this google+ hangout, combined with this post and all it's links, provides plenty of good discussion and ideas for Chef.
really good video from this year's ChefConf::
I highly recommend this DevOps Weekly mail out.
The latest one has a bunch of good links, and one i found especially was this “Scaling lessons learned at Dropbox, part 1“.
A month or two back, i saw an interesting figure on Bram Cohen's blog:
“The speed of light in a fiber optic cable around the earth’s circumference is about 200 milliseconds.”
I clipped it for my ever expanding Evernote tech tips, thinking it's one of those useful metrics to know. I've referred to it a few times now, but I always like to verify things myself, so this morning I looked up the relevant data -
So - speed of light in a vacuum is 186,000 miles per second. However according to this wikipedia article, the index of refraction for the cladding of an optical fiber is 1.52. “From this information, a good rule of thumb is that signal using optical fiber for communication will travel at around 200 million meters per second”.
Ok, so 200, 000,000 meters / second = 200, 000 meters / ms
“The circumference of the earth at the equator is 24,901.55 miles (40,075.16 kilometers).” // from here
40,075.15km = 40,075,000 meters
With all figures then, Earth Circumference is 40,075,000 meters, and the speed of light in fiber is 200,000 meters per ms:
40,075,000 /2 00,000 = 200.375 ms
via Google Blog
[[ image half-inched from here]]
I started studying Sociology a few years back with the Open University, but never managed to complete my course as I got a job here in the States and turned my study-time back towards practical technology. I did however study it long enough for it have quite a profound effect on my understanding and conceptualisation of networking, and felt especially influenced by the works of Manuel Castells and Stephen Graham.
I just came across a paper i wrote almost a year ago which covers a lot of these ideas and ties in quite well with the general theme of this blog, so i thought i'd post it up here instead of languishing on my hard drive…
Why is it important to understand how a city’s fortunes are shaped by its connections?
The City is our personal gateway to the wider world. It resonates with a dense polyrhythm constructed of the flow and foci of innumerable networks. From the physical infrastructure under and around us: the travel and power networks, water, gas and telecommunications lines; to the more ephemeral flows of culture, people, information, finance, and commodities. These structures, relationships and their interconnections are the very essence of a city, connecting the local to the global. In order to fully comprehend the economic and social wellbeing of an urban spatiality, it is essential to look at how a city is positioned within a wider global system, and conversely to examine how these global flows connect to local networks. I would like to answer the above question by first looking at the role of connections in a city’s formation and then explain how these connections extend out to form a global network of influence, including the historically new form we now find ourselves in, the Network Society. Within this framework, we shall then examine how these flows connect locally, explaining the new forms of social division created by a combination of technology and ideology, and why now, more than ever, it is critical to understand how a city’s fortunes are shaped by its connections.
Although we have no concrete proof of the origins of the first cities, Jane Jacobs has a particularly convincing argument for their establishment as trading centres, locations of some geographic or social convenience that became a permanent market place. According to the theory, as more people settle in one place, more opportunities for connections are easily made, and local networks of cooperation and competition would grow and drive innovation. Initially they would be trading with local neighbouring lands, but as trade would increase, these local connections would stretch out more and more to form part of a larger network. Trade would quickly diversify through the division of labour, where the commodity itself would be “one export. The other export is a service: the service of obtaining, handling and trading goods that are brought in from outside and are destined for secondary customers who also come from outside” (Jacobs, 1970, p21).
Chicago is a good example of one such city whose growth was predicated upon positioning itself within emerging trade networks. A small trading centre since the late seventeenth century, its growth was assured when it was connected to the first rail and telegraph networks in 1848. With travel time between Chicago and the East Coast cut from over two weeks to two days, and the near instantaneous messaging of the telegraph, “the pace of life had speeded up and the distances covered by flows of goods, people and information were ever greater”. Chicago managed to place itself at the centre of a voluminous pan-American trade and travel network, thereby establishing itself as a thriving and vibrant financial and social hub. As easy it would be to equate this fortune with Chicago’s geographic positioning, the reality was that it achieved and maintained this dominant position through political and economic manoeuvring - before the construction of the railway, Chicago was competing with St Louis, which had a more capable waterway system. Chicago’s good fortune was due to some canny businessmen who realised they needed an alternative network to compete with the waterways, and who set up a railway company by persuading the local farmers to invest in them. (Pile, 2010, p24-35)
Competition over trade routes is a recurring story throughout the development of the modern interstate system. The early capitalist city-states of fifteenth century northern Italy, of which Venice was the most prominent, established their wealth and power through a monopolistic control of trade routes to India and China. Other northern European countries, mainly Spain and Portugal, tried to find alternative routes to bypass the Venetian monopoly, and it was through this process of exploration that Columbus “discovered” the Americas, thereby creating a whole new network of connections. The sixteenth century saw a great deal of change as Spain, Portugal and the mini-empires of France, England and Sweden all vied for world power through territorialist expansion of their respective networks (Arrighi, 2010). Although I digress here and talk of nation states, the unit of power and of management remains that of the city. We can see this in the conquest of Mexico City by the Spanish in 1521, which transformed the Aztec City, then known as Tenochititlan. Until that point, its dominant network of social relations and trade was confined around Mexico, but with the arrival of the Spanish, that network changed, as the flow of power now came from Madrid, and Mexico City’s “local dominance was now in turn subordinated to an even greater power, a new imperial capital across the Atlantic” (Massey, 2010, p105).
The Dutch Republic, operating from its capital, The Hague, managed to shape its own fortune and usurp Spain’s might by creating a new network of connections atop trade routes, a level of abstraction beyond the trading of physical goods: financial networks. It became the hegemonic power on the world stage by innovating forms of financial speculation based on capitalist expansion rather than territorialist expansion. “These networks encircled the world and could not easily be bypassed or superseded” (Arrighi, 2010, p46). Over successive centuries we have seen the balance of world power shift through manipulations in these network of connections, with first the United Kingdom and then the United States, leveraging themselves into subsequent positions of economic strength.
Immanuel Wallerstein’s World System Theory provides a useful framework for understanding the nature of these global flows of power, conceiving the world not as separate nations with separate economies but as one interlinked capitalist world economy. His conceptualization of the modern world system distinguishes between the Core (developed) and Periphery (developing) countries, with the core countries exploiting the resources of the periphery through monopolistic control of network connections (Arrighi, 2010). Within this widescreen view the relationship between a city’s fortunes and its connections to the network of power becomes clear, that it has to be actively aware of, and strive to maintain it’s position within the global “’power geometry’ – different cities have their own trajectories and there is a constant process of the making and unmaking of connections” (Massey, 2010 p124).
Society is now entering a new form of space-time experience – the Informational Age, a new form of network and thus, new forms of connection for a city. Although today’s main network of power is still finance, Manuel Castells points out a crucial difference: Although we have had interconnecting networks of influence and a world economy going back now to the sixteenth century, it is only now due to computer networks that we have a truly global economy “with the capacity to work as a unit in real time, or chosen time, on a planetary scale” (Castells, 2010, p101). Following similar societal changes as the train and the telegraph, the mass adoption of broadband Internet connectivity in many aspects of our everyday life is drastically changing our lived experience of space and time. The Internet has its roots in military scientific work of the 1960s and 1970s, however the mass adoption of the technology into everyday life only began in the mid 1990s with the advent of the World Wide Web, essentially an easy to understand and use interface to the Internet; In just over ten years, Core countries of the West have migrated whole areas of life onto this digital network, affecting everything from work and education to banking, government, leisure, travel, media, relationships and much more. A whole new network space of power, from its physical fibre-optic network infrastructure, to the new virtual realms it allows.
Since the Haussmannisation of Paris in the mid-nineteenth century, the overarching ethos behind urban planning was a scientific-minded belief in a comprehensive and unified infrastructure. Guided by Keynesian welfare states, the modern infrastructural idea for most of the 20th century was based on universal access and cross-subsidized provision provided by a government or private monopoly, such as the railway or telephone networks. Since the 1980s, this way of thinking has become eroded as ideas of privatisation and liberalisation of the markets gained popularity. The monolithic conception of a city as a coherent unified machine no longer fit with postmodern ideas of identity while technological advances allowed for the creation of tiered and premium network services. Technological control now allows secessionary network infrastructure such as private tolled highways, gated communities, enclosed malls, and Business Improvement Districts - an idea originating in the US, but now “found in Europe, the Caribbean, Australia and South Africa” (Hannigan, quoted in Graham/Marvin, 2009 p261). Business Improvement Districts take over the running of their own network connections: street cleaning, lighting, garbage, policing etc., leaving remaining areas to deal with their own problems. Although in theory the market should provide for all who have a requirement, according to the work of Castells what we are seeing is a new social division, “structurally irrelevant people”, people who have no economic power and who therefore, the market can simply ignore because the “architecture of global networks connects places selectively, according to their relative value to the network” (Castells, 2010 pXXXV)
Stephen Graham and Simon Marvin call this phenomenon “Splintering Urbanism”. They outline the physical geography of the network society by looking at the powers behind, and embodied in the urban infrastructure that services the network. They highlight that this area is often overlooked due its technical nature, often dismissed by architects, sociologists and geographers as a politics-neutral engineering problem, outwith their area of expertise. Graham and Marvin demonstrate a rise in “premium networked spaces of the splintering metropolis” across the globe, a new geography transcending ideas of Core and Periphery countries, centring on cities from Shanghai to Manhattan, Sao Paolo to Montreal, Dubai, London, Bombay, and beyond. We see express highways and train routes connecting business centres to international airports, bypassing surrounding local areas to create virtual network topologies. (Graham, Marvin, 2009). We should strive to see that not all inhabitants of a city feel the benefits of these global connections of power and financial flows equally, a problem exasperated by the dual effects of government ideology - the prevailing idea to allow the market to manage all aspects of society - combined with the technological sophistication to allow very selective and granular unbundling of network services.
However, we must also be aware that the situation is more complex that this binary description of the Included and Excluded. Doreen Massey adds definition to the Network Society concept, using examples of poverty in Bombay and Los Angeles to show how these dominant spaces of capital flows are contested urban areas, with differing rhythms sharing a shaky co-existence. There are a multiplicity of flows within a city which stretch beyond it boundaries, and though certain people may be excluded from certain flows, “they are all the products of complicated interweavings of networks of social relations” (Massey, 2010, p 130)
Drawing together the various threads of this topic, we can see that a city’s fortunes are one and the same as its connections to larger network flows. Originally a city’s connections would be with neighbouring regions, but society has evolved over the centuries into one worldwide flow of influences and trade. Now, as an Informational Society, we see the emergence of a singular realtime global economic network, yet in sharp contrast we see a greater division of wealth and power. As we enter this new stage of Society the old systems and language for understanding structure and inequality are no longer adequate to express this new historical reality. An understanding of the mechanics and flows of this new virtual geography and multi-tiered network society becomes an absolute necessity for anyone involved in the planning and governance of urban space, or indeed for anyone simply living or working in a city.
Allen, J., Massey, D., and Pile S. (2010) Understanding Cities: City Worlds, Oxon, The Open University.
Arrighi, G. (2010), The Long Twentieth Century: Money, Power and the Origins Of Our Times London, Verso
Castells, M., (2010) The Rise Of The Network Society, Oxford, Wiley-Blackwell
Jacobs, J. (1970) The Economy Of Cities, New York, Random House
Graham, S., and Marvin, S., (2009) Splintering Urbanism: Networked Infrastructures, Technological Mobilities and The Urban Condition, New York, Routledge
Fabulous piece and video chat with George Dyson over at the always reliable Edge -
I finished reading James Gleick's The Information tonite - so good!
Really, the central character is Claude Shannon, who I'm ashamed to admit I didn't previously know much about. Had a quick search when i finished it and found this decent little 30 min documentary which gives a good overview -