Architecture A Brief Introduction and Marketing Tips

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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.

Easy Source of Topics for Architecture Essay Writing Tasks

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cademic architecture essay writing tasks would usually be performed by university students taking up undergraduate courses in architecture, architectural engineering, building services engineering, architectural technology, building design, other courses related to architecture and building design. The selection of engaging and good topics would be the first that the students would do if they were given the option of choosing their own topics for their architecture essays. If the students are having some difficulties in selecting particular topics for their architecture essays, an easy source where they could find good topics would be the general discussion of the discipline of architecture.

The general discussion of the discipline of architecture is arranged into several main headings with sub-headings under each main heading, and for the most part, each sub-heading would usually have smaller topics that are confined to a specific area of discussion. The student could either select a topic from the main heading or choose the specific areas of discussions that are under each sub-heading that would become the specific topic for his architecture essay.

Under the general discussion of architecture, the main headings and their respective sub-headings are: theory of architecture that includes historic written works on architecture and modern architectural concepts; history of architecture that includes ancient architecture, Asian architecture, Islamic architecture, Medieval architecture, Renaissance architecture, early modern and industrial age architectures, and contemporary architecture. In addition, some of the sub-headings are broken down into smaller areas from which he could select a specific topic.

A student performing regular or constant writing of architecture essays as part of his course requirements should take note that the essay structure of an architecture essay is similar to the basic structure of other academic essays, which consists of sections of the introduction, body and conclusion. Consequently, the student should follow the basic rules or steps in essay structuring that he studied and learned from the other essay writing tasks that he performed from his other academic subjects. The specific content in section of the essay on architecture would naturally be different compared to the specific content of other essays. But the style of writing the content for each section would be the same regardless of the specific subject area under the essay.

The university and college students who would research and write architecture essay should take note that some of the possible topics they would select for their architecture essays could also be applicable and relevant to use for their other academic essay writing tasks. For example, many of those students especially during their first year of studies could perform history essay writing tasks. Therefore, an example of history essays about the architecture related topics could include the architectural history, history of various architectural styles, architectural mythology, and the specific histories of the architectural styles of different civilisations.

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’?

Plymouth architects

Multisynth-based Architecture

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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.

How is 3D printing technology used in Architecture and Medicine

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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.

Storytelling through Architecture

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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.

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Autodesk Revit Architecture 2011 Review

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Buildings informational modelling (BIM) from Autodesk Revit Architecture 2011 may be the a fresh high engineering, which connects architects, developers and constructors. BIM engineering allows to formulate and talk, successfully create digital models at any period of method, to review behaviour of buildings in real conditions due to creation and using of coordinated, unified and connected designing information.

This post is used for producing essential selections, formation high-quality engineering specifications, operational characteristics predicting, an evaluation of expenditures and civil work planning, and then for creating infrastructure management.

Revit Architecture 2011 provides chance to focus on the main thing – the creative portion of buildings designing. You are able to assist model in different convenient rendering, easily and rapidly make changes, get ready working drawings on the basis of 3D models. Three-dimensional views will help to present your ideas towards the client a lot more visually. Even at past due periods building model customization will not bring any difficulties, because all cuts, facades, specifications along with other files are up-to-date immediately.

The building informational modelling supplies the full method of the structure designing due to electronic reproduction of actual construction process. You train with an uniform model, avoid separate files. The design parametrical changes technologies ensures coordination of all interconnected elements of the project – from types of models, cuts and plans approximately sheets of drawings and specifications.

The first type of a building is established from simple form building components in Autodesk Revit Architecture 2011 ; they can be received through the volume geometry created in Rhino, Sketchup, AutoCAD, 3D MAX, etc. In Architecture 2011 the imported objects are transformed to objects of the architectural composition, which then are transformed to objects to construct designing – walls, roof slopes, overlapping and safeguarding frameworks.

In Revit Architecture 2011 all 2D and three dimensional views, drawings and specifications are representation of the building database. All modifications extend on all model simultaneously, including the design documentation.

Autodesk Architecture 2011 will help you considerably reduce time and practical information on projecting, and also to improve quality of designing. Demonstration videos and interactive presentations will present link between your projects visually realistically. Revit Architecture offers architect several advantages both for private and group.

Struggles and New Approaches to Information Architecture

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Information architecture is defined as the outline or blueprint that describes how data and information is systematized, ordered, and controlled. Another definition of information architecture says that it is a system of spotting, managing, and controlling patterns in data. This data-handling technology aims to be able to make complex, ambiguous, and fuzzy sets of information, data, and other resources as simple and as understandable as they can be.

According to a business-related site, it has been unfortunate in these modern times that most business companies struggle in terms of the use of the technology of information architecture. Actually, some businesses are having difficulties even with the most basic applications of information. A significant quantity of companies still experiences difficulties in getting up-to-date, comprehensive, precise, and accurate views of the results of the projects and actions they have done previously. Companies now just create proposals for new, innovative, predictive, and analytical transformation and differentiation in terms of information handling and architecture in a diminishing effort. The result of this failure of the companies to value the technology being delivered by information architecture leads to the struggles they experience that are stated in this article. e.

Companies that are struggling in executing information architecture processes need to adapt a new one that suits their needs the best. In choosing a new style of information architecture, they must bear in mind that in the world of technology, the amount of information and data inputted into the Web is growing in a much rapid way. Also, the speed at which information is received has gone significantly faster than before. Data comes in various types, so an information architecture system must be flexible to such variety of files.

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Creating A Web Site With A Search Engine Optimized Architecture

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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.

The Architecture And Configuration Of J2me Application Development

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J2ME or also know as Java ME is a platform that is specifically designed for application development to run on mobile phones, PDAs and other embedded systems. J2ME development features an adaptable user interface, which integrates with network protocols and extends support for mobile application development. The mobile applications that are developed on J2ME can be also migrated across various different mobile devices. J2ME application developers create a variety of different mobile applications based on the customized requirements of the clients. They are experience in creating diverse mobile solutions and hence most clients prefer to outsource their mobile business applications to India.

J2ME Architecture and configuration
J2ME comprises of configurations and profiles that allow a developer to customize it for the Java Runtime Environment (JRE). The configuration defines the JVM used and the profile adds domain-specific classes to define the application.

Configurations: The configuration uses a set of core classes and a specific JVM to define the basic run-time environment. The configurations are of two types where one is called CLDC for handheld devices and the second one is CDC for plug-in devices. CLDC is has been developed for 16-bit or 32-bit small computing devices that have limited memory. CDC requires a 32-bit architecture and has at least 2 MB of memory and implements a functional JVM.

Profiles: A profile comprises of classes that allow J2ME application developers to execute features that are typically available on a group of small computing devices. The profiles used with CLDC are mobile information device profile (MIDP) and PDA profile (PDAP). The profiles used with CDC include Foundation Profile, Game Profile, Personal Profile, Personal Basis Profile and RMI Profile.

J2ME Architecture
The J2ME architecture consists of five layers and they are as follows:

MIDP: This is the topmost layer and consists of Java APIs. J2ME application developers use these APIs to create network connections, storage, and user interface. It also provides access to CLDC libraries and MIDP libraries.
J2ME APIs: This is the profile that comprises of a minimum set of application programming interfaces required for the small computing devices.
Configurations: This is responsible to manage the interactions between the JVM and the profile.
JVM
Operating System: This is the bottom layer.