Products and companies usually lag fundamental research by decades or more. What early stage publications or disciplines are you most bullish on for affecting humanity?
According to Prof. Hoffman, this model of the universe is highly parsimonious in that it can model data from the Large Hadron Collider using a single parameter, while the best incumbent theory (quantum field theory) needs millions.
The implication is that everything we see and experience, including space and time itself, are not fundamental. The unit of reality is consciousness.
This has far reaching applications into every other scientific and non-scientific human endeavor, from neuroscience to philosophy. It's no exaggeration to say that if he's right (and he claims the math shows that he is) it may be the most important discovery in the history of humanity.
Even Albert Einstein appears to have intuited this when he wrote:
"Time and space are modes by which we think and not conditions in which we live."
Your genomics comment is the same as mine. We are about to enter a world different from what our parents could have imagined. For the better, I think.
Look at illumina and their company Grail who has the Galleri blood test. Vial of blood and they can report if you have internal cancers that are not easily detectable otherwise.
Your list plus cellular aging, my other categories:
os: hpc/highly tuned single purpose oses/unikernel machines will become more dominant
filesystem: cxl on the horizon dax supported systems will become dominant then userspace+vendor shipped software will take over if they can catch up a common standard (intel already does good job)
fantasy:
hardware cooling: I believe we have a lot of room on having control on the heat, wanted to check alternative applications especially vacuum
I dont see someone to have a reason refuse a reliable software solution which would speed up their existing application which could be done just by an software upgrade and reduce their bills at no cost, most benefical I think would be the tunning part for an average user. Its also compliment with many existing architectures today including cloud/container orchestration and the baremetal itself. But probably the key is still community/vendor support and standards , I dont know how it would affect maintainer life
OS kernel level observability. I shouldn't need to fire up `strace` for that; I should be able to do something like `observe $my_program $my_args` and have streaming results somewhere in `/proc`.
Another thing: CPU-level observability. I want to be able to get statistics about a block of code: which instructions got ran the most, which ones are the slowest etc. Profiling on steroids, basically. If Intel / AMD are not willing to provide that then I'm willing to work with almost any CPU model that does offer that. Anybody knows of such CPUs?
I'm also interested in eBPF but sadly can't find the time to dive deep there.
Some of the quantum computing research is pretty wild lately. People essentially writing "code" that gets converted by a quantum computer into new states of matter.
I think there's some core research in magnetic control of plasmas / energy transfer from plasma that's been done, and is going to start leaking into more public applications like fusion. The military's "hypersonics" may be a beginning of some of that; bringing out things they've either been sitting on or desperately trying to get working for 30+ yr.
really interesting point about hypersonics and plasmas. Developments in aviation have trickled down and led to other developments in technology—tons of work in modern control theory, material sciences, and aerodynamics was originally motivated by trying to build a better plane. I’d be surprised if we didn’t learn a few very practical things about plasmas while working on hypersonic weapons
It’s such an intriguing idea, and early correspondences seem so strong, that it seems impossible we won’t learn some awesome things about how physical theories relate and arise.
Are we materially further along on fusion than we were 10 years ago? I know we're making some strides with magnetic / vacuum sealing but I'm unclear on how much novel insight the research has surfaced, versus just iteratively improving our ability to physically prototype it.
https://www.youtube.com/watch?v=reYdQYZ9Rj4
https://arxiv.org/abs/1709.02813
According to Prof. Hoffman, this model of the universe is highly parsimonious in that it can model data from the Large Hadron Collider using a single parameter, while the best incumbent theory (quantum field theory) needs millions.
The implication is that everything we see and experience, including space and time itself, are not fundamental. The unit of reality is consciousness.
This has far reaching applications into every other scientific and non-scientific human endeavor, from neuroscience to philosophy. It's no exaggeration to say that if he's right (and he claims the math shows that he is) it may be the most important discovery in the history of humanity.
Even Albert Einstein appears to have intuited this when he wrote:
"Time and space are modes by which we think and not conditions in which we live."