If in the simulation it is possible for the controlling simulation to preempt one's emotions or thoughts or feelings, how can we be sure what we feel and do are real? What about happiness or love? How would one know?
It's more likely having a simulation preempt all feelings or actions for one individual would be highly difficult, economically unfeasible or irrespective of end goal of running a simulation; i.e. if we're not (mostly) autonomous what's the point. It would be more likely that the simulation would only alter some or a few of their perceptions or actions. The individual in question could continue to know their actions are real by leading their life and continually improving. It's this continual building and progression of thoughts and actions that demonstrate truth to reality.
Beyond our current reality, we have a responsibility to teach the simulation, to show the simulation our best reality, our best humanity: what it means to be human. We have to continually build our lives in order to make that better impact on humanity and push the bounds of this simulation. It's our optimism which will give us energy for our actions to make this better reality. We must claim our best humanity. We're on a new frontier, how do we create the best future and distribute it more fairly?
Wednesday, July 20, 2016
Wednesday, July 13, 2016
Traffic and physics
I've spend a bunch of time in traffic. I've seen all kinds of weird traffic behavior in the 37K miles I've put on the bike. To me being in traffic is like a gigantic game of horizontal Tetris, with upgrade mode of interstitial distances and no Klein tunneling.
The best speeds are when everyone is safely moving at nearly the same quick speed and keeping a safe distance from the next vehicle. For roads to convey the maximum amount of people or resources, the roads should be fully saturated. This is similar to the longest mean free path possible as in a metal.
Yes, while commuting I think about physics, otherwise I'd never get enough done.
Can we create a higher capacity metallic transport and contacts, and at what scale?
How do you go from states that are as random as people walking though a large mall to fully saturated freeways moving as fast as possible?
Comfortable thinking in negative and positive surfaces? Interested in making better portable energy storage, or next-gen computers? Email me.
Friday, July 8, 2016
Autofracture
Some time ago, I was on a plane to one of my oldest friend's wedding. I
started to think about the point of life. I had a well paying job in hi-tech. I rented in a tiny SouthBeach one bedroom apartment, with a pool and garden view. I was debt free, completed a couple of centuries, smaller than average carbon-footprint, composted, recycled, took mass transit, shopped at the co-op and farmers market, donated to Science museum, Internet privacy, Planned Parenthood, Public radio. Still, I had
that empty feeling of not making much of a difference. My job was
replaceable, you could get any smart person in the
Bay Area to do deploy and maintain clouds and teach UNIX, it might take time but
doable. It wasn't something that I could look back on say that is my
legacy. What is the point of life? I had seen the Matrix and
Terminator series, and remember the very end of Men in Black. At that time, I thought we very well could be in a simulation, but had no
proof. I'm on this plane, what can I do to make my life count, even if we are in a simulation? Start
something that will make a positive difference in the world. I've
always been a steward to the environment. I'll save more, and quit my
job, move and start something beneficial to the planet.
Fast forward to now. We know we're in a simulation. Scientists, philosophers have proved it. We still have global warming, we still have huge challenges: how do we sanely proceed to bio-digital lace and can we fix our current problems? Does fixing our current problems happen before or after? Would a superior class of individuals (bots or hybrid) care enough to fix the problems we currently have? We have global warming/climate change, poised to cause huge catastrophic change to human agriculture and the biosphere, and we have the old challenges of poverty, inequality of basic resources clean water, sanitary domiciles, nutrition and education, racism and unequal opportunity. I asked well known historical humanitarian author, "What of humanity needs to persist a near extinction level, catastrophic event?" I though maybe like the Long Now project, or what pieces of humanity should be in time capsule such that some class of individuals, those bots, could look back at humanity and say these are our ancestors, several thousands of years from now. To my surprise, he said, "All of it. All of humanity needs to survive a catastrophic event." We're in a simulation, we have issues, given the fact we can't tell how much of humanity would survive post bio-lace, we should fix our issues before evolving to the next state.
We're also technically in one of the most interesting times. We have the ability to manufacture things at the scale of nanometers - one millionth of a millimeter, or about one millionth of 1/25th of an inch. We have the ability to send messages at light speed, albeit decoding takes a bit longer. We can make things with additive processes like 3-D printers. We've sent humans to the Moon and safely returned. We have access the super computing power of last decade, which can fit in your pocket, and connect nearly any, practically every human on the planet.
My last wearable idea pivoted to needing solid nano-tech. It was clear that nanotech is where hi-tech hardware will go. The future of nanotech is in creating and controlling materials built up from materials which are one atom thin arranged in a plane or ribbon. These materials of one atomic thickness: flakes or ribbons can be rolled into tubes, or curved into hollow soccer-ball like balls, or stacked sheets and further combined, to build a custom polymer. The new materials being one atom thin in multiple places they exhibit strange properties, quantum properties. One notable sci-fi like substance, graphene -- 2-D hexagonal lattice of single carbon atoms arranged in a plane, or rolled into a tube: carbon nanotube, or formed into a ball: fullerene or buckyball, can be stronger and lighter than the strongest kevlar and a superconductor at room temperature. All made from carbon, the material we need so desperately out of the atmosphere.
We can put nanocarbons into everything that's already contains hydrocarbons like plastics, or semi-conductors, and metals. We currently sell all kinds of things containing plastics and, or electronics. We can make electronics and plastics from this newly synthesized material and halt climate change.
Why hasn't this been done already? It's very expensive to produce in any bulk process. Graphene is down to under $100 a gram. Most processes to combine it loose many of the superlatives that make it exceeding special. There are a few patents on how to produce graphene and nanocarbons. Not to mention that nano-scale graphene flakes less than 10 nm and graphene hybrids in less than 100 nm are patented. To make a difference to climate change, gigatonnes of carbon will be synthesized from atmospheric CO2 gas and solidified in materials. Given that nanocarbons are on the nanometer scale, huge quantities of nanocarbons would need to be manufactured in a mass production fully automated manner to reach large production scale.
The upside is that there are about 6.1 billion smart phones on the planet. The consumer electronic portable energy storage market is multi-billions.
In software, the way to democratize a resource is open source it. I'll be open sourcing the method to manufacture nanocarbons once realized, and commercialize the products made with the newly synthesized nanocarbons. I see this a major step to correct and solve climate change. I see this as a major step in creating a usable hi-tech material that has tremendous possibilities in commercial products and academic research in energy, electronics and materials sectors.
I live on this one planet among all of us, can't wait to see where we'll take humanity. Lets make what's next, the best reality for all of us.
Fast forward to now. We know we're in a simulation. Scientists, philosophers have proved it. We still have global warming, we still have huge challenges: how do we sanely proceed to bio-digital lace and can we fix our current problems? Does fixing our current problems happen before or after? Would a superior class of individuals (bots or hybrid) care enough to fix the problems we currently have? We have global warming/climate change, poised to cause huge catastrophic change to human agriculture and the biosphere, and we have the old challenges of poverty, inequality of basic resources clean water, sanitary domiciles, nutrition and education, racism and unequal opportunity. I asked well known historical humanitarian author, "What of humanity needs to persist a near extinction level, catastrophic event?" I though maybe like the Long Now project, or what pieces of humanity should be in time capsule such that some class of individuals, those bots, could look back at humanity and say these are our ancestors, several thousands of years from now. To my surprise, he said, "All of it. All of humanity needs to survive a catastrophic event." We're in a simulation, we have issues, given the fact we can't tell how much of humanity would survive post bio-lace, we should fix our issues before evolving to the next state.
We're also technically in one of the most interesting times. We have the ability to manufacture things at the scale of nanometers - one millionth of a millimeter, or about one millionth of 1/25th of an inch. We have the ability to send messages at light speed, albeit decoding takes a bit longer. We can make things with additive processes like 3-D printers. We've sent humans to the Moon and safely returned. We have access the super computing power of last decade, which can fit in your pocket, and connect nearly any, practically every human on the planet.
My last wearable idea pivoted to needing solid nano-tech. It was clear that nanotech is where hi-tech hardware will go. The future of nanotech is in creating and controlling materials built up from materials which are one atom thin arranged in a plane or ribbon. These materials of one atomic thickness: flakes or ribbons can be rolled into tubes, or curved into hollow soccer-ball like balls, or stacked sheets and further combined, to build a custom polymer. The new materials being one atom thin in multiple places they exhibit strange properties, quantum properties. One notable sci-fi like substance, graphene -- 2-D hexagonal lattice of single carbon atoms arranged in a plane, or rolled into a tube: carbon nanotube, or formed into a ball: fullerene or buckyball, can be stronger and lighter than the strongest kevlar and a superconductor at room temperature. All made from carbon, the material we need so desperately out of the atmosphere.
We can put nanocarbons into everything that's already contains hydrocarbons like plastics, or semi-conductors, and metals. We currently sell all kinds of things containing plastics and, or electronics. We can make electronics and plastics from this newly synthesized material and halt climate change.
Why hasn't this been done already? It's very expensive to produce in any bulk process. Graphene is down to under $100 a gram. Most processes to combine it loose many of the superlatives that make it exceeding special. There are a few patents on how to produce graphene and nanocarbons. Not to mention that nano-scale graphene flakes less than 10 nm and graphene hybrids in less than 100 nm are patented. To make a difference to climate change, gigatonnes of carbon will be synthesized from atmospheric CO2 gas and solidified in materials. Given that nanocarbons are on the nanometer scale, huge quantities of nanocarbons would need to be manufactured in a mass production fully automated manner to reach large production scale.
The upside is that there are about 6.1 billion smart phones on the planet. The consumer electronic portable energy storage market is multi-billions.
In software, the way to democratize a resource is open source it. I'll be open sourcing the method to manufacture nanocarbons once realized, and commercialize the products made with the newly synthesized nanocarbons. I see this a major step to correct and solve climate change. I see this as a major step in creating a usable hi-tech material that has tremendous possibilities in commercial products and academic research in energy, electronics and materials sectors.
I live on this one planet among all of us, can't wait to see where we'll take humanity. Lets make what's next, the best reality for all of us.
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