"Some companies make things happen, some watch things happen and others wonder what happened."The original source of this anecdote in unknown and I happened on it in a book by Philip Kotler. Companies that came to mind - "Apple", "Nokia", "RIM" :)
Wednesday, July 4, 2012
Interesting Anecdote
Saturday, July 30, 2011
Probability of US default
Looks like we are on the verge of the unthinkable... a default by the US treasury. I always thought this was (and sure as hell hope it will be) an improbable event, especially since the US borrows in USD and owns the printing press that can print more of it. Kudos to partisan politics in making even an impossible (and undesired) event look highly probable. On the flip side, this situation makes it clear that history and common sense are bad precedents when it comes to rare events.
Thursday, February 17, 2011
LinkedIn activity and correlated events
I have been a linkedIn observer for some time and I noted a few funny aspects which I think can be correlated. Note that these are aspects that need further corroboration with real data and are at the moment speculative... so you may choose to agree, disagree, agree to disagree or contemplate with me
- High activity (above the median activity level for the individual) on linkedIn is indicative of bad times (for the individual and possibly by extrapolation, in some cases, for the company that the individual works for)
- Low activity (below the median activity level for the individual) on linkedIn implies its BAU (business as usual)
- Not responding to an invite from a person indicates possible ego issues/dislike of the person providing the invite/or good times for the invitee (good enough to ignore an invite from someone you know)
- Responding immediately to an invite from a person - you like this person or being associated with that person for personal or professional reasons
- Number of contacts on the network bear negative correlation with the percentage of useful contacts (those that can aid in a career move or help in uncovering an opportunity)
- Very large number of contacts (500+) indicate that this individual is someone that a lot of people would like to associate themselves with. The association can be professional (this person could help out in a business opportunity at some point by virtue of his/her position), personal (this is a person whose company you like and/or is someone you'd like to emulate) or both
- Very few contacts - Either too lazy or too egoistic to build a network (who needs others anyways)
- Company name and title displayed prominently - these individuals are career minded and/or choose to derive their identity from their occupation
- Education and credentials displayed prominently - these individuals have high affinity for their almamater and in some, but not all, cases feel a sense of entitlement based on their schooling
- Not much information displayed - These individuals value privacy. Do not underestimate their career mindedness or need to succeed.
- Having their entire resume documented on linkedIn - These individuals are making a poor choice and leave nothing to imagination (in the career sense). They are doing themselves a disservice and they are well advised to recognize that
- Having too many recommendations - unnecessary, undermines potential. Recommendations probably obtained under duress, coercion or quid pro quo. This individual potentially needs affirmation from others. Cherry pick - leave only the ones that best describe you as you see fit
- Having a few good recommendations - This individual needs a few to move to a new opportunity - no harm with that
- Having no recommendations - This individual is very confident in his/her abilities and doesn't seek affirmation from anyone. Probably the person who you would want to hire if you feel the need to after validation in an interview. It could also imply overconfidence and the boundary between confidence and overconfidence is fuzzy at best
- An individual's group affiliations - window into the individual's interests and aspirations
Wednesday, June 9, 2010
The Evolutionary Algorithm & Complexity Economics
I just read this book - The Origins of Wealth by Eric Beinhocker. Thanks to Steve, CEO of an up and coming company, for bringing it to my attention. The books contents relate to my last article on genetic evolution and risk management albeit treating it in much more depth (and richness) as only a 450 page book can. I now feel vindicated in a sense that my ideas were not full tangent and there are more people seeing this as an entirely conceivable approach.
The book in itself deals with complexity economics - a view that is in stark contrast with the static equilibrium views propounded in most contemporary economic texts and presents the economy as an dynamic evolutionary system that mirrors biological evolution. The key take away is - presentation of the economy as a combination of physical technologies (PT), social technologies (ST) and business plans (likened to biological DNA) that evolve to adapt to fitness funtions driven by participant choices. In this manner the economy evolves in a fashion very similar to biological evolution and the most efficient algorithm to evolve happens to be - as anyone can by now guess - the evolutionary algorithm driven by continuous micro risk taking. Apparently this happens to be the most efficient algorithm for searching roughly correlated large design spaces (something the economic landscape subscribes to) for reaching the best possible fit.
Eric relates the economic system to a thermodynamic system. He deems wealth creation to be a consequence of irreversible processes that reduce the local entropy of the economy.Wealth in essence is treated as a fit indicator and wealth creation is determined by how closely a business is able to match the fitness function. For the financial practiioners Eric's got some news - markets are not random {yes thats right NOT random). Financial markets are dynamic systems that are complex enough to give the appearance of randomness. This is evident in the applicability of power laws to return distributions and temporal variations that resemble punctuated equilibrium rather than covariance stationary processes. This part is identical to Nassim Taleb's ideas on turkey economics and Mandelbrot's fractals and invariance of time scales.
Overall it was an excellent read - covers a lot of ground on bleeding edge modern and future thinking. I recommend this book to any one with an interest in strategy, finance or economics.
Sunday, April 18, 2010
Genetic evolution & Risk management
I was recently hooked to reading up on genetics and evolution. My thoughts revolved around how life evolves and adapts to environmental surprises. Surely the fact that we see so much variety around us must have its roots in ingenious risk management. Three aspects struck a chord. The first - impefect self replication, making risk taking an essential aspect of evolutionary progress. The second - built in redundancy and ability to self repair - you cannot take down the house even under the most dire circumstance - No Amarynth style nat gas bets here. Its built to re-evolve re-adapt and ignore and or correct most deficiencies. The third one blew my mind - create almost anything needed with the same building blocks. Its like the most perfectly written computer program anyone could ever imagine. It leads one to wonder who might've been the programmer.
To get to the grind - it starts with the building blocks of life - a cell. Almost every living thing is made up of one or more of these little things. Within each cell there are chromosomes {colored bodies - so called because they can be pigmented by certain dyes}. chromosomes in turn contain - you surely heard of this one - DNA, those double helix strands {made of sugar and phosphate running anti-parallel to each other} and four different types of nucleotide bases Adenine, Thymine, Guanine and Cytosine commonly refered to as ATGC. The DNA itself is composed of extermely long strands with different sections. Each section is a gene. Within each gene there are both coding and non-coding sequences. The coding sequence determines what the gene does and the non-coding sequences determine whether or not the gene is active.
During the process of cell division, the genetic strands of the DNA separate and create a copy of themselves. This copy is imperfect - meaning most genetic sequences are preserved but nothing in nature is perfect. There is some room for variation. This is the reason we have such a variety in organisms around us today. Unlike what many people may tend to believe that - "environment drives evolution", the cause and effect is not so clear. Evolution (continuously) takes its chances and it just so happens that some risks have greater rewards than others and result in successful survival of the new/modified species. This can be compared to portfolio diversification with high positive skew.
We can get a rough estimate the extent of risk taking involved. Each change virtually takes a lifetime. This lifetime is different for different species. However in terms of universal time its actually very short. Current estimates of universal time since the big-bang tend to be anwhere from 13-15 billion years based on the cyclical expansion and contraction model of the universe and the earth is anywhere from 4.5 to 7 billion years old. One life time for most species (even if they live to 150 years or even a 1000 years for some large trees) is a fraction of the total time in the evolutionary scale. In addition there have been large scale destruction events like comet strikes, meteor showers or super volcanic eruptions which have caused entire existing species to disappear - the dinasaurs are a good example. However this hasnt meant that life never evolved after that. It may not have had the same shape or form but evolve it does. This attests to continuous micro-risk taking with a lot of redundancy built in for large tail events.
There is also an other interesting fact which alludes to risk taking necesssary for evolutionary development. It is that all life forms have the same genetic material. The genes are actually "inter-operable" across organisms (includes any living or border-line living thing from virus to bacteria to plants, insects and mammals) in computational parlance. The fact that we see so many species surviving so successfully and in many cases in a co-dependent manner within mini or large eco-systems speaks to the extent of success (rewards) this evolutionary scheme has had for taking those risks.
Protiens, considered essential for creating mass, are composed of amino acids. There are different amino acids but they all share a common feature - that each protein requires only three neucleotide bases to build them. Based on this one might expect 4*4*4=64 different types. But no there are actually only 20 of them. The reason for 20 and not 64 amino acids is that many combinations of ATGC result in the same protein giving a lot of built in redundancy. Note the lack of "optimization" and "efficiency" that most corporates tend to focus on. The same can be said of resistance to genetic diseases. Genetic diseases are transmitted across generations only through the x-chromosome. However since the female has 2 x-chromosomes, only if both parents were carriers can the disease be expressed in a female child infant. If only one parent is a carrier, the genetic disease will be carried by the female infant but the healthier x-chromosome will take over and prevent the disease from being expressed in the female child infant. This points to the fact that even if there is a defect, it will be overidden by a gene that has no defect. Redundancy is just built into the system at every point.
During the process of cell division, the genetic strands of the DNA separate and create a copy of themselves. This copy is imperfect - meaning most genetic sequences are preserved but nothing in nature is perfect. There is some room for variation. This is the reason we have such a variety in organisms around us today. Unlike what many people may tend to believe that - "environment drives evolution", the cause and effect is not so clear. Evolution (continuously) takes its chances and it just so happens that some risks have greater rewards than others and result in successful survival of the new/modified species. This can be compared to portfolio diversification with high positive skew.
We can get a rough estimate the extent of risk taking involved. Each change virtually takes a lifetime. This lifetime is different for different species. However in terms of universal time its actually very short. Current estimates of universal time since the big-bang tend to be anwhere from 13-15 billion years based on the cyclical expansion and contraction model of the universe and the earth is anywhere from 4.5 to 7 billion years old. One life time for most species (even if they live to 150 years or even a 1000 years for some large trees) is a fraction of the total time in the evolutionary scale. In addition there have been large scale destruction events like comet strikes, meteor showers or super volcanic eruptions which have caused entire existing species to disappear - the dinasaurs are a good example. However this hasnt meant that life never evolved after that. It may not have had the same shape or form but evolve it does. This attests to continuous micro-risk taking with a lot of redundancy built in for large tail events.
There is also an other interesting fact which alludes to risk taking necesssary for evolutionary development. It is that all life forms have the same genetic material. The genes are actually "inter-operable" across organisms (includes any living or border-line living thing from virus to bacteria to plants, insects and mammals) in computational parlance. The fact that we see so many species surviving so successfully and in many cases in a co-dependent manner within mini or large eco-systems speaks to the extent of success (rewards) this evolutionary scheme has had for taking those risks.
Protiens, considered essential for creating mass, are composed of amino acids. There are different amino acids but they all share a common feature - that each protein requires only three neucleotide bases to build them. Based on this one might expect 4*4*4=64 different types. But no there are actually only 20 of them. The reason for 20 and not 64 amino acids is that many combinations of ATGC result in the same protein giving a lot of built in redundancy. Note the lack of "optimization" and "efficiency" that most corporates tend to focus on. The same can be said of resistance to genetic diseases. Genetic diseases are transmitted across generations only through the x-chromosome. However since the female has 2 x-chromosomes, only if both parents were carriers can the disease be expressed in a female child infant. If only one parent is a carrier, the genetic disease will be carried by the female infant but the healthier x-chromosome will take over and prevent the disease from being expressed in the female child infant. This points to the fact that even if there is a defect, it will be overidden by a gene that has no defect. Redundancy is just built into the system at every point.
Back to cells. To create something like for example a body part the first step is transcription where the DNA creates a copy of a specific sequence of its own one strand and replaces the T (Thymine) with U(Uracil). This single strand structure is called messenger RNA or mRNA. Each such coding sequence codes for atleast one gene. The mRNA acts as an encoded message instructing the build out of protein and so on. It is no moot point for the same material to serve as container, carrier, creator and created. This self evolution is the very essence of life itself. It re-inforces the need to have self contained modules or units at as granular a scale as possible that can be generalist enough to evolve into doing anything specialist based on the needs of the moment.
One can conclude by thinking about how the same evolutionary technique can be applied to portfolio management or even management of organisations. The long term rewards of taking many small risks with positive skews on a continuous basis with sufficient capital set aside to prevent bringing down the house in tail events may far outweigh using capital "efficiently" or "optimally".
Friday, February 19, 2010
"Greece is no Lehman Brothers" - Are you sure?
There was a recent article on Bloomberg stating that some "analysts" at Blackrock and some other institutions were touting a buy recommendation on soverign Greek bonds. Their premise was - "Greece is no Lehman Brothers". My thought upon reading this was - that line is uncannily familiar. In fact I read a similar line in the media when Bear Stearns collapsed and there was some speculation around the fate of Lehman Brothers. Some one said - "Lehman is no Bear Stearns" - Really? Somehow there seems to be a general lack of discipline in differentiating fact from opionion. Using opinions as a premise is a very common fallacy.
What may seem surreal ex-ante may actually be real ex-post. Now it could be the case that "Greece is no Lehman brothers", but as of now one knows that for sure. Remember the Russian default more than a decade back ... the investment community in general seems to have a very short memory
Saturday, February 6, 2010
Will PIIGS sh(r)ed the Euro?
The EUR (Euro) was originally concieved to challenge the USD's status as a reserve currency or at least provide a viable alternative . The economic idea behind this is the following: The collective GDP of the Euro zone countries matches the GDP of the united states. If the Euro zone acts as a single trade zone, every country that trades with one or more country in that region will automatically try to move part of their foreign reserves to EUR. This increases convenience and reduces hedging costs for a trade partner country, relative to maintaining a basket of currencies or alternatively converting at the given spot rate to the required currency when there is an import need. Strategically choosing a reserve currency also demands a capability based approach - What country, or in the Euro zone case - collaboration of countries, can provide me with my critical need in times of crises. There is also an issue of trust involved. Can I rely on the country issuing the reserve currency, not to unduly depreciate its value (No quantitative easing).
Why the EUR could be a better choice as a reserve currency: With GDP as a parameter the USD and EUR are comparable. Under the strategic choice criteria, currently USD has an edge. However with the issue of trust EUR has an significant advantage. The reason being that its harder to get an agreement among all partner nations to pressure the European central bank (ECB) to print more Euros than it is to get the Federal reserve (FED) to print more through political jawboning by the US congress.
Now what seems like a strength for the Euro, is also unfortunately its main weakness and we are currently witnessing live action on this front. Within the Euro zone - the monetary and fiscal policies are decided separately. Interest rate setting is the job of the ECB which is politically dominated by the two strongest economies in the Euro zone i.e. Germany and France, while the fiscal policies are decided by each partner country and local politics prevail.
As with other things in life what is globally optimal may not be locally optmial and vice-versa ie. - Whats good for Portugal, Italy, Ireland,Greece & Spain (PIIGS) is not good for Germany or France. Portugal, Italy... and the rest that are currently in deep economic distress have to spend their way out of trouble. To do this they have to resort to public borrowing. There are two ways to finance public borrowing - 1) Increasing taxes - Which is political suicide in economically challenging times 2) through quantitative easing or future inflation. Now a combination of the two options is usually a safer (and smoother) approach with option 1) being postponed to the future for when the economy picks up. But unfortunately for the PIIGS there is no easy way to adopt option 2). They are at the mercy of their partners. No soverign country wants to be at the mercy of any other. Also not having option 2) increases sovereign risk and hence increased costs of option 1). Not being able to issue bonds in a currency that a country can print makes these 'developed' nations similar to 'developing' nations borrowing in USDs.
So - Will PIIGS sh(r)ed the Euro ... We'll have to wait and watch.
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