Cluster Intersections and the Evolution of the Bay Area Bioinformatics Cluster The recent establishment California-based bio informatics industry clusters is a logical consequence of the intersection of existing local Biotechnology, Information Technology and Venture Capital clusters. The very definition of Bioinformatics: “the science of managing and analyzing biological data using advanced computing techniques, 1” helps to illustrate the nature of this intersection. Research and development for Biotech companies generates volumes of biological data and IT companies provide tools that assist in processing this data. It seems only natural that in light of this mutual dependency and given the proximity of existing IT and Biotech clusters a new, specialized Bioinformatics cluster would emerge. In his article, “Clusters and the New Economics of Competition,” Porter describes the benefits created by the “direction and pace of innovation 2” sustained by local competitors in their existing products and technologies.
For example, given the already lengthy process of bringing a new pharmaceutical to market, Biotech companies must have realized early on that their ability to stay abreast of competitors was highly dependant on the speed at which they could process massive amounts of genetic information to find therapeutic candidates. Clearly, the incorporation of cutting edge information technologies into Biotech research and development processes was itself a critical innovation, but it was also critical to future innovations within the Biotech industry. Porter would probably argue that the competitive pressures of clustered Biotech firms fostered more urgent and rapid incorporation of advanced computing into genetic research. The proximity of the knowledge and resources in the IT cluster made it easier to both conceive of these innovations and to access the resources that enabled them. Conversely, innovations in the field of Information Technology were stimulated in response to the both the needs of the Biotech cluster, and the urgent clamoring of IT competitors to capitalize on a new market. Porter asserts that “vibrant” clusters not only stimulate innovation in established companies but that new businesses and new innovations take shape in response to the competitive environment.
The Essay on Abc Company Data Information Customers
1. Introduction ABC Company operates telecommunications business. Management prepares to launch a new service to the market. The researchers use data mining techniques to obtain information of market profile. This paper describes how Market Basket Analysis (MBA), Memory Based Reasoning (MBR) and Neural Networks (NN) analyze the data. The data analysis methods generate valuable information for ABC ...
Start-up firms have a unique opportunity to observe the incumbents in the cluster and conceive of ways to improve existing products or develop complementary offerings. New firms benefit from an existing local customer base but also may be able to more readily recognize and capitalize on a niche market in the midst of many established competitors 3. The Bioinformatics industry appears to have emerged in a similar manner, filling the gap between the IT and Biotech clusters. An additional catalyst to the Bioinformatics industry in the Bay Area must have been the intersection of a third cluster: Venture Capital. It is not surprising that a rash of Bioinformatics start-ups came to the surface just as the first draft of the human genome was completed. Increased interest in Biotechnology resulting from the genome project happened to coincide with the failure of many venture funded dot-come which in turn spurred a hopeful interest in Bioinformatics 4.
Clearly, the data processing demands implied by genomes consisting of 3 billion nucleotides each would constitute an urgent need for advanced computing techniques. The proximity of Venture Capital groups must have provided uniquely favorable funding opportunities for burgeoning Bioinformatics innovators. Public and private educational institutions in the Bay Area also have had much to do with the formation industry clusters as well as research and innovation that contribute to both new and existing industries. Proximity to a variety of Universities providing strong programs in Computer Science and Medicine has contributed to the emergence of IT and Biotech clusters. Conversely, local businesses contribute to these schools, providing grants and scholarships to stimulate innovations from research and cultivate an appropriately skilled workforce. Porter identifies access to a specially skilled workforce as a primary advantage to firms in a cluster 5.
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One of the largest industries in Canada is the tourism industry. It is made up of many thousands of small and large businesses and is in turn, one of Canada's major employers and as well a major contributor to our national wealth. The businesses that compose the tourism industry are hotels, restaurants, travel businesses, recreation and entertainment, and arts and cultural businesses. Throughout ...
Costs associated with hiring and training employees are diminished in an environment that is already rich with individuals who possess the required skill sets. This advantage can also extend to emergent industries at the intersection of clusters. Bioinformatics couples the skills of talented biologists and computer science engineers. Specialists of this kind are not likely to be abundant in the absence of related industries. More importantly, the proximity of both IT and Biotechnology clusters increases the likelihood that firms from each cluster will collaborate, fostering communication of ideas and possibly opportunities for cross-training. The skill, creativity and intellectual curiosity that characterizes many IT and Biotechnology professionals in particular indicates a great potential for fruitful innovation as well as the cultivation of specialized skill sets that transfer to the field of Bioinformatics.
The Bay Area is uniquely suited to produce this type of specialization. The intersection of Biotechnology and Information Technology clusters in Northern California may be an ideal environment in which to advance another exciting new technology and possibly spawn a new industrial cluster. Nanotechnology or molecular robotics is a promising field that has a great potential to flourish in the Bay Area. It is well known that microelectronics firms in the IT cluster would have much to gain from this technology, allowing the fabrication of semiconductor devices on a molecular scale, enabling massive processing power at infinitesimal size.
However, researchers are still struggling to develop assembly techniques required to efficiently produce these devices. It has been suggested that Biotechnology may offer clues or help develop processes that will assist in Nanotechnology fabrication. The double helical structure of DNA, while primarily noted for its ability to encode information, can apparently be manipulated to build other complex structures that might be useful in constructing na no-devices 6. Also, the self replicating nature of DNA suggests exciting possibilities for mass production of molecular devices. Clearly, the proximity of advanced research and fabrication facilities for both Biotechnology and Information Technology industries provide an auspicious environment to explore this dimension of Nanotechnology innovation and the specialized skill sets offered by electrical engineers, physicists, and biochemists in the area offer a nexus of knowledge that may help establish and sustain a Nanotechnology industry. (1) web Genome / glossary /glossary b.
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Technology Innovation Would you ever think that one day super computing devices will be small enough to fit in the palm of your hand, or watching a piece of plastic recovering itself after a cut though it? Well, in the world of nanotechnology, this dream is within reach. Nanotechnology is advancing at an incredible rate and is paving the way for technology advancement in the future. Nanotechnology ...
s html (2, 3, 5) Michael E. Porter, “Clusters and the New Economics of Competition,” Harvard Business Review, 1998 (4) Mignon Fogarty, “Biotech Valley,” Metro Active, October 13-19, 2004 issue of Metro, Silicon Valley’s Weekly Newspaper. (6) Ralph C. Merkle, “Biotechnology as a Route to Nanotechnology,” Trends in Biotechnology, July 1999, Vol 17 No 7, pages 271-274.