The END of atomic number 14 & way forward for Computing

 we area unit finally setting out to see the tip of progression in chip technology-

It's setting out to defect from Moore’s law that is formed nearly four decades past transistors as we have a tendency to all understand area unit easy switches which permit your pc to run however there's a limitation to however tiny they will get these easy switches area unit just about incorporated into each crucial part of your pc together with the SSD system memory GPU and most significantly the processor there is attending to be quite an few issues related to these very tiny styles however

Let’s simply examine it from a mathematical perspective currently on paper the tiny size you'll be able to get to is that the dimension of a atomic number 14 atom that is. Nanometers and immediately we have a tendency to area unit

Hybrid Chips

Achieving a couple of 3 micromillimeter style thus somewhere between 3 and. There’s attending to be a period to the progression of creating chips smaller chip Makers area unit perpetually making an attempt to search out out a way to dodge this final limitation With totally different forms of gate setups and obvious multi-core Integra vision however the End is coming back and therefore the finish of Moore's Law is inevitable this leads ME to 5 Alternative choices which can replace Si 14|chemical element|element|semiconductor|semiconducting material} in itself thus starting at number Five and it is also in all probability one in every of the weirdest choices out there and it is the Liquid semiconductor unit but this liquid thought is much from typical AN It’s AN so a outlandish various to atomic number 14 these circuits area unit made from Gallium and atomic number 77 and that they will react with totally different voltage inputs thus once The voltage drops in one direction the droplets approximate and once the Voltage is applied in a very totally different direction the droplets open up this Method isn't any secret and multiple establishments area unit experimenting with this Type of liquid metal semiconductor unit ultimately you'll be able to program totally different Shapes through magnetism fields however confine mind that this doesn't Overcome the restrictions of atomic structure i do not suppose these things is Going to replace atomic number 14 altogether however this might lead into some terribly Revolutionary artificial intelligence that we have a tendency tore ne'er formed before we get to range four Not all geophysical science there area unit some distinct benefits of solid state Drives compared to magnetic exhausting drives however I still suppose it's quite fascinating To actually see our Winchester drive work with Millions of magnets incorporated within it currently a process chip will utilize an identical kind of magnetic technology this is able to work due to moving no scale tornadoes of magnetism which might be flowed through complicated networks of Nano wires in a very manner that reproduces the behavior of logic gates thus if a well Rotates dextrorotary or represents a and counterclockwise means that zero however additional Importantly the vortices area unit non-volatile and that they retain their tasteful Without any power this sort of Nano magnetic chip would Use little or no energy and it will provides it a chance that this sort of Technology makes it a robust candidate for replacement atomic number 14 within the long run Future at range 3 optical computers so as to create these quite computers Work on light-weight you would like optical transistors however there is a terribly huge Problem once it involves light-weight which is light-weight features a comparatively giant Wavelength obscurity even on the brink of this micromillimetre threshold win by atomic number 14 Right now but there's a stimulating issue known as the surface Plasmon these area unit weird particles that may be excited on the surface of Materials so that they will travel sort of a gauge boson and therefore they're quicker than a Typical atomic number 14 pc however additional significantly it's additional economical than a Silicon counterpart final light-weight computers is up to, times Faster than typical computers and for processors that might mean that it's Running into the rate clock rate that is simply mind-blowing Even though there area unit some firms out there that area unit exploitation light-weight technology we have a tendency to Are still quite an ways that faraway from creating a plasma and lightweight pc at number? 

Two the quantum pc there has been loads of publicity round 

the potential of Quantum computers with the power to represent a superposition quantum state They can work countless computations of once one more reason why they are thus Fast as a result of every qubit that is additional to the machine exponentially grows the Calculative ability of the pc however they are doing face a couple of challenges one being Is that they have to be cryogenically cooled to grade close to temperature Which is very cold something that and you lose the property of the Qubit another challenge is that quantum computers solve issues And that is that there aren't huge information machines they will solely take care of Specific issues and that they aren't a replacement to traditional computing thus 

LIGHT COMPUTIPJ

They may be sensible at predicting the securities market or maybe cracking a code as a result of Of their ability to at the same time calculate these items however once it comes To booting Windows area unit taking part in an easy videogame they are not extremely that Practical and a classical algorithmic rule can in all probability win in a very sheer speed linear Calculation thus ultimately price computers can even have an area in bound Applications however they're going to not replace your typical personal computer Anytime shortly thus currently that we have a tendency to get to preferred you are in all probability asking well Is there something that is attending to replace atomic number 14 and that is a extremely Tough question a minimum of within the short future as a result of firms area unit Still making an attempt to introduce with atomic number 14 technology but there's one material out there which can replace atomic number 14 in bound applications and its known as metallic element compound these things may be a semiconductor compound and it's the power to conduct electrons cardinal Times additional with efficiency than atomic number 14 and it conjointly has higher temperature.

Variations metallic element nitrate will handle higher voltages and temperatures thanks To its bandgap and primarily the band gap is organized during a solid state wherever No electrons will exist it is the reason why semiconductors will work as a result of they Have glorious band gaps currently there are a couple of hurdles once it involves Ga Nitrate and one among them is being that Ga is often employed in depletion Type devices thus once a semiconductor would be stuck on one position even if the Gate voltage is zero thus that is a large downside Now I still assume that they are getting to overcome this hurdle however this additionally Brings Maine to a different material that i need to speak regarding which is graphene And graphene is extremely sensible at conducting electricity however it's no natural bank Gap thus it cannot be naturally used as a semiconductor there has been analysis Towards bedded materials that homes graphene within and permits it to possess a Band gap however it still wants plenty of labor to induce it into formed state Where it are often used as a semiconductor if we have a tendency to take it one step additional into the Rabbit hole there's truly a recent plan regarding combining graphene and plasma And technology affirmative yet again ar spotlight during a totally different idea to Create logic gates and that i simply have this strange feeling that plasmids are going to be the key to successive generation of future computing thus 2 plasmids and 2 Different ribbons will move in their electrical fields graphic makes it doable For plasmas to leap into a unique ribbon thus this might on paper work As a quantum gate and so ready to|this may|this might|this could} be able to exploit a number of the Benefits of sunshine computing and as we have a tendency to all apprehend graphene may be a surprise bail Which may be a one-dimensional layer however it is also terribly arduous to provide and Maintain during this kind i'll be creating a complete video dedicated towards Graphene and its associated issues except for currently graphene isn't getting to be used In laptop chips it would be within the future ultimately we are going to most likely not be seen Any short replacement to semiconducting material because the infrastructure for production Distribution and sale of semiconducting material chips are found out and running for many years Replacing all that stuff would need years to not mention billions of bucks In investment even so it's solely a matter time once we can see the stop of Progression in semiconducting material technology it is not very a matter of if it's only 1 So let's summarize the potential computing technologies during this video the First may be a liquid semiconductor found out which may cause reconfigurable Circuits and even a revolution in artificial intelligence it still faces an equivalent Problems as semiconducting material with reference to atomic structure thus it's most likely not getting to Be a replacement to all or any computing applications the second isn't a Magnetic design these sorts of computing devices would be alter energy Efficient and that they could also be sensible in mobile applications like hand-held devices or Wearable sensors that last for years even if it's quite evident that.

Future of Computing

They’re energy economical it's still debatable whether or not they will surpass Silicon and sheer process clock rates the third and my personal favorite is the plasma on based mostly light-weight laptop this might replace each element that relies on transistors and on paper it might show semiconducting material all at, once It’d be thousands of times quicker however it'll take many breakthroughs to induce the advancement within the technology even so this could become the holy grail of computing   the fourth is quanta computers they're already well-tried to be exponentially faster than typical computers in bound calculations however they are doing not have the practicability to switch typical semiconducting material computing perhaps {one day | at some point | in the future | someday | sooner or later | in some unspecified time within the future} in the future once we work out a way to build them sensible and each style of application except for currently quantum computers are solely sensible at specific applications finally we've a brief term answer that are various Materials and that they will show semiconducting material and be employed in transistors the frontrunners are ga nitrate and graphene these might push clock rates exponentially quicker however they need some hurdles to beat and they are more or less possible simply however semiconducting material can Eventually retardation in progression and there might be a large investment in These sorts of various materials clearly I did not embrace each style of future laptop which might embrace DNA and molecular computers however ultimately It’s getting to be very exciting to examine what happens within the way forward for computing. I think it's getting to be a mix of of these sorts of computers for

Different applications however it's getting to be attention-grabbing to examine what truly replaces the microcomputer.