Perhaps the premiere of Season 4 of “Silicon Valley” twigged me to share this post. but despite the title, the HBO series only connection may be the now viral “mean jerk time algorithm.” The real “Silicon Valley jerk” has been around for decades, buried with all the other dirty laundry. Uber’s Travis Kalanick has only brought it front and center at this moment. It is something of a conundrum as some of the jerks are also the most successful. We all now know about the “bad” Steve Jobs. Oracle for years had a very bad reputation that came directly from Larry Ellison himself. Microsoft was long known as a “sweatshop” with a highly negative culture led by Steve Ballmer. Even venture capitalists themselves have caught the disease as evidenced by Reid Hoffman and the late Tom Perkins of KPCB. The best assessment I have heard is that these aggressive unrestrained corporate cultures destroy their own goals. Or better yet, the saying that “culture trumps strategy.”
The Vancouver technology industry may well be on the verge of an extraordinary period of growth. Global, national, and regional factors appear to be aligning in ways that could create an extraordinary economic opportunity for the Lower Mainland which could not have been anticipated. Vancouver has been an endless topic of discussion about its comparability (or not) to Silicon Valley, the historical Canadian investment conservatism, and the lack of other resources necessary to create the “secret sauce” that makes a region achieve critical mass. That may be changing if only the convergence of factors is grasped and exploited.
Mayo0615 Reblog from July 22, 2013 It dawned on me that my blog post from July 2013, still […]
UPDATE: This post from February 21, 2016, is being republished in the light of the announcement that Club Penguin […]
UPDATE: It is worth noting that this 2012 case study on a company in British Columbia, Mobile Data […]
If You Get Technology “Convergence” Wrong, Nothing Else Matters I came across this book during my most recent […]
Heidi Roizen is a very well-known Silicon Valley venture capitalist and entrepreneur. I first met Heidi years ago […]
Since I joined the high-tech industry years ago, Silicon Valley has had a fundamental need for highly educated engineers and scientists that could not be filled by American graduates. This reality has been bemoaned by Congressional politicians for decades now, who have essentially done nothing to increase the emphasis on STEM education (science, technology, engineering, and math) for resident Americans, and who instead chose to provide the H1-B Visa enabling Silicon Valley high-tech companies to employ immigrants to fill these crucial positions, and has enabled the high-tech industry to thrive. The election of Donald Trump has changed all that. His platform is almost completely devoid of any acknowledgment of the crucial importance of high-tech innovation to U.S. productivity and economic growth, the need for H1-B immigrants and the parallel need for greater investment in STEM education.
Accelerate Okanagan should be commended for publishing a document, the stated goal of which is to “assist in attracting new talent, companies, and potential investors to the Okanagan, as well to inform policy makers and the media.” Such reports are commonly used to promote a community or region’s economy. However, as with the earlier 2015 report, there are persistent issues, particularly with the industry definition and methodology of the study. The result is questionable data and numbers that simply do not pass a basic “sniff test.” Accepting the results of this study as published may only serve to mislead community leaders on planning, and mislead prospective entrepreneurs considering relocating here.
In 1981, Richard Feynman, probably the most famous physicist of his time asked the question: “Can we simulate physics on a computer?” At the time the answer was “theoretically yes,” but practically not at that time. Today, we may be on the verge of answering “yes” in practice to Feynman’s original question. Quantum computers operate in such a strange way and are so radically different from today’s computers that it requires some understanding of quantum mechanics and bizarre properties like “quantum entanglement.” Quantum computers are in a realm orders of magnitude beyond today’s supercomputers and their application in specific computational problems like cryptography, Big Data analysis, computational fluid dynamics (CFD), and sub-atomic physics will change our World. Canadian quantum computing company, D-Wave Systems has been at the center of Google’s efforts to pioneer this technology.