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Molecular Compute is fast approaching - US Army Creates Atom Sized Memory Module/Hard Drive - Hold 25 Terabytes of Data per Centimeter

N

Nhranaghacon

Banned
And wow I hope our game's get to see some of that tech soon.

This is precisely the kind of breakthrough Computer Science has been heralding for the industry for over 50 years,
except that Molecular Compute -

Is supposed to in fact bolster every facet of computing as soon as 2023 starting with off the shelf molecular hybrid parts as has been taught in Computer Science Labs
around the world.

but there are far more examples than what I've provided that are going to soon impact the gaming industry (particularly if you delve into nanotechnology breakthrough's coming down the pipe)

Molecular Compute is in fact supposed to bolster computation far beyond what even Quantum Computation will allow, and as a gamer - exciting prospect that we will have
hardware to play with.... particularly as a PC gamer within as little as 3 year's and off the shelf Hybrid Molecular Chips.

Funded by the US Army: Scientists create the smallest Memory unit in the world

A research team from The University of Texas at Austin, in a project funded by the US Army Research Office, has been able to create the smallest memory unit possible to date, only one atom thick, which opens the door to massive military and industrial applications in the future.The results were publ
www.guardianmag.press www.guardianmag.press
 
N

Nhranaghacon

Banned
HarryKS said:
Beyond quantum computing?
Click to expand...
Molecular Computing and Quantum Computing share one thing in common, mainly quantum teleportation properties - as molecules regularly appear in 2 places at once or at least seem to.

As such, Molecular Computing naturally utilizes most of the same mechanics as Quantum Compute for issues such as adhesion and quantum binding.

This is only one reason why Molecular Compute is supposed to usurp Quantum Computing as it will be utilized to solve the issue of missing Qubit's/teleportation deficiencies as a hybrid Quantum Solution - while also applying those same exact attributes of Quantum Computing at the molecular level. Also computer science state's it will achieve this efficiency without the need to utilize attributes from Quantum Computing by sheer brute force as the main underlying mechanic of Molecular Compute will be it's reliance on teleportation at what most would consider FTL travel - and that it will in fact bring to light compute method's never heard of - that far exceed the speed of anything we could imagine today.

techxplore.com

Researchers build microscopic biohybrid robots propelled by muscles, nerves

Researchers have developed soft robotic devices driven by neuromuscular tissue that triggers when stimulated by light—bringing mechanical engineering one step closer to developing autonomous biobots.
techxplore.com techxplore.com

Also, self replicating - bio hybrid nanotech; another facet of molecular engineering that will find cohesion with molecular computing.
 
Last edited:
eot

eot

Banned
Nhranaghacon said:
Molecular Computing and Quantum Computing share one thing in common, mainly quantum teleportation properties - as molecules regularly appear in 2 places at once or at least seem to.

As such, Molecular Computing naturally utilizes most of the same mechanics as Quantum Compute for issues such as adhesion and quantum binding.

This is only one reason why Molecular Compute is supposed to usurp Quantum Computing as it will be utilized to solve the issue of missing Qubit's/teleportation deficiencies as a hybrid Quantum Solution - while also applying those same exact attributes of Quantum Computing at the molecular level. Also computer science state's it will achieve this efficiency without the need to utilize attributes from Quantum Computing by sheer brute force as the main underlying mechanic of Molecular Compute will be it's reliance on teleportation at what most would consider FTL travel - and that it will in fact bring to light compute method's never heard of - that far exceed the speed of anything we could imagine today.
Click to expand...
I actually work in quantum information science and I can confirm this is 100% tales from your ass
 
N

Nhranaghacon

Banned
eot said:
I actually work in quantum information science and I can confirm this is 100% tales from your ass
Click to expand...
As a Computer Scientist that helped write the white sheet for a Quantum Bridge, that in fact would guide molecular deficiencies towards a Quantum Tunnel for no other reason than to create cheap compute, even if all particles chauffeured to said tunnel were not intended to end up there - simply because such a method would bolster cheap analog computation method's. I find myself wondering what type of Quantum Engineer think's he has it all figured out - when you obviously have demonstrated otherwise. Quantum Mechanics make about as much sense as your post, Molecular Compute will far exceed all form's of compute - aside from the newer form's which it creates.

Case in point, you are going to vet me by asking a number in the form of Qubit's.

What could that number be....

33 Qubits.

That is intelligence community data for you sir. Good day.
 
Last edited:
TheMan

TheMan

Member
The question is how quickly can data be accessed on these drives, and how many times? How long do these drives remain stable?
 
GeorgPrime

GeorgPrime

Banned
Nhranaghacon said:
And wow I hope our game's get to see some of that tech soon.

This is precisely the kind of breakthrough Computer Science has been heralding for the industry for over 50 years,
except that Molecular Compute -

Is supposed to in fact bolster every facet of computing as soon as 2023 starting with off the shelf molecular hybrid parts as has been taught in Computer Science Labs
around the world.

but there are far more examples than what I've provided that are going to soon impact the gaming industry (particularly if you delve into nanotechnology breakthrough's coming down the pipe)

Molecular Compute is in fact supposed to bolster computation far beyond what even Quantum Computation will allow, and as a gamer - exciting prospect that we will have
hardware to play with.... particularly as a PC gamer within as little as 3 year's and off the shelf Hybrid Molecular Chips.

Funded by the US Army: Scientists create the smallest Memory unit in the world

A research team from The University of Texas at Austin, in a project funded by the US Army Research Office, has been able to create the smallest memory unit possible to date, only one atom thick, which opens the door to massive military and industrial applications in the future.The results were publ
www.guardianmag.press www.guardianmag.press
Click to expand...

Ahh there is the new feature for PS 6
 
B

Bogey

Banned
So what's that fancy magic now - is it only applicable to storage, or some concept that would apply to computing as well?

As for storage. Imho, transfer rates and latency are much much much more important for gaming than capacity, dunno how that technique would perform
 
N

Nhranaghacon

Banned
Would love to see something like this built into the CPU as cache, imagine - motherboards could come with strips of this tech standard and remove the need to ever purchase memory or SSD's separately, then built into CPU's and GPU's. Moreover - CPU's and GPU's are going to share the same die space soon enough anyways. Glad you've all enjoyed the read!
 
bender

bender

What time is it?
Nhranaghacon said:
Molecular Computing and Quantum Computing share one thing in common, mainly quantum teleportation properties - as molecules regularly appear in 2 places at once or at least seem to.

As such, Molecular Computing naturally utilizes most of the same mechanics as Quantum Compute for issues such as adhesion and quantum binding.

This is only one reason why Molecular Compute is supposed to usurp Quantum Computing as it will be utilized to solve the issue of missing Qubit's/teleportation deficiencies as a hybrid Quantum Solution - while also applying those same exact attributes of Quantum Computing at the molecular level. Also computer science state's it will achieve this efficiency without the need to utilize attributes from Quantum Computing by sheer brute force as the main underlying mechanic of Molecular Compute will be it's reliance on teleportation at what most would consider FTL travel - and that it will in fact bring to light compute method's never heard of - that far exceed the speed of anything we could imagine today.

techxplore.com

Researchers build microscopic biohybrid robots propelled by muscles, nerves

Researchers have developed soft robotic devices driven by neuromuscular tissue that triggers when stimulated by light—bringing mechanical engineering one step closer to developing autonomous biobots.
techxplore.com techxplore.com

Also, self replicating - bio hybrid nanotech; another facet of molecular engineering that will find cohesion with molecular computing.
Click to expand...
eot said:
I actually work in quantum information science and I can confirm this is 100% tales from your ass
Click to expand...
Nhranaghacon said:
As a Computer Scientist that helped write the white sheet for a Quantum Bridge, that in fact would guide molecular deficiencies towards a Quantum Tunnel for no other reason than to create cheap compute, even if all particles chauffeured to said tunnel were not intended to end up there - simply because such a method would bolster cheap analog computation method's. I find myself wondering what type of Quantum Engineer think's he has it all figured out - when you obviously have demonstrated otherwise. Quantum Mechanics make about as much sense as your post, Molecular Compute will far exceed all form's of compute - aside from the newer form's which it creates.

Case in point, you are going to vet me by asking a number in the form of Qubit's.

What could that number be....

33 Qubits.

That is intelligence community data for you sir. Good day.
Click to expand...

giphy.gif
 
-Minsc-

-Minsc-

Member
All those fancy new SSD's I bought are now useless.

Nhranaghacon said:
As a Computer Scientist that helped write the white sheet for a Quantum Bridge, that in fact would guide molecular deficiencies towards a Quantum Tunnel for no other reason than to create cheap compute, even if all particles chauffeured to said tunnel were not intended to end up there - simply because such a method would bolster cheap analog computation method's. I find myself wondering what type of Quantum Engineer think's he has it all figured out - when you obviously have demonstrated otherwise. Quantum Mechanics make about as much sense as your post, Molecular Compute will far exceed all form's of compute - aside from the newer form's which it creates.

Case in point, you are going to vet me by asking a number in the form of Qubit's.

What could that number be....

33 Qubits.

That is intelligence community data for you sir. Good day.
Click to expand...
I honestly can not tell if that's real world technobabble or sci-fi technobabble.
 
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