energy consumption in your drinking water distribution systems SIWA OptimDynamics SIWA OptimDynamics enables fully automated cost and energy effective operation of pumping stations, considering mechanical and hydraulic aspects of single pumps or pump groups.
SIWA Sewer SIWA Sewer is a powerful and innovative sewer network management application, that calculates the need for control interventions in drainage systems using optimization algorithms.
Detecting leaks in real time. SIWA Leak for Water transmission lines Providing transparency, SIWA Leak generates real-time information on water transportation pipelines for fully automatic detection, localization and alarming of larger or creeping leaks. Detecting and Locating bursts in water pipelines. SIWA Burst SIWA Burst uses intelligent algorithms over an intuitive interface to analyze in real time high frequency recorded pressure fluctuations in pipelines and to locate the source of pipe damage with an accuracy of 20 to 50 meters.
Cost-optimized pump operation in water supply systems. SIWA Optim SIWA Optim is a solution for a cost optimized control of pumping schedules for an entire network, providing flexible operation management and cost-effective water supply under consideration of volatile electricity tariffs and water sources.
Leakage detection based on Artificial Intelligence. Up to two weeks advance notice. SIWA Blockage Predictor SIWA Blockage Predictor is an AI based solution that evaluates combined sewer overflow's adaptive performance in real time, considering rainfall patterns and deviations and uses fuzzy logic to warn operator before sewers will be blocked partially or completely.
Minimize energy consumption in your drinking water distribution systems. Find out more about the other apps in the Suite Leverage the hidden potential in your engineering, process, diagnostic and event data with our applications and digital services to ensure uptime, improve processes and manage operations.
As the success of Compaq's Deskpro established the as the dominant CPU choice, Intel achieved a position of near-exclusive dominance as its supplier. Profits from this funded rapid development of both higher-performance chip designs and higher-performance manufacturing capabilities, propelling Intel to a position of unquestioned leadership by the early s.
Intel introduced the microprocessor in , and in established a second design team, designing the processors code-named " P5 " and " P6 " in parallel and committing to a major new processor every two years, versus the four or more years such designs had previously taken. Engineers Vinod Dham and Rajeev Chandrasekhar Member of Parliament, India were key figures on the core team that invented the chip and later, Intel's signature Pentium chip.
The P5 project was earlier known as "Operation Bicycle," referring to the cycles of the processor through two parallel execution pipelines. The P5 was introduced in as the Intel Pentium , substituting a registered trademark name for the former part number numbers, such as , cannot be legally registered as trademarks in the United States. The Santa Clara design team embarked in on a successor to the x86 architecture , codenamed "P7".
The first attempt was dropped a year later but quickly revived in a cooperative program with Hewlett-Packard engineers, though Intel soon took over primary design responsibility. The resulting implementation of the IA bit architecture was the Itanium , finally introduced in June The Itanium's performance running legacy x86 code did not meet expectations, and it failed to compete effectively with x , which was AMD's bit extension of the bit x86 architecture Intel uses the name Intel 64 , previously EM64T.
In , Intel announced that the Itanium series Kittson would be the last Itanium chips produced. The Hillsboro team designed the Willamette processors initially code-named P68 , which were marketed as the Pentium 4.
During this period, Intel undertook two major supporting advertising campaigns. The first campaign, the "Intel Inside" marketing and branding campaign, is widely known and has become synonymous with Intel itself. The idea of " ingredient branding " was new at the time, with only NutraSweet and a few others making attempts to do so. The second campaign, Intel's Systems Group, which began in the early s, showcased manufacturing of PC motherboards , the main board component of a personal computer, and the one into which the processor CPU and memory RAM chips are plugged.
Shortly after, Intel began manufacturing fully configured " white box " systems for the dozens of PC clone companies that rapidly sprang up. IAL's software efforts met with a more mixed fate; its video and graphics software was important in the development of software digital video, [ citation needed ] but later its efforts were largely overshadowed by competition from Microsoft.
Microsoft Corp. In June , Intel engineers discovered a flaw in the floating-point math subsection of the P5 Pentium microprocessor. Under certain data-dependent conditions, the low-order bits of the result of a floating-point division would be incorrect.
The error could compound in subsequent calculations. Intel corrected the error in a future chip revision, and under public pressure it issued a total recall and replaced the defective Pentium CPUs which were limited to some 60, 66, 75, 90, and MHz models [] on customer request. He contacted Intel but received no response. On October 30, he posted a message about his finding on the Internet.
The bug was easy to replicate; a user could enter specific numbers into the calculator on the operating system. Consequently, many users did not accept Intel's statements that the error was minor and "not even an erratum. Intel changed its position and offered to replace every chip, quickly putting in place a large end-user support organization.
Nicely later learned that Intel had discovered the FDIV bug in its own testing a few months before him but had decided not to inform customers. The "Pentium flaw" incident, Intel's response to it, and the surrounding media coverage propelled Intel from being a technology supplier generally unknown to most computer users to a household name. Dovetailing with an uptick in the "Intel Inside" campaign, the episode is considered to have been a positive event for Intel, changing some of its business practices to be more end-user focused and generating substantial public awareness, while avoiding a lasting negative impression.
The Intel Core line originated from the original Core brand, with the release of the bit Yonah CPU , Intel's first dual-core mobile low-power processor. Derived from the Pentium M , the processor family used an enhanced version of the P6 microarchitecture.
Its successor, the Core 2 family, was released on July 27, This was based on the Intel Core microarchitecture , and was a bit design. In November , Intel released the first generation Core processors based on the Nehalem microarchitecture. Intel also introduced a new naming scheme, with the three variants now named Core i3, i5, and i7 as well as i9 from 7th generation onwards.
Unlike the previous naming scheme, these names no longer correspond to specific technical features. It was succeeded by the Westmere microarchitecture in , with a die shrink to 32 nm and included Intel HD Graphics. In , Intel released the Sandy Bridge -based 2nd generation Core processor family. This model was deprecated in , with the release of the seventh generation Core family based on Kaby Lake , ushering in the process—architecture—optimization model.
Ice Lake, based on the Sunny Cove microarchitecture, was produced on the 10 nm process and was limited to low-power mobile processors. Both Amber Lake and Comet Lake were based on a refined 14 nm node, with the latter being used for desktop and high performance mobile products and the former used for low-power mobile products.
In September , 11th generation Core mobile processors, codenamed Tiger Lake , were launched. All 11th generation Core processors feature new integrated graphics based on the Intel Xe microarchitecture.
Both desktop and mobile products are set to be unified under a single process node with the release of 12th generation Intel Core processors codenamed " Alder Lake " in late In early January , it was reported that all Intel processors made since [] [] besides Intel Itanium and pre Intel Atom have been subject to two security flaws dubbed Meltdown and Spectre.
The impact on performance resulting from software patches is "workload-dependent". Several procedures to help protect home computers and related devices from the Spectre and Meltdown security vulnerabilities have been published. On March 15, , Intel reported that it will redesign its CPUs performance losses to be determined to protect against the Spectre security vulnerability , and expects to release the newly redesigned processors later in On May 3, , eight additional Spectre-class flaws were reported.
Intel reported that they are preparing new patches to mitigate these flaws. They reported that previously released microcode updates, along with new, pre-release microcode updates can be used to mitigate these flaws. On January 18, , Intel disclosed three new vulnerabilities affecting all Intel CPUs, named "Fallout", "RIDL", and "ZombieLoad", allowing a program to read information recently written, read data in the line-fill buffers and load ports, and leak information from other processes and virtual machines.
Despite Apple's use of Intel products, relations between the two companies were strained at times. However, Apple's shift to their own chips might prompt other PC manufacturers to reassess their reliance on Intel and the x86 architecture. The Intel Scientific Computers division was founded in by Justin Rattner , to design and produce parallel computers based on Intel microprocessors connected in hypercube internetwork topology.
In November , Intel revealed that it is going to use light beams to speed up supercomputers. Intel is one of the biggest stakeholders in the self-driving car industry, having joined the race in mid [] after joining forces with Mobileye. Safety levels of the technology, the thought of abandoning control to a machine, and psychological comfort of passengers in such situations were the major discussion topics initially. The commuters also stated that they did not want to see everything the car was doing.
This was primarily a referral to the auto-steering wheel with no one sitting in the driving seat. Intel also learned that voice control regulator is vital, and the interface between the humans and machine eases the discomfort condition, and brings some sense of control back. By the end of the s, microprocessor performance had outstripped software demand for that CPU power. Aside from high-end server systems and software, whose demand dropped with the end of the " dot-com bubble ", consumer systems ran effectively on increasingly low-cost systems after Intel's strategy of producing ever-more-powerful processors and obsoleting their predecessors stumbled, [ citation needed ] leaving an opportunity for rapid gains by competitors, notably AMD.
This, in turn, lowered the profitability [ citation needed ] of the processor line and ended an era of unprecedented dominance of the PC hardware by Intel.
Intel's dominance in the x86 microprocessor market led to numerous charges of antitrust violations over the years, including FTC investigations in both the late s and in , and civil actions such as the suit by Digital Equipment Corporation DEC and a patent suit by Intergraph. Intel's market dominance at one time [ when?
A case of industrial espionage arose in that involved both Intel and AMD. Gaede was convicted and sentenced to 33 months in prison in June Andy Grove became the company's president in and added the CEO title in when Moore became chairman. In , Grove succeeded Moore as chairman, and Craig Barrett , already company president, took over. Grove stepped down as chairman but is retained as a special adviser. In May , Barrett stepped down as chairman of the board and was succeeded by Jane Shaw.
In November , president and CEO Paul Otellini announced that he would step down in May at the age of 62, three years before the company's mandatory retirement age. During a six-month transition period, Intel's board of directors commenced a search process for the next CEO, in which it considered both internal managers and external candidates such as Sanjay Jha and Patrick Gelsinger.
Reportedly, the board concluded that an insider could proceed with the role and exert an impact more quickly, without the need to learn Intel's processes, and Krzanich was selected on such a basis. The board was described by former Financial Times journalist Tom Foremski as "an exemplary example of corporate governance of the highest order" and received a rating of ten from GovernanceMetrics International, a form of recognition that has only been awarded to twenty-one other corporate boards worldwide.
On June 21, , Intel announced the resignation of Brian Krzanich as CEO, with the exposure of a relationship he had with an employee. Gelsinger is a former Intel chief technology officer who had previously been head of VMWare. As of March 25, []. Intel has a mandatory retirement policy for its CEOs when they reach age Grove retired as chairman and as a member of the board of directors in at age Intel's headquarters are located in Santa Clara, California, and the company has operations around the world.
Its largest workforce concentration anywhere is in Washington County, Oregon [] in the Portland metropolitan area 's " Silicon Forest " , with 18, employees at several facilities.
In Oregon, Intel is the state's largest private employer. As a condition, Intel would employ 1, more workers in Kiryat Gat and between and workers in the north. In January , it was reported that Intel would cut about 5, jobs from its work force of , The announcement was made a day after it reported earnings that missed analyst targets. The plan calls for continued investment in existing and new Intel plants until As of [update] , Intel employs 10, workers at four development centers and two production plants in Israel.
Due to declining PC sales, in Intel cut 12, jobs. Intel has a Diversity Initiative, including employee diversity groups as well as supplier diversity programs. In , Intel sanctioned one of the earliest corporate Gay, Lesbian, Bisexual, and Transgender employee groups, [] and supports a Muslim employees group, [] a Jewish employees group, [] and a Bible-based Christian group.
In addition, the company is frequently named one of the Best Companies for Working Mothers by Working Mother magazine. For US employees in technical roles, the mix was reported as Intel has been operating in the State of Israel since Dov Frohman founded the Israeli branch of the company in in a small office in Haifa. Intel Israel currently has development centers in Haifa, Jerusalem and Petah Tikva , and has a manufacturing plant in the Kiryat Gat industrial park that develops and manufactures microprocessors and communications products.
Intel employed about 10, employees in Israel in In October , Intel reached a deal to acquire Telmap , an Israeli-based navigation software company. In July , Intel confirmed the acquisition of Omek Interactive , an Israeli company that makes technology for gesture-based interfaces, without disclosing the monetary value of the deal.
An official statement from Intel read: "The acquisition of Omek Interactive will help increase Intel's capabilities in the delivery of more immersive perceptual computing experiences.
The acquisition of a Spanish natural language recognition startup, Indisys was announced in September The terms of the deal were not disclosed but an email from an Intel representative stated: "Intel has acquired Indisys, a privately held company based in Seville, Spain. The majority of Indisys employees joined Intel. We signed the agreement to acquire the company on May 31 and the deal has been completed. In December , Intel bought PasswordBox. In February , Intel announced its agreement to purchase German network chipmaker Lantiq, to aid in its expansion of its range of chips in devices with Internet connection capability.
In October , Intel bought cognitive computing company Saffron Technology for an undisclosed price. In December , Intel acquired computer vision startup Movidius for an undisclosed price. The new investment will expand the operations of its Malaysian subsidiary across Penang and Kulim, creating more than 4, new Intel jobs and more than 5, local construction jobs.
In December , Intel announced its plan to take Mobileye automotive unit via an IPO of newly issued stock in , maintaining its majority ownership of the company. In May , Intel announced that they have acquired Finnish graphics technology firm Siru innovations.
In May , it was announced that Ericsson and Intel, are pooling research and development to create high-performing Cloud RAN solutions. The organisations have pooled to launch a tech hub in California, USA. The hub focuses on the benefits that Ericsson Cloud RAN and Intel technology can bring to: improving energy efficiency and network performance, reducing time to market, and monetizing new business opportunities such as enterprise applications.
In , Intel Capital announced a new fund to support startups working on technologies in line with the company's concept for next generation notebooks. The ultrabook is defined as a thin less than 0. Intel has a significant participation in the open source communities since Intel also runs the LessWatts. Linspire - Linux creator Michael Robertson outlined the difficult position that Intel was in releasing to open source , as Intel did not want to upset their large customer Microsoft.
Intel has also supported other open source projects such as Blender [] and Open 3D Engine. In its history, Intel has had three logos. The first Intel logo featured the company's name stylized in all lowercase, with the letter e dropped below the other letters. The second logo was inspired by the "Intel Inside" campaign, featuring a swirl around the Intel brand name. The third logo, introduced in , was inspired by the previous logos. It removes the swirl as well as the classic blue color in almost all parts of the logo, except for the dot in the "i".
Intel has become one of the world's most recognizable computer brands following its long-running Intel Inside campaign. The idea for "Intel Inside" came out of a meeting between Intel and one of the major computer resellers, MicroAge. In the late s, Intel's market share was being seriously eroded by upstart competitors such as Advanced Micro Devices now AMD , Zilog, and others who had started to sell their less expensive microprocessors to computer manufacturers.
This was because, by using cheaper processors, manufacturers could make cheaper computers and gain more market share in an increasingly price-sensitive market. MicroAge had become one of the largest distributors of Compaq, IBM, HP, and others and thus was a primary — although indirect — driver of demand for microprocessors.
Intel wanted MicroAge to petition its computer suppliers to favor Intel chips. However, Mion felt that the marketplace should decide which processors they wanted. Intel's counterargument was that it would be too difficult to educate PC buyers on why Intel microprocessors were worth paying more for. Mion felt that the public didn't really need to fully understand why Intel chips were better, they just needed to feel they were better. So Mion proposed a market test.
Intel would pay for a MicroAge billboard somewhere saying, "If you're buying a personal computer, make sure it has Intel inside. To make the test easier to monitor, Mion decided to do the test in Boulder, Colorado, where it had a single store. Virtually overnight, the sales of personal computers in that store dramatically shifted to Intel-based PCs. Intel very quickly adopted "Intel Inside" as its primary branding and rolled it out worldwide.
Several months later, "The Computer Inside" incorporated the Japan idea to become "Intel Inside" which eventually elevated to the worldwide branding campaign in , by Intel marketing manager Dennis Carter. The Intel Inside advertising campaign sought public brand loyalty and awareness of Intel processors in consumer computers. In , Intel planned to shift the emphasis of its Intel Inside campaign from traditional media such as television and print to newer media such as the Internet.
It was modified in to coincide with the launch of the Pentium III, although it overlapped with the version which was phased out in Advertisements for products featuring Intel processors with prominent MMX branding featured a version of the jingle with an embellishment shining sound after the final note.
The sonic logo was remade a second time in to coincide with the new logo change. Again, it overlapped with the version and was not mainstreamed until the launch of the Core processors in , with the melody unchanged.
Another remake of the sonic logo is set to debut with Intel's new visual identity. In , Intel expanded its promotion of open specification platforms beyond Centrino , to include the Viiv media center PC and the business desktop Intel vPro.
In mid-January , Intel announced that they were dropping the long running Pentium name from their processors. The Pentium name was first used to refer to the P5 core Intel processors and was done to comply with court rulings that prevent the trademarking of a string of numbers, so competitors could not just call their processor the same name, as had been done with the prior and processors both of which had copies manufactured by IBM and AMD.
They phased out the Pentium names from mobile processors first, when the new Yonah chips, branded Core Solo and Core Duo, were released. The desktop processors changed when the Core 2 line of processors were released. By , Intel was using a good-better-best strategy with Celeron being good, Pentium better, and the Intel Core family representing the best the company has to offer.
According to spokesman Bill Calder, Intel has maintained only the Celeron brand, the Atom brand for netbooks and the vPro lineup for businesses. Since late , Intel's mainstream processors have been called Celeron, Pentium, Core i3, Core i5, Core i7, and Core i9 in order of performance from lowest to highest. The first generation core products carry a 3 digit name, such as i5 , and the second generation products carry a 4 digit name, such as the i5 In both cases, a K at the end of it shows that it is an unlocked processor, enabling additional overclocking abilities for instance, K.
Previously, Intel used Helvetica as its standard typeface in corporate marketing. Intel Clear is a global font announced in designed for to be used across all communications. In , as part of a new visual identity, a new typeface, Intel One, was designed. It replaced Intel Clear as the font used by the company in most of its branding, however, it is used alongside Intel Clear typeface.
However, it is still used to mark processor type and socket on the packaging of Intel's processors. It is a book produced by Red Peak Branding as part of new brand identity campaign, celebrating Intel's achievements while setting the new standard for what Intel looks, feels and sounds like. In October , a Transmeta lawsuit was filed against Intel for patent infringement on computer architecture and power efficiency technologies.
Both companies agreed to drop lawsuits against each other, while Intel was granted a perpetual non-exclusive license to use current and future patented Transmeta technologies in its chips for 10 years. In a rebuttal, Intel deconstructed AMD's offensive strategy and argued that AMD struggled largely as a result of its own bad business decisions, including underinvestment in essential manufacturing capacity and excessive reliance on contracting out chip foundries.
On November 4, , New York's attorney general filed an antitrust lawsuit against Intel Corp, claiming the company used "illegal threats and collusion" to dominate the market for computer microprocessors. An antitrust lawsuit [] and a class-action suit relating to cold calling employees of other companies has been settled.
The commission ordered Intel to eliminate discounts that had discriminated against AMD. To avoid a trial, Intel agreed to comply with the order. In February , Intel announced that its office in Munich had been raided by European Union regulators. Intel reported that it was cooperating with investigators. In September , South Korean regulators accused Intel of breaking antitrust law.
The investigation began in February , when officials raided Intel's South Korean offices. New York started an investigation of Intel in January on whether the company violated antitrust laws in pricing and sales of its microprocessors. In November , following a two-year investigation, New York Attorney General Andrew Cuomo sued Intel, accusing them of bribery and coercion, claiming that Intel bribed computer makers to buy more of their chips than those of their rivals and threatened to withdraw these payments if the computer makers were perceived as working too closely with its competitors.
Intel has denied these claims. On July 22, , Dell agreed to a settlement with the U. In particular, the SEC charged that from to , Dell had an agreement with Intel to receive rebates in exchange for not using chips manufactured by AMD.
These substantial rebates were not disclosed to investors, but were used to help meet investor expectations regarding the company's financial performance; "These exclusivity payments grew from 10 percent of Dell's operating income in FY to 38 percent in FY , and peaked at 76 percent in the first quarter of FY Intel has been accused by some residents of Rio Rancho, New Mexico of allowing volatile organic compounds VOCs to be released in excess of their pollution permit.
One resident claimed that a release of 1. Another resident alleges that Intel was responsible for the release of other VOCs from their Rio Rancho site and that a necropsy of lung tissue from two deceased dogs in the area indicated trace amounts of toluene , hexane , ethylbenzene , and xylene isomers, [] all of which are solvents used in industrial settings but also commonly found in gasoline , retail paint thinners and retail solvents.
During a sub-committee meeting of the New Mexico Environment Improvement Board, a resident claimed that Intel's own reports documented more than 1, pounds kg of VOCs were released in June and July Intel's environmental performance is published annually in their corporate responsibility report.
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