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Design for excellence, Design for Excellence, or Design For Excellence (DFX or DfX), are terms and expansions used interchangeably in the existing literature,[1][2][3] where the X in design for X is a variable which can have one of many possible values.[4] In many fields (e.g., "very-large-scale integration (VLSI) and "nanoelectronics) X may represent several traits or features including: manufacturability, power, variability, cost, yield, or reliability.[5] This gives rise to the terms "design for manufacturability (DfM, DFM), design for variability (DfV), design for cost (DfC). Similarly, other disciplines may associate other traits, attributes, or objectives for X.

Under the label design for X, a wide set of specific design guidelines are summarized. Each design guideline addresses a given issue that is caused by, or affects the traits of, a product. The design guidelines usually propose an approach and corresponding methods that may help to generate and apply technical knowledge to control, improve, or even invent particular traits of a product. From a knowledge-based view, the design guideline represents an explicit form of knowledge, that contains information about knowing-"how-to (see "Procedural knowledge). However, two problems are prevalent. First, this explicit knowledge (i.e., the design guidelines) were transformed from a tacit form of knowledge (i.e., by experienced engineers, or other specialists). Thus, it is not granted that a freshman or someone who is outside the subject area will comprehend this generated explicit knowledge. This is because it still contains embedded fractions of knowledge or respectively include non-obvious assumptions, also called context-dependency (see e.g. Doz and Santos, 1997:16–18). Second, the traits of a product are likely to exceed the knowledge base of one human. There exists a wide range of specialized fields of engineering, and considering the whole life cycle of a product will require non-engineering expertise. For this purpose, examples of design guidelines are listed in the following.


Rules, guidelines, and methodologies along the product life cycle[edit]

DfX methodologies address different issues that may occur in one or more phase of a "product life cycle:

Each phase is explained with two dichotomous categories of tangible products to show differences in prioritizing design issues in certain "product life cycle phases:

Non-durables that are consumed physically when used, e.g. chocolate or lubricants, are not discussed. There also exist a wide range of other classifications because products are either a) goods b) service or c) both (see OECD and Eurostat, 2005:48). Thus, one can also refer to "whole product, augmented product, or extended product. Also the business unit "strategy of a firm are ignored, even though it significantly influences priority-setting in design.

Development phase[edit]

Production-operations phase[edit]

Design rules[edit]

"Design to cost and "design to standards serves "cost reduction in production operations, or respectively supply chain operations. Except for luxury goods or brands (e.g., "Swarovski crystals, "Haute couture fashion, etc.), most goods, even upper-class goods, rely on "cost reduction, if these are "mass produced. The same is valid for the functional production strategy of "mass customization. Through "engineering design physical interfaces between a) parts or components or assemblies of the product and b) the manufacturing equipment and the logistical material flow systems can be changed, and thus cost reducing effects in operating the latter may be achieved.

Design guidelines[edit]

Use phase[edit]

Comparison: consumer durables vs. capital goods[edit]

User focused design guidelines may be associated with "consumer durables, and after-sales focused design guidelines may be more important for "capital goods. However, in case of "capital goods design for "ergonomics is needed to ensure clarity, "simplicity, and "safety between the human-machine interface. The intent is to avoid shop-accidents as well as to ensure efficient work flows. Also design for "aesthetics has become more and more important for "capital goods in recent years. In "business-to-business (B2B) markets, "capital goods are usually ordered, or respectively business transaction are initiated, at industrial trade fairs. The functional traits of "capital goods in technical terms are assumed generally as fulfilled across all exhibiting competitors. Therefore, a purchaser may be subliminally influenced by the "aesthetics of a "capital good when it comes to a purchasing decision. For "consumer durables the aspect of after sales highly depends on the business unit's strategy in terms of service offerings, therefore generally statements are not possible to formulate.

Disposal phase[edit]

Similar concepts in product development[edit]

Several other concepts in product development and new product development are very closely related:

Looking at all life stages of a product ("Product life cycle (engineering)) is essential for design for X, otherwise the X may be suboptimized, or make no sense. When asking what competencies are required for analysing situations that may occur along the life of a product, it becomes clear that several departmental functions are required. An historical assumption is that "new product development is conducted in a departmental-stage process (that can be traced back to the classical theory of the firm, e.g. "Max Weber's bureaucracy or "Henri Fayol's administration principles), i.e., new product development activities are closely associated with certain department of a firm. At the start of the 1990s, the concept of "concurrent engineering gained popularity to overcome dysfunctions of departmental stage processes. Concurrent engineering postulates that several departments must work closely together for certain new product development activities (see Clark and Fujimoto, 1991). The logical consequence was the emergence of the organisational mechanism of "cross-functional teams. For example, Filippini et al. (2005) found evidence that overlapping product development processes only accelerate new product development projects if these are executed by a "cross-functional team, vice versa.


  1. ^ Andrew B. Kahng, DfX and Signoff: The Coming Challenges and Opportunities, Keynote Address, IEEE Computer Society Annual Symposium on VLSI (ISVLSI), 2012.
  2. ^ "Saraju Mohanty, DFX for Nanoelectronic Embedded Systems, Keynote Address at First IEEE Sponsored International Conference on Control, Automation, Robotics and Embedded System, CARE-2013, http://care.iiitdmj.ac.in/Keynote_Speakers.html
  3. ^ The DfX concept, http://www.ami.ac.uk/courses/topics/0248_dfx/
  4. ^ "DFA Transforms Computer Chassis". 
  5. ^ "Saraju Mohanty, Chapter 3 Nanoelectronics Issues in Design for excellence, "Nanoelectronic Mixed-Signal System Design", "ISBN "978-0071825719 and 0071825711, 1st Edition, McGraw-Hill, 2015.

Design for X references

Auxiliary references

External links[edit]

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