Section 8.5. Open Standards Complements


8.5. Open Standards Complements

Clayton Christensen further observed in his research[12] that as companies begin to overdeliver functionality in their product lines faster than customers are able to use the new functionalityand therefore faster than customers are willing to pay for itthe market begins to call for standardization. Indeed, prior to the point where they begin to overdeliver, the market leader is often offering the technology in a tightly integrated fashion and best delivers to consumer needs in this space where the solutions typically are not yet good enough. This is the time when tight integration, not standards-based components, is the path to success. Standards develop once the marketplace reaches a point where the market leader begins to overdeliver. These are the circumstances in which a market-dominant de facto technology is at a critical point and the call for de jure standardization is possible.

[12] Clayton Christensen, The Innovator's Solution (New York: Harvard Business School Press, 2003).

The signal to standardize a technology is somewhat unclear, but there is likely a collection of factors:

  • Competitors with standards experience and similar product offering networks but different core drivers likely use the opportunity to "call for standards,"[13] hoping to reduce their own complement costs while causing a competitor grief in a core revenue stream.

    [13] Geoff Moore argues that the first response in the market from competitors when they see a "gorilla" forming is to cry for "open systems" (Geoffrey Moore, Living on the Fault Line [New York: HarperBusiness 2002], 119). This might be more of a cause for standardization too early with all the attendant problems that ensue as has been observed by James Gosling of Sun Microsystems (James Gosling, "Phase Relationships in the Standardization Process", circa 1990). Gosling's observations are more closely in line with Christensen's, arguing that there is an optimal time in a technology's development for standardization. Some of us have always suspected that it is best to standardize existing practice and experience, instead of trying to standardize ahead of the market curve. Indeed, it would be interesting to do a survey of successful and unsuccessful standardization efforts to determine whether the unsuccessful efforts were undertaken too early in a marketplace, when vendors are still trying to define the marketplace itself and stake out claims with products and patents. First, of course, one would need to define the measure of a successful standard. Christensen's observations are likely more in line with standards forming at the optimal market time.

  • Customers managing substantial procurement budgets will support and call for standards in the hopes of prolonging investments and attempting to reduce costs from vendors that are overdelivering. For example, the U.S. government as the largest IT buyer on the planet at the time, led the charge around the POSIX and C-language standards, quickly followed by the large companies in the petroleum and automotive industries.

If you are the one true implementer, and the market (i.e., partners, customers, and competitors) is calling for standardization in your core technology space, you have a problem. They're calling for the benefits of standards (expanding market and price competition) because they want the ability to replace you. Some segment of your customers wants the choice of multiple implementations. Your competitors are happy to support the call, as this is the thin edge of the wedge to break open your value proposition to your customer, all in the name of open systems. Your partners may be happy to support the call for standardization because they want price pressure as their margins diminish and perhaps your percentage of their Cost-of-Goods-Sold is increasing.

It is important to note that one needs to get the view of the market "right" for this sort of discussion, and hindsight is always 20/20. It is not necessarily the dominant vendor's product that is to be standardized, but the product market space. For example, one can argue that the POSIX standards (and the C-language standards, for that matter) were not about standardizing Unix systems, but rather, were an effort to standardize an OS interface for minicomputers. Digital Equipment Corp. was the dominant player in minicomputers (which became departmental servers and workstations). DEC was driving customers up the hardware upgrade cycle to support its market growth faster than customers were willing or able to absorb the change. Unix systems of the early and mid-1980s represented the best opportunity around which the market could form a minicomputer application programming standard to support customers' applications portability. While the Unix systems of the day were often less scalable, less robust, and less secure than VAX/VMS systems, the Unix operating system had been ported to most vendors' hardware (including DEC VAXen), so competing vendors could see the market opportunity.

At the same time, the PC arrived on the scene. Many have argued that the PC won against Unix systems by taking over the desktop, largely due to the inability of the Unix vendors to set a desktop "standard" fast enough. The PC certainly took the desktop by storm, but it was actually competing against nonconsumption. In a Christensen view of the world, it was put together from inexpensive parts, and when compared to minicomputers it was certainly underperforming, but it became the de facto business appliance in a document-centric world, enabling a whole new class of electronic document-centric applications. (Word processing systems companies vanished almost as fast as the minicomputer companies.) The PC was competing with nonconsumption, giving business users computing resources on their desktop instead of being stuck waiting for their business data processing applications to be developed by corporate IT, with its ever-growing systems development backlog. The Unix systems (driven by standards and an "open systems" message) were data processing-centric rather than document-centric, and caused DEC grief in a completely different space.

Christensen observed that as an area of technology is standardized, the value moves to adjacent spaces in the network.[14] The trick then becomes to ensure that one is building one's business efforts in the product network around the space being standardized. This would lead us to believe that the richer a product offering network a vendor has, among different software, hardware, and service components and products, the more opportunity that vendor has to move with the value or to define new components that the old components complement.

[14] This was originally referred to as "the Law of Conservation of Attractive Profits," but is now referred to as "the Law of Conservation of Modularity."

This core-complement product network view allows one to very rapidly see how the vendor politics in a standards working group play out. A vendor with a de facto product technology that is being dragged by the marketplace into a de jure standards working group is likely a little less than enthusiastic about participating in its own commoditization. The vendor alliances within the working groups are participants in the complement space. The game is one of technology diplomacy, where the goal as a vendor representative is to expand your area of economic influence while defending sovereign territory. This holds true regardless of whether one is participating in a vendor-centric organization such as Ecma International, as an "expert" to a national delegation to the ISO (on behalf of her employer), or as an individual contributor to an organization like the IEEE (again, funded by her employer to participate). Vendor consortia offer a similar view. Which vendors formed the consortia and which vendors quickly and noisily joined shortly afterward says a lot about who the incumbent in a product space is and who the competitors are.



Open Sources 2.0
Open Sources 2.0: The Continuing Evolution
ISBN: 0596008023
EAN: 2147483647
Year: 2004
Pages: 217

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