It exists for the sole purpose of benefiting its investors and whoever may be behind any investment fronts used to push that currency. I wonder who they might be?
I fully agree with your take on this being an exercise in throwing money at a problem until it goes away. He probably didn't even need to go as far as diving headfirst into the world of fussy custom firmware to solve this issue either, Asus hardware comparable to his Linksys equipment is recommended so often that I can't imagine he researched the topic before making his buying decision.
Tesla deserves plenty of accolades just for getting to the point where they are producing multiple models of vehicle that conform to or exceed modern standards of quality .
However, Tthey have only managed to build "a" luxury sedan, "a" crossover SUV, and will soon be building "a" budget-luxury sedan. The real challenge is in attaining and sustaining the pace of development maintained by the rest of the industry. The automotive industry at large keeps a rolling cycle of refreshes and replacements on a roughly 3/6 year timetable (refreshed after 3 years, replaced after 6). Some niche models (Jeep Wrangler, Mazda Miata) stay in production far longer than that average but a 3/6 cycle is also a bit too long in ultra-competitive categories such as the compact crossover segment.
This is where I see Tesla beginning to struggle as their entirely bootstrapped operation has struggled to meet deadlines. That is cause for concern as it places their current lineup at a competitive disadvantage as their competition has gone through at least 1 refresh, if not a full replacement, since the design of their most recent model (Model X) was set in stone.
The Model S design was largely set in stone by 2009, 2010 at the latest and the Model X design was mostly locked in by 2012, 2013 at the latest. It took 3 years for both of those designs to actually reach showroom floors (2012 and 2016 respectively) so while the clock hasn't run out in terms of production life, the designs themselves are beginning to become dates. I don't just mean "design" as in styling, I mean it as the all-encompassing architecture of the vehicles.
While Tesla's offerings have several unique attributes which cannot be found in any of their closest competitors, one can only push an old design for so long before it becomes completely unappealing to consumers, even when sold at break even prices. I dare say that such a scenario may be playing out with the Model S as its sales had slumped leading up to the 2016 refresh that boosted sales, yet the bump still fell short of that model's best sales quarter which occurred back in 2015. The fact is that the Model S was designed to achieve the minimum level of refinement expected of a 2010-era, $65,000 luxury sedan with the silent, powerful electric powertrain being the plan to make up for its shortcomings in the areas of ride quality and interior fit and finish. Now that ~7 years have passed, the high end, mid-size sedan offerings from mass market brands have caught up to the Model S in many areas.
The Model S may smoke a Nissan Maxima in straight line and the Maxima can't hold a candle to the silence of the Tesla's powertrain but it also costs ~$35,000. In my opinion, it also has a better finished interior and more up-to-date styling than the Model S. We can argue all day over these points but you have to admit that manufacturers like Nissan are at least getting within striking distance in certain areas with cars costing half the price. Tesla needs to seriously step up their development game lest they be left behind with woefully dates products that simply cannot be discounted enough to remain appealing.
Land utilization is the issue. The largest solar farms in the US requires an order of magnitude more land to produce the same amount of power as a relatively average nuclear plant.
The largest solar farm in the US, the Topaz Solar Farm in California, covers 25sq/km has a peak generation capacity of 550MW. The source uses the median of the 59 nuclear plants in the US to arrive at its 3.36sq/km (1.3sq/mile) per 1,000MW figure but the largest nuclear plant ever built, the Kashiwazaki-Kariwa plant in Japan, produces ~8MW on just 4.2sq/km of land which makes it twice as efficient in terms of land use as the median US plant.
That places solar at 13.75 sq/km per 1,000MW compared to nuclear's 0.525sq/km using the best case scenario for the density of existing sources. That doesn't even account for the variable output of the solar plant versus the consistency of nuclear generation. Solar is ultimately far too land hungry to ever serve as the world's primary source of electrity.
>"Also interestingly, part of his motivation is explicitly monetary: he wants his life savings to go to his family, not a nursing home."
That sentiment may seem strange to most people but I think it's more than just a logical conclusion, it's an emotional one as well.
We recently lost one of our family's matriarch's (grandmother-in-law) after her long battle with a failing cardiovascular system. After one particularly difficult evening, she realized her time was about to come and asked her husband to stay by her side while she passed in their home. Unfortunately, her end did not come easily and a relative convinced my grandfather-in-law to call an ambulance when she went into respiratory arrest as it was shockingly painful to watch. She was taken to the hospital and placed in the ICU where she was stabilized but only at the footstep of death's door. The miracles of modern medicine managed to keep her borderline comatose body alive for almost a month in the ICU before the family could come to agreement on sending her to hospice.
That month in the ICU cost almost everything they had worked their entire lives for and was intended to be passed down to their children and grandchildren. Two lifetime's worth of hard work and thoughtful planning went to cover the cost of just one last month of "life".
My point in sharing that story is that the true cost of that month isn't measured in dollars and cents, it's measured in the loss of the legacy they had worked so hard to build. Neither of them viewed their estate as something as simple as "money". Instead they saw it as things like "college tuition for the grandchildren", "a wedding gift to help the grandkids start their married life", "land my ancestors have lived on for generations", and "one last vacation for the whole family". That's what I mean when I saw they lost their legacy and why it's as much or more of an emotional decision than a cold calculation of financial realities.
The way I read it, the point was that "another first virus" wasn't likely to be designed as a benign proof of concept by a tinkerer who meant no harm. The author's view is that the Morris Worm was a happy accident in that it grabbed all the attention owed to the first virus to affect networks on a global scale but it did so without causing any real and lasting harm.