Blobitecture, also known as "blob architecture" or "blobism", refers to modern buildings with amorphous, spotted shape. "Blobitecture" is a term written by New York Times magazine William Safire who used the sarcastic description of a sudden rise in amoeba-like buildings. Architects, unlike their intent, have been happy to adopt "blobitecture" to describe a new and exciting architectural movement.

Blobitecture is a dynamic form of architecture that is still widely used today. Blobitecture is in contrast to any other architectural form because it is fully computer-aided (CAD). In software architectural works, architects use CAD to manipulate the contours of buildings in virtually any shape. While doing so, the software automatically calculates math equations that incorporate structural strength into the plan. Prior to the development of CAD, architects had met geographic forms as they were sure of the structural stability of these forms. Now, thanks to the CAD software, the shape of the building has unlimited possibilities.

Most architects now realize the blob architecture of glass and steel structures. It is rarely used in privately owned private homes because glass and steel materials make stained buildings quite transparent. Much more commonly used are tourist attractions such as museums, theaters and concert halls. Furthermore, they are increasingly being used for scientific buildings such as geodetic domes used for weather observation centers and greenhouses. Eventually, a large number of commercial buildings are spotted structures, such as the London City Hall and the Future Systems architectural firm.

Blob tourism was introduced in the 1990s when CAD systems were first developed for architects and interior designers. The first blob building building was built in 1993: the water pavilion in the Netherlands, fully CAD designed. Other large-scale projects in quick succession, the most well-known of them being the Guggenheim Museum in Bilbao. This museum was designed in Bilbao, Spain by renowned Canadian-American architect Frank Gehry. It is open to the general public in 1997, with different concave and convex curves. As it is in the harbor, glass and titanium curves reflect light from the sky and from the water. In addition, its curved silhouette resembles a ship. This modern art museum strongly contributes to Bilbao's Spanish tourist attraction.

The United States has its own "blobitecture" building. In Seattle is the Experience Music Project museum, another Gehry-designed building that opened in 2000. Like the Bilbao Guggenheim Museum, this museum is made up of seemingly random curves. The wave of the building gives a liquid silhouette, perhaps in honor of the museum's exhibitions. While the shape of the Guggenheim Museum reflects the port environment, the shape of the project can be summed up as "form follows the function". In fact, Gehry directly attributed the shape of the building to the tilting Stratocaster electric guitar released by Jimi Hendrix. Contrary to Guggenheim, Experience Music Project has several colors in its exterior, although the metal reflects the light as Guggenheim.

There are other examples of blob tourism in other cities. England has blob structures not only in London but in other cities. For example, the northeastern city of Gateshead has the Sage Gateshead building planned by the Foster and Partners architectural company. This building is a performing arts center and musical institution. This structure is wicker-shaped and consists of several branches that contract and expand as the building progresses. The material consists of glass and stainless steel, allowing sunlight to make every angle bright. Its free-flowing form can say that it reflects this institution's philosophy that all musical genres are equal.

Berlin also has another "form of follow-on function". This structure is the Philological Library designed by Norman Foster, an English architect. The library opened in 2005 is part of the Free University of Berlin campus. In line with the University's intellectual goals, the library resembles a human brain. Like many other blobituric buildings, the main elements are steel and glass

Architects today rely on a number of CAD software to build a blob architecture. Contrary to its appearance, many mathematical calculations go into "blobitecture" plans. Most CAD programs, such as AutoCAD, allow the user to create a basic three-dimensional sketch and handle these lines in many directions. Blob architecture arises when a user uses these lines "wavy" and irregular, and "inflates" the building design. At later stages of design, architects can use CAD to determine project building materials and interior components

By measuring blobitecture's popularity, students in architecture can use college courses in blobitecture. There are also online courses that contain spotted studies. Many architects who focus on urban architecture have chosen to become acquainted with blobtekturi, since blob tourism is predominantly in metropolitan areas. In addition, a number of CAD courses, offered on-line and on-site educational facilities, allow architects to use pragmatic practices with blobector design.

As several architects are detached from well-established geometric forms, blobiness is likely to be more and more international cityscape. CAD creates both infinite forms in both outer and interior design. Many ambitious architects take advantage of the blob to lead the architecture within the outermost borders. In addition, many entry-level architects require CAD experience; so many architekturist students choose to use blobitecture to get CAD fluidity.

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