Drafting And Architecture Training

Are you seeking drafting and architecture training? If so, you must understand that in order to become a legal, practicing architect in the United States, you are required to follow a specific educational path, and be licensed.

To attain a professional license, future architects must first attain professional drafting and architecture training from a qualified school. Upon successful graduation, candidates are required to participate in an internship to continue their drafting and architecture training. After that, the student may go on to taking the Architect Registration Examination (ARE) and must receive passing scores on all divisions.

If you are wondering what drafting and architecture training really consists of, the coursework will generally include related subjects such as architectural history, theory, building design, construction techniques, liberal arts, math, physical sciences, professional practice, arts and design, and computer aided drafting (CAD).

If you are serious about a career in drafting and architecture, then a vocational school or community college is a good place to gain your footing. Most employers are seeking experienced and well-educated candidates, so it is important to obtain a solid background in academics and technologies suited for the dual career. Drafting and architecture training that can be transferred to a 4-year college can be used as a stepping stone to a Bachelor Degree in Architecture and Drafting. Some vocational schools offer comprehensive technical training that will lead to a certificate or diploma of completion; others may offer an Associate Degree.

Aspiring professionals who have completed their vocational drafting and architecture training, and have successfully met all requirements of licensure, may earn anywhere from $25,000 to nearly $100,000 per year, depending on combined education and experience.

If you would like to learn more about Drafting and Architecture Training and Drafting and Architecture Schools, or even Online Drafting and Architecture Schools, you can find more in-depth information and resources on our website.

DISCLAIMER: Above is a GENERAL OVERVIEW and may or may not reflect specific practices, courses and/or services associated with ANY ONE particular school(s) that is or is not advertised on our website.

Copyright 2007 – All rights reserved by Media Positive Communications, Inc.

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Pangnse Advanced Ip Ngn Architecture System Engineer

Cisco Certified Architecture is the highest level of qualifications possible within the Cisco Requirements program. It is the epitome for individuals wanting to show their official approval of Cisco technologies and facilities structure.

This famous qualification recognizes the structural expertise of program Architectures who can support the increasingly complex networks of worldwide organizations and effectively turn organization methods into major technical methods. A Cisco Certified Architecture increases the organization requirements and objectives necessary to produce a strategy for a, large-scale, complex, worldwide program. They can turn organization factors and objectives into functional requirements for a program design. In addition, Cisco Certified Architectures can clearly communicate and recommend suggested Cisco program architectures.

There are no official training applications available for the Cisco Qualified Architecture qualifications. However, candidates wanting to accomplish their Cisco Qualified Architecture qualifications must fulfill before an in-person panel made of Cisco-appointed examination panel associates during which the candidate protects their suggested system remedy.

Exam 650-754
Exam 650-754 includes 60 concerns and the time permitted is 60 moments or 1 hour. This test 650-754 is available in only British terminology. Applicants for Exam 650-754 can sign-up for examination at any Pearson VUE middle.

The 650-754 Innovative IP Next-Generation Network (NGN) Structure System Professional (PANGNSE) examinations will determine a learner’s understanding of the Cisco IP NGN architecture and capability to map specialized alternatives to business needs. This examination is a need of the Innovative IP NGN Structure Expertise for Systems Technical engineers.
650-752 Exam Topics

The following subjects are typical recommendations for the articles likely to be involved on the examination. However, other relevant subjects may also appear on any particular distribution of the examination. To be able to better indicate the 650-752 material of the examination and for quality requirements, the recommendations below may modify at any time without observe. They include:

Describe how to create and existing Cisco IP NGN alternatives as a company situation to the customer
Describe the Cisco IP NGN architecture
Describe Cisco IP NGN conditions and advantages
Describe Cisco IP NGN alternatives and how to arrange them with client needs
Describe typical client objections
Describe the aggressive surroundings and how to place Cisco IP NGN solutions
Describe how to create and existing Cisco IP NGN alternatives as a company situation to the customer
Describe the company and specialized advantages of the Cisco IP NGN architecture
Describe the company influencers for Cisco IP NGN structure applications
Implement Cisco IP NGN structure scenarios
Jobs of the Cisco Qualified Architecture
Lead growth and advance of architecture
Analyze engineering and industry market trends
Establish with regards to principles for networks
Selection of engineering and products
Identification of company resource needs
Direct the growth of connections and understanding strategy for system architecture

Applicants seeking to use to become a Cisco Qualified Architecture must also keep an actual Cisco Qualified Design (CCDE) certification, confirming their expert level style and company level skills set.

Creating A Web Site With A Search Engine Optimized Architecture

A web sites architecture is what grounds all future search engine marketing efforts. An optimal web site architecture facilitates a search engine in traversing
and understanding the site. Therefore, creating a web site with a search engine optimized architecture is a major contributing factor in achieving and maintaining high search engine rankings.
Architecture should also be considered throughout a web sites lifetime by the web site developer, alongside other factors such as aesthetics and usability. If a new feature does not permit a search engine to
access the content, hinders it, or confuses it, the effects of good content may be reduced substantially.For example, a web site that uses Flash or AJAX technologies inappropriately may obscure the majority
of its content from a search engine.

Optimizing a sites architecture frequently involves tinkering with variables that also affect usability and the overall user perception of your site. When we encounter such situations, we alert you to why
these certain choices were made. Sometimes we find that SEO enhancements run counter to usability. Likewise, not all designs that are user friendly are search engine friendly. Either
way, a compromise must be struck to satisfy both kinds of visitors users and search engines.

One common misconception is that search engine optimization efforts can be made after a web site is launched. This is frequently incorrect. Whenever possible, a web site can and should be designed to be
search engine friendly as a fundamental concern.Unfortunately, when a preexisting web site is designed in a way that poses problems for search engines,search engine optimization can become a much larger task. If a web site has to be redesigned, or partially
redesigned, the migration process frequently necessitates special technical considerations. For example,old URLs must be properly redirected to new ones with similar relevant content.

Traditional Breakfast, Lunch, Dinner And Architecture In Taiwan

Meal cult is an important part of countrys culture. Food and drink are the main necessities for sustaining life, and Taiwan cuisine takes a special place among the great cuisines of the world. Taiwan has a broad variety of dishes because of great ethnic diversity. The diversity of cuisines contains 8 principle types: Hoklo (or Taiwanese), Hakka, vegetarian cuisine, northern style cuisine, Hunan, Jiangzhe, Hong Kong, and Sichuan. Seafood is used in all these cuisines as a culinary culture of Taiwan that is simple and light.

In Taiwan people prefer to drink tea or coffee with some sandwiches for breakfast. They like fruits and sweets which are laid in a big plate on the table. For example, when the time for lunch comes, people eat salty dishes such as steamed and chopped chicken, steamed streaky pork with dry mustard cabbage, or dried mustard greens. Besides, they like rice with boiled eggs or fried potatoes with meat or fish. In Taiwan people have hundreds of receipts of dishes with rice and fish. Traditionally, Chinese dinner is laid at the round table in the center of which there is a flat circle on a revolving stand. It is necessary to point out that meals are served on big plates and are put in required amount on small plates by a person. At first cold snack is served, then time comes for hot dishes and only after these dishes the so called principle dishes are served.

In Taiwan people like to eat dishes with rice, meat and fish. In the end of dinner a soup or a broth is served. There is no dessert fruits and sweets are on the table during all the dinner and they are very often used in the principle dish (Bates 2005). Consequently, Taiwan cuisine represents one face by which a country is famous for. Traditional breakfast, lunch, and dinner in Taiwan are similar to breakfast, lunch, and dinner in Europe; however, there are some details you should know about Taiwan cuisine.

Taiwanese architecture is composed of variety of styles. The old traditional architectural model of houses in Taiwan still exists here. However, traditional architectural features of Taiwanese style become unimportant when entertaining and commercial institutions, such as shops and theaters, are built. We should emphasize that modern Taiwanese architecture unites traditional Taiwanese and European architecture styles. There appear buildings in European style, such as buildings of foreign consulates, foreign concessions, banks, hotels and clubs in big cities.

Storytelling through Architecture

By Marina Correa Photography: Philippe Ruault; courtesy the architects

The Giraffe Childcare Centre designed by Hondelatte Laporte Architects introduces a dollop of fantasy into the routine lives of suburban Parisian townsfolk-

Niched between a towering structure, next to a neighbourhood built in the 70s and a newly constructed area, it was imperative that the healthcare centre did not -get lost’ within the urban landscape – hence the building is composed of three tiers and each is identified by a unique concrete animal sculpture.

The facades of the building are made out of white corrugated iron that provides a minimal background to the animal sculptures.

Interestingly, each of the south-facing playgrounds is in continuity with the interior spaces; while the urban landscape is animated using a child’s imagination. The wild animal sculptures appropriate a space: a giraffe appears to be peacefully eating the leaves of the trees from the neighbouring park; a polar bear tries to clamber up the steps, while a family of ladybirds climbs the faade in an attempt to reach the interior patio.

Architecture turns into storytelling. The building changes its identity and becomes a landscape in its own right; a metaphor for the urban jungle. The animals and the trees link the building to nature and motion.

Besides infusing a playful and poetic element, this building has also been awarded a green, zero energy efficiency label, making it not just aesthetically appeasing but also one that respects its environment.

Becoming a prominent landmark for the nursery, the affable animal forms transport us to a make-believe world. When pondered upon, definitely a project that goes way beyond the surface to attribute human characteristics and ethos to the emotional, functional routine of a child daycare centre.

to view images click on globalhop.indiaartndesign.com

Overview Of Ibm Service Oriented Architecture (soa) Fundamentals Certification

The increasing need for SOA can be complex for companies looking to use experienced IT professionals with SOA capabilities. Several contemporary IT workers do not have experience with the engineering that are the foundation for an SOA. This capabilities gap can slowly down and delay deployments among all but the most forward companies. Quickly creating capabilities is a need to keep rate with the opponents.

IBM WebSphere Details allows you get going easily via IBMs Web-based exercising series. Taken as a whole, the series provides a company foundation for recognizing, evaluating, and indicating your company’s SOA needs.

Test 000-669 – Exam Info
The exam includes six areas containing a complete of roughly 54 multiple-choice concerns. The rates after each area name indicate the estimated submission of the complete query set across the areas.

Area 1 – The Value of SOA (15%)
A.Identify company functions where SOA can enhance competition and efficiency.
B.Identify how SOA can offer revenue (ROI) (improve competition, website, improve responsiveness.)

C.Identify the SOA functions that make companies more nimble.
D.Identify the chance expenses of not implementing SOA.
E.Identify circumstances where SOA does not offer the preferred value or is not appropriate.
F.Identify the company individuals for SOA.

Area 2 – SOA Principles (26%)
A.Define the idea of assistance in SOA.
B.Describe the structural concepts used in SOA (for example: decrease combining and separating of issues.)

C.Describe the tasks that XML performs in SOA.
D.Describe the aspect of an assistance computer pc personal computer system operating system and/or database in SOA.

Area 3 – Primary SOA Structure (20%)
A.Describe you will of a simple SOA architecture.
B.Describe the components of the IBM SOA Referrals Structure, and their tasks and connections.

C.Describe the business assistance bus (ESB) and its aspect in SOA.
Area 4 – SOA Control (19%)
A.Explain the need for SOA government.

B.Describe SOA government and relevant concepts (roles and obligations, financing designs, guidelines, administration, crucial achievements aspects, and analytics.)

C.Describe Excellent of Service (QoS) problems relevant to SOA.
D.Explain the need for an allocated protection design (including problems like recognize provisioning and reproduction.)

E.Identify the effect of changes to solutions in the SOA lifecycle (change management, versioning, and assistance lifecycle.)
Area 5 – Preparing for SOA (20%)
A.Describe the components of SOA government that need to be resolved during the look for SOA.

B.Understand the value of saving company problems, individuals and goals when preparing for SOA.
C.Capture and assess IT problems, individuals, and goals (including analytics and KPIs.)

D.Describe the individuals, business, and technological innovation aspects that effect preparedness for SOA and its achievements.
To get prepared for Examination 000-669, it is first recommended that you are familiar with the job aspect information and the aspects this credentials is according to, as well as have knowing of the topics described in examine objectives/skills determined on exam.

Evaluate your own specialized stage to examine goals and the recommended exercising resources, and then determine for yourself how much planning you require

How is 3D printing technology used in Architecture and Medicine

D printing technology is used to manufacture prototypes, tools, and end-user parts directly from a CAD design. This printing technology offers unprecedented flexibility as it can create a part of any dimension out of any material. Some of the 3d printing materials used include metals, polymers, ceramics, composites, and many more. The 3D printing technology has complete control over material composition, surface texture, and micro-structure of the prototype. 3D printing technology also allows the user to construct prototypes using two different materials. >

Lets take a look at this amazing technology and how it has affected the field of architecture and medicine:

3D printing for Architecture

Architects know that there is nothing like a physical model of a building when it comes to displaying their work or design concept. Physical models also play an important role when it comes to explaining and convincing the customer while selling a project.

3D printers are affordable and high quality solutions for architects. Building a physical model requires great deal of expertise, precision, and time. 3D printing machines help designers focus on their building design, while the devices make 3D models of the project.

Many architects are not tech-savvy and are not used to operating complex devices. 3D printers do not require human intervention at any stage of the printing process. Architects just need to need to draw a CAD diagram of the project and instruct the 3D printer to build a 3D model. The 3D printer can print the model within a few hours, which can then be presented to the client.

3D printers are capable of producing of 3D models with accuracy and speed without compromising on the finer details of the architectural project. The price of desktop 3D printing machines is not that high and independent architects can also afford them.

3D printing for Medicine

The application of 3D printing technology can also be found in the production of medical devices. There are different 3D printing materials available that can be used to build real parts. For example, manufacturing hearing aids is a complex process because they are custom-fit devices and cannot be mass produced. 3D printing greatly helps in such matters where medical devices need to custom-fit a patient.

The future of the 3D printing technology is very bright. Market experts state that 3D printing technology will be affordable to the masses by the next decade. The prices of 3D printing devices are falling rapidly, and it is believed that the prices of 3D printers will drop by as much as 80% in the next 5-10 years. It will not be a surprise to see 3D printing devices in each household just like refrigerators, washing machines, and televisions.

What is the importance of enterprise architecture

Information technology is growing swiftly across the globe with new industrial requirements. There are many organizations that are categorized under IT industry. These organizations are combating to enhance the business performance and productivity. There are many business streams in IT industry such as marketing, banking, software and hardware resource development, IT services, management services and many more. These days, most of the organizations are implementing several business management services to enhance the organizational competency and performance. Enterprise architecture (EA) is one of them that help the organizations to increase the business. It is simply defined as the process of converting business methods and vision into an effective way by improving and communicating the models, key requirements, and principles of the existing business.

EA helps the business enterprises to understand the products and platform, strength and weakness and can also resolve several industrial issues. It can improve the business efficiency by delivering faster services. It can develop a relationship with business executives by translating the industrial needs and insights into strategies. These days, business is growing with raising requirements and requires some management services to control the business. It can also describe the organizational evolution by enhancing the business models and principles.

IT organizations are offering several openings for enterprise architecture jobs to enhance the business relationship between the clients and customers and to increase the growth. It has associated with the external environment including business processes and information technologies. The individuals, who work in this platform, are designated as enterprise architects. These architects support the organization by handling several business challenges and implementing the solutions to enhance the performance.

There are many frameworks in EA such as IAF, DoDAF, TOGAF, EAF and many more to provide multiple benefits to augment the organizational productivity. It is the main platform to connect entire business units in the industry. It is considered the best business factor due to its trends such as focus on diversification, breakdown of industry barriers, growing data density, prominence between growth and performance, rate of product innovation, personalized goods and services and many more to maintain the industrial standards. It is not only important in IT industry, but also in other industries such as banking, government sector, healthcare, telecommunications and many other sectors.

Get more information on: Enterprise Architecture Jobs & IT Service Desk Jobs

Meenakshi Temple Madurai The Best Of Dravidian Architecture

Meenakshi Sundareswarar Temple or Meenakshi Amman Temple is a historic Hindu temple which is located in the city of Madurai in Tamil Nadu. This is among the most famous temples of India which is known throughout the world for its outstanding and impressive architectural beauty. In Hindu religion temple is the place which is reserved for spiritual and religious activities that include prayers and analogous rites.
Sri Meenakshi temple of Madurai is dedicated to Lord Shiva and his consort Goddess Meenakshi (Parvati). Goddess Meenakshi is an incarnation of the Goddess Parvati who is worshiped mainly by South Indians. The utmost architectural wonder of this templeis a testimony to the affluent Dravidian Culture. Some of the prominent features of this colossal temple are:

Temple Architecture:
This temple was built by Kulasekara Pandyan around 2000 years ago. The colossal structure of this temple is among the finest preserved monuments of the Dravidian style of temple architecture. Architectural and sculptural magnificence is the aspect of this temple which makes it popular throughout the world. The temple premise is surrounded by elevated wall which is adorned with various paintings and sculptures. The main deities of this temple are Lord Sundareswarar and Goddess Meenakshi, whose sanctums are encircled by number of smaller shrines and majestic pillared halls. Among the several magnificent structures the most striking ones are the 12 gopurams which are known for their bright colors painting and decoration of stucco figures of deities, animals, monsters, demigods, and celestial nymph.

Ashta Shakthi Mandapam:
This is located at the eastern entrance of the temple which is known for its 1,008 lamp holders. During festive occasions these lamps are lighted which gives spectacular sight to this place. Pillars of this structure are known for their carvings which depict the stories related to Meenakshi’s birth and LordShiva’s Thiruvilayadals (miracles). These pillars are carved on various mythological themes which mesmerizes visitors.

Meenakshi Nayakkar Mandapam:
It is situated adjacent to the Astha Shakthi Mandapam which is known for its 110 pillars. These pillars are famous for their beautiful carvings based on various religious and non-religious themes. A figure of animal with a lions body and an elephants head called Yalli is extremely beautiful.

Porthamarai Kulam (Golden Lotus Tank): >
This is the sacred lake situated inside the temple premises, in which devotees take bath. According to the Indian mythology it is believed that Indra bathed in this tank to wash away his sin, and then worshiped Lord Shiva with golden lotus flowers from the tank. It is surrounded by the corridor which is known for its beautiful sculptures based on various religious themes. The pillars on the northern side of this corridor are decorated with 24 poets of the Third Tamil Sangam.

Some of the other well known attractions of grand Dravidian style edifice are Oonjal Mandapam, Swami Sundareswarar Shrine, Kalyana Mandapam, Aayiram Kaal Mandapam or Thousand Pillar Hall and many more.

Multisynth-based Architecture

Traditional clock generators use a simple integer-N phased-locked loop (PLL)-based architecture. The output clock frequency is a function of the input clock frequency and the PLL divider values as shown in the equation
Equation: fOUT = fIN.N/P.R
Traditional single PLL-based IC solutions are suitable for simple integer clock multiplication of reference inputs or clock generation from crystal inputs. However, many applications require clock generation of multiple non-integer-related frequencies (e.g., 125 MHz Ethernet and 106.25llMHz Fibre Channel). Traditional solutions require that the crystal frequency be changed to support each unique frequency plan. This forces the designer to use one or more custom crystals and multiple clock generator ICs to generate the required set of frequencies, increasing the cost, complexity and power consumption of the overall solution.

New Any-Rate Clock Multiplier Architecture Simplifies Design
Recent advances in mixed-signal analog design have made it possible to provide any-rate frequency synthesis from a single device. Silicon Labs newest clock architecture leverages a fractional-N PLL used in concert with a low-jitter fractional divider termed MultiSynth to produce any-rate frequency synthesis on multiple output clocks. The flagship of this new product family is the Si5338 Any-Rate, Any-Output Quad Clock Generator. This technology dramatically simplifies timing architectures by integrating the frequency synthesis capability of four PLLs in a single device, greatly reducing size and power requirements compared to traditional solutions.

MultiSynth Technology
The Si5338s low phase noise, high-frequency VCO supplies a high-frequency output clock to the MultiSynth block on each of the four independent output paths. The first stage of the MultiSynth architecture is a fractional-N divider, which switches seamlessly between the two closest integer divider values to produce the exact output clock frequency with 0 ppm error. To eliminate phase error generated by this process, the MultiSynth calculates the relative phase difference between the clock produced by the fractional-N divider and the desired output clock and dynamically adjusts the phase to match the ideal clock waveform. This novel approach makes it possible to generate any output clock frequency without sacrificing jitter performance. Based on this architecture, each output clock can be individually programmed to generate any frequency from 0.16 to 350 MHz, and select frequencies to 700 MHz. Typical jitter performance enabled by this MultiSynth-based architecture is 1 ps RMS.