Architects, engineers, owners, contractors and building product manufacturers have been part of an amazing, and rapid transformation in how we communicate our building designs. We have gone from hand drawing, to CAD, to BIM is less than 25 years. This transformation has resulted in opinions as to which is best, fastest, results in the best designs and what should be taught in school. This article will provides an overview on each of these drawing approaches.

I. Hand Drawings

The first phase, hand drawing, has lasted for thousands of years. Over all those years, a consistency developed in the way contract documents are laid out, graphic standards used, and drawing sets organized. Interestingly, this consistency is an international language for drawings. In viewing drawings from many different countries, although the languages are different, the drawings are very consistent. And, one could easily conclude how a building was going to be built and how it would look. This consistence in contract documents has been a long process of trial and error, aiming for perfection, of the best way to communicate the designer’s intentions to the builders.

Well done hand contract documents are beautiful; often they could be framed and displayed as art. The creation process was not so beautiful. Some designers spend some days erasing more than drawing. Every time a change is made to a plan it means days of changes to background drawings for reflected ceiling plans, electrical, mechanical, structural, plumbing and details drawings. The chances for errors and omissions were tremendous. There is little doubt that an experienced architect could find an error or omission in a set of hand drawn drawings in a couple of minutes.

Hand drawing also refers to renderings, sketches and thumbnail drawings. Once again, these can be works of art. At the thumbnail and sketch level, they capture the essence of the architect’s concepts. The renderings tend to reflect the details of the design fairly early in the design phase. Architects use renderings to study design and having these rendering skills are tremendous. Unfortunately, many excellent architects are not great at renderings. There is a particular school that has applicants create a rendering of a campus building for admission. While this is an important skill, it is not necessary to be a great architect. Most of the spectacular renderings you have seen have been prepared by professional renderers (artists).

Hand Drawing Recap

• Beautiful drawings
• Time consuming
• Prone to errors and omissions

II. CAD

CAD has only been around a few years, but has been an important advancement. It will be replaced, but has been an important transition to the more powerful future. CAD taught designers about computers, file management, and new organizational skills. CAD has been an amazing event. Instead of drawing on paper, you draw on a computer and see your work on the monitor. Fundamentally, CAD replaced hand drawing but did not substantially change the process or the way the information was displayed. A page of drawings was replaced with a drawing file, 100 sheets of paper are now (with some exceptions) 100 CAD files. Instead of spending days or weeks creating background drawings, they were ready instantly. Unfortunately, if you changed the base drawing, you still needed to swap out the old backgrounds for the new. Errors and omissions were not eliminated, but they were reduced. For example, dimensions were accurate. CAD based contract documents can be created much faster than hand created drawings.

You rarely hear of a CAD drawing referred to as beautiful or a work of art. In fact, in the first few years of CAD (1980-90), the drawings were terrible; no line weights, and only a couple of fonts.

CAD started as 2D only, but has now progressed to 3D. To date, it has not progressed to the level that it is practical to try to create a complete project in one 3D file. Certainly, for a quick glance at how the project will look, the 3D views are very good. And, as a background for creating hand renderings, it is a real time saver over the mechanical creation of the geometry.

CAD, linked to analysis, has been one of the most powerful reasons for using CAD. Analysis programs (structural, HVAC, electrical, energy) can extract data from the CAD file, run the analysis program, feed the information back to the CAD file and update the drawings (or even create new drawings automatically).

There has been criticism that CAD creates poor design. While I agree with many criticisms of CAD, I do not agree that CAD leads to poor design. For example, you can not tell a architect’s experience when they show you a CAD drawing (or if they even created the drawing, compared to hand drawings where you could look at the drawing and make a very accurate evaluation of the architect’s experience and abilities). Good designers look carefully at what they are designing, view the design from as many locations as necessary, and refine the design based upon the views (as well as the budget, program, site, etc.). Poor designers may be helped by CAD, as it is easier to see what they are proposing. An individual that is not a designer can use CAD to perhaps convince a customer that they have created a good design. The results of this individual’s work will be the same, CAD or hand drawn.

CAD Recap

• Faster than hand drawing
• Less errors and omissions
• Large, talented work pool

III. BIM

BIM is the future of architecture and engineering drawing and documentation (and much more: analysis, rendering, costing, purchasing). BIM will touch and affect everyone and every business dealing with design, construction, manufacturing, facilities management and building ownership. BIM will lead to changes in process and procedures, as well as monumental cost savings throughout the entire design, building and management phases.

However, in many ways, BIM is a promise of what will happen; but not yet realized.

Today, BIM could be shown as BiM (Building, small i - small amount of information, Modeling). This is the exact opposite of what BIM should be and will become, because the extraction of information from the BIM project is the ultimate power of BIM and the automation that will come. Structural engineers are leading in the extraction of data from the BIM model, with energy analysis close behind. However, we are just at the beginning. In 10 years, BIM will provide automated drawing, analysis, quantity take off, automated pricing, product availability tracking and much more.

Most are using BIM to create contract documents that look like hand drawn contract documents. There continues to be great concerns about releasing the BIM models to the contractors. This will change. We need to be careful not to focus on making BIM look like 2D contract documents, such as fixating on graphic standards. We have a new very powerful graphical and data tool, unlike any we have ever had before. We should be experimenting with how to take full advantage of this power. I am certain that ten years from now we will not be using BIM to create 2D contract documents.

I’m sure some can remember standing at construction sites drawing 3D sketches to help workers better understand what they were supposed to build. Workers will use the BIM models at the job site, in 3D, to better understand what they are building. Automated QTO and costing will be a byproduct of the model. Contract document sets have grown in quantity of pages in the last few decades. If you review the number of drawings it took to build a major building 80 years ago, finding a set of over 100 sheets would be the exception. Today, contract documents for a similar building could easily number in the hundreds, if not thousands of sheets. It is hard to imagine how they can be comprehended. Perhaps the future will find no sheets; the BIM project file will set the contract scope of work, with no specific drawings.

While CAD has been criticized as distracting from design, BIM offers the potential of dramatically increasing the quality of design. Design is much more than a “pretty building”, which is certainly one goal of design. Good design also includes designing to the budget, insuring energy efficiency, consideration of maintenance and renovation costs, analyzing structural options and much more. BIM will bring real time “what ifs” and analysis to the design process.

BIM Recap

• The future is here – just at the beginning
• BIM will bring substantial cost reductions to design, construction and facility maintenance
• BIM will change everything

Conclusion

We have designed, documented and built our buildings essentially the same way for hundreds of years, no matter if it was drawn by hand or in CAD. BIM offers the very real potential to completely change the process, the form of documentation, responsibilities, liabilities and the amount of money it costs to design (spend more on this), and build (save lots on this).

We are entering a great era. If you are a student, demand that you are taught BIM. If you are a professional, and are not yet using BIM, start soon.

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