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.

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Management Colleges For Mba In Architecture Designing

A profound understanding of management courses with that of architecture course is essential for bringing forth the best of architecture into the business line. While for the most part, architecture is a blend of science and art, business pertains to bringing this art to the line where its creativity is admired and kept to its highest terms. The difference between potentially good trades as opposed to a fallacious trade-off can only be brought through appropriate management courses. It would be a good practice for an architect to opt for mba courses in order to gain the maximum from their respective architecture course.

Not only does professional mba courses is responsible for helping an architecture major to develop the necessary trading skills but it also helps in giving the person a better gist about the skills that are essential to turn the architecture course into a prominent business venture. MBA coaching classes are often beaming with the necessary skills that could turn a graduate from an architecture college into a prominent business magnate. Most of the courses include detailed analysis of the contemporary practices in the architecture as well as the management industry to bring forth the best of both the fields into one.

A typical business school offering management courses for architecture would include subjects that talk about management behaviour and processes pertaining to it. Furthermore, the course would include managerial economics, as well as the basics relevant to accounting to help architects discover the business potential that architecture has in the current times- things that an architecture college would miss out on. The papers also include managerial communication, the key to impress clientele and increasing the business ventures for the company. Furthermore, the management courses also deal with the business laws and ethics that make a business stand out from the others. It should be understood that architecture is all about the elements of designing, which is why the mba courses pertain to the space planning, as well as project management in order to bring forth the best results for the clientele.

Management would vary as per the real estate projects that come by. For instance, a housing project would require a different management approach as opposed to that of commercial projects. Management courses make sure that every aspect of architecture course is dealt with the elements of management. The integration of management along with architecture comes with equal opportunities to turn ones luck. Architects would require effective mba coaching classes in order to open themselves to the rules of management to carve out a specific place in architecture- a varied and yet a complementary association.

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.

Implement SaaS architecture to improve organizational storage space

These days, organizations are growing rapidly with outstanding performance and productivity. Data is also increasing along with this business improvement. This data includes; finance details, human resource details, requirement and project details and many more. Applications, hardware resources, software programs, operating systems and many more are also considered important information. It is important for every organization to store and maintain this crucial data for longer years. Data storage is the main problem for all IT organizations, as it takes much storage space to save and maintain the data in a device. Usually, servers are used as the main storage devices to maintain the information for future references. But, these servers have the limited capacity and cannot afford large amount of information. Due to this, IT organizations have developed several technologies and applications to enhance the storage efficiency in business enterprises. Cloud technology is one, which provides computing service through internet. Cloud computing is the latest service provided for all industries to enhance their business performance with various services like infrastructure as a service (IaaS), platform as a service (PaaS) and software as a service (SaaS). All these services can help the organizations to get several business solutions. SaaS architecture is the one that provides storage services for the enterprises. It is defined as a deployed software as a service program with a business IT structure and set up. In this architecture service, SaaS also described as storage as a service as it helps the organizations in maintain the important information for further references. Inefficient software programs linking can lead to less efficiency of growth and greater loss of cost; hence, SaaS architecture is important for many business industries. It can provide best profits with great customer service and remote access for various applications and tools to enhancing the business more effectively. It can save the operational costs by reducing the other physical resources as it can save the data in their internet databases. It is more effective to perform IT operations and specialized services to help the enterprises in several aspects to increase the profit margins. It also enables web services to provide various solutions through online using network connections. SaaS is cost effective solution as it is provided by the third party vendors or it can also be paid according to the usage. Hence, most of the small organizations are planning to implement these architectures to enhance their business performances and productivity.

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World Architecture Festival 2013 – a report

By Team IAnD Photography: Courtesy WAF’13

October 2 -4 2013 saw three busy days of ideation, discussion and critiques on global architecture and design at the World Architecture Festival held at Moshe Safdie designed Marina Bay Sands, Singapore – a venue as awe inspiring as the projects that unfolded within its festive panorama-

The World Architecture Festival opened to enormous numbers (reportedly the biggest yet) with the theme of 2013 bring -Value and values’, -to examine the relationship between perceptions of financial value and the values that architects typically hold about their work.-

Director of WAF’13, Paul Finch commenting on the sheer quality and diversity of the projects entered into the festival, and shortlisted for the final round of awards, said that the array of projects demonstrated the increasingly global nature of the event.

Among various stalwarts from various quarters of the world, Mumbai’s Ar. Sanjay Puri’s corporate project in Jaipur -72 Screens’, was also shortlisted for the awards.

A vibrant, thought-provoking three-day session of presentations of various projects by the architects, seminars and talks on diverse issues that touch and plague the building industry were discussed and debated. Noted international speakers, project critiques and appreciations apart, everyone waited with baited breath as the ultimate honour – the winner of the World Building of the Year 2013 award was announced and granted to the Aukland Art Gallery Toi o Tamaki in New Zealand by Frances-Jones Morehen Thorp and Archimedia.

The four main award winners including World Building of the Year Award were Botanical Garden Australia designed by landscape studio Taylor Cullity Lethlean and plant expert Paul Thompson for Landscape of the Year; National Maritime Museum of China designed by Cox Rayner Architects for Future Project of the Year; and Barcelona Apartment by David Kohn Architects for World Interior of the Year.

As part of INSIDE: World Festival of Interiors, an event held in conjunction with the WAF’13 with a concentration on interior projects, shortlisted 59 outstanding interior projects across the 12 award categories, Bars and Restaurants, Creative Re-use, Culture, Display, Education, Health, Hotels, Offices, Residential, Shopping Centres, Shops, and Transport. For the complete list of awardees, do check out:

to view images click on globalhop.indiaartndesign.com

Understanding the SaaS architecture

SaaS or software as a service is an innovative system of using software that has a remarkable advantage over the traditional use of software. In this system, the entire software is present in a web browser. You pay a subscription fee and can use this software. e.

In normal cases, you buy software with a lump sum and take out a license or ownership of it. Then you can use it for six months or a year. In this case, you will receive updates on the software only when the sales rep visits you in your office. Moreover, there is a time lag as you acquire the software and get it up and running.

Unlike this system, the SaaS enjoys several advantages. You can start using the software as soon as you pay the subscription. It is remotely accessed. So, there is no time lag. Moreover, the subscriptions are often paid monthly. So, if you do not like the services of a provider, you can change it next month. Updates are also pushed frequently so that you remain at the cutting edge. As long as you are not working with intellectual property or other data of a sensitive nature, SaaS can be highly beneficial to you. These services are best suitable for platforms which use industry standard workflows. You can pay on monthly basis, though a few services are priced per transaction.

Some of the important elements of the SaaS architecture are as follows:

A user case model that portray a typical scenario. It showcases the back end data exchange.
A conceptual architecture. It gives a long term prediction with an overall view of the various SaaS elements which are required for its implementation.
Finally, reference architecture can greatly enhance the utility of the SaaS architecture. It often comes as a template architecture which can easily be applied to specific problems.

One of the best software as a service platform is provided by IBM. You can try their private cloud for the best SaaS. This is an application where you can actually customize the cloud computing. The best in-class technology and security standards that are the hallmark of IBM are used for these private cloud applications. The SaaS architecture of IBM is efficient and functional and therefore suited to your needs.

The private cloud architecture is such that it vastly improves utilization, economics, storage as well as network. It includes such diverse and advanced elements like virtualized storage where workloads are consolidated into a single system, the system z cloud solution where you can build your customized solution for the platform of your choice. The PureApplication system is another proprietary system of IBM that forms one of the elements of public cloud infrastructure. S Kirti is a web enthusiast and a writer. Kirti has afforded her articles and write-ups autonomously and through various online forums.

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BIM Modeling- Adding Technical Advantages to Construction and Architecture

With the extensive advancements in technology, the process of construction and architecture have become more organized and streamlined. A highly precision and technology driven process, BIM modeling consists of steps for generating as well as managing digital blueprints of a building, irrespective, of its nature whether a factory, hotel, office or any other form of physical structure. The process of digitizing important data relevant to the construction of a building, aids decision-makers to make critical judgments and evaluations about modification across its lifespan including in habitation, operation, and demolition. It is now highly appreciated by architects, civil engineers, constructors and others occupied in construction of a building and infrastructure sector across the globe.

To carry out the entire project management in an effective manner, a BIM Manager or a VDC Project Manager takes control of the entire process. In projects, they work in co-ordination with Design Construction Team on behalf of the client. However, companies are also hiring BIMs at different stages of the project delivery and handling. Thus, the intensive level of dynamism and ease of customization provided by converting these important data into a suitable digital format, construct multifunctional structure on the surface. The engineering solutions offered by expert companies are now preferred by every construction firm for their projects.

A revelation to traditional building design systems that were initially dependent on two-dimensional drawings of building sections, plans, elevation and other parts, digitization of maps offers numerous advantages. It offers updated technology which include the 3D maps and introduction of factors such as time and cost as an essential part of the project data, the other two important dimensions to modern day digitized maps of home and offices.

It not only included, geometric calculations into building maps but also comprised of other factors as mention of surface space, geographic study, building material study, ergonomics, green building, light analysis, etc. which were neglected earlier. This provides an efficient solution for building construction in the hands of architects and engineers.

Many companies specializing in Engineering Design Services ensure that they make use of this sophisticated technology to offer customized solutions as per the construction concepts, ideas, and design requirements put forth by clients. The design tool of this building solution presents the different views of a building model for construction and other usages of the building. In this model, a slight change in a one object of the model or design, automatically, changes other dependent model and an architect do not need to break model for every change.

The author is an experienced Content writer and publisher for Business Development. Visit us to know more about Engineering Design Services, BIM modeling and Digitization of maps.

Architecture A Brief Introduction and Marketing Tips

Architecture is an art and science that marries the building and design of structures. In some ways one can say that, along with engineering, it is the sign of civilization. Once man was able to settle down and fashion his own dwelling, even by primitive means, this was the start of the first civilizations.

Originally, these structures were purely functional serving to keep people safe from bad weather and wild animals, and to give them privacy. But as modern construction procedures were developed, along with more advanced materials, architecture and engineering began to take a more artistic leaning.

The earliest treatise on the subject, De Architectura, was written by Vitruvius, dates back to the 1st Century CE. In it, the Roman architect says that a building has to have form, function, and durability. To this day, most architects still conform to those three tenets. It is probably even safe to say that some are more successful at adhering to those dogmas than others.

A few examples of these people are Frank Lloyd Wright, a major proponent of organic architecture who is often touted to be the greatest American architect of all time (famous for the house called Fallingwater and for the Guggenheim Museum in New York City); I.M. Pei, a master of modern architecture who created the pyramid at the Louvre and the Bank of China Tower in Hong Kong; Frank Gehry, who designed the Dancing House in Prague; and the landscape architect and artist, Isamu Noguchi, among many others.

If these names sound familiar to you, it’s probably because their works are admired the world for being beautiful while being both functional and enduring. You’re likely to see their buildings mentioned in architectural texts, art books and even featured in architecture postcard designs. These, by the way, are not only proof of how respected the geniuses mentioned above are but, also function as a way to market their work. Like a portfolio, one might say.

In fact, some people in the business might publish high quality books that double as coffee table books and company profiles. Or, perhaps, they might have architecture postcard designs and construction postcard designs printed on elegant cards to send to potential clients. Others still, might support these efforts with their own websites.

Time for a greener architecture

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The Gestalt school identified several principles of use to artists and architects, but the most important is that of balance – that is, the constantly shifting balance that balances all opposites within the constantly shifting matrix of reality. Interestingly the principles of form found in the natural world are not dissimilar to the Gestalt principles that also operate in the unselfconscious human building traditions I referred to at the beginning of this article. Vernacular building traditions have evolved slowly over long periods of time and thus possess some of the coherent organic order found also in Nature. As in animal architecture, vernacular architecture possesses an inherent beauty: the beauty of integrity and unity. Such beauty emerges from the totally balanced integration of a system, its function and use into the broader realms of Nature.

So have we stumbled onto the reason why so many modern human-made environments fail to come up to the quality of some older towns and cities? At root the problem seems to lie in the spiritual posture that we adopt with Nature. Many people would now accept that as humans we are completely co-terminal with Nature. However, in claiming ownership, as we do, of that part of Nature that we call -self’, we not only separate ourselves from Nature but also separate ourselves from our own environments. Yogis tell us that the transcendental world of the spirit – the world of unity and pure consciousness – supports the relative world at each point. They tell us that the transcendental realm is a world without qualities yet gives rise to and sustains all qualities. They tell us that it is to be found in the -gap’ between the different states of consciousness: waking, dreaming and sleep; in the silences in music; between syllables in spoken language and even between our thoughts. The great 19th-century Indian holy man Ramakrishna Paramahansa was once asked, -Where do I find God?- His reply was, -Look between two thoughts.- This gap between perfectly balanced opposites is where life and spirit enter the relative world. It is also the vital middle ground between a subject and an object that defines the -mean’ and gives the meaning.

In conclusion we can say that it is order that gives life to a work and it is order that gives a work its spiritual dimension. It is in the perfect orderliness of a great work that the two worlds of materiality and spirit conjoin. Order is the agent that serves as the conduit between these two realms. Dare we say that -orderliness’ is next to -Godliness’?

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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.