Max Computer Speed: Is There a Limit?

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In summary, the conversation discusses the theoretical limit of how fast a computer can be, which is determined by the maximum speed of light. The participants also discuss potential solutions to surpassing this limit, such as using parallel processors and improving human-computer interfaces. They also mention the potential for quantum computers to greatly increase processing speed. However, it is noted that the limit of a computer's capabilities is not solely determined by its hardware, but also by the programs and information that are available for it to process.
  • #1
garytse86
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there must be a theoretical limit of how fast a computer can be, since the maximum speed is the speed of light. so what would happen after that? Everyone will just buy one computer with the best stuff, i.e. graphics card (1*10^999999999999 MB) and ram, and pass it on to the next generations forever?
 
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  • #2
One thing you could do if you got a fastest processor is just start putting them in parallel to make yet faster clusters. In fact they could just keep adding this parallel capability within a single unit, so even if you got the fastest fabrication procedure you might still be able to parallize it indefinently.
 
  • #3
Originally posted by garytse86
there must be a theoretical limit of how fast a computer can be, since the maximum speed is the speed of light. so what would happen after that? Everyone will just buy one computer with the best stuff, i.e. graphics card (1*10^999999999999 MB) and ram, and pass it on to the next generations forever?


paralell processors is your answer.

If a processor is processing at the speed of light then just use parallel ones forever until each one is computing the least possible smallest amount of information...


And bTW - no computer will ever calculate anything near the speed of light. It would cause the mass to be so much it would fall through the earth.
 
  • #4
I thought a quantum computer would calculate over the speed of light, simply because of the nature of quantum uhm, stuff.

I think there is a limit to hardrive space. But even then, just buy another harddrive.
 
  • #5
I don't see what you all mean by calculate at speed of light. What does this mean?
 
  • #6
how can something process faster than light? (is it even possible?)
 
  • #7
If we can slow down time in the future we could contain the light computer inside a time field after giving it something to do and it would calculate it faster relative to our time. taadaa.
 
  • #8
Another way to speed the computing process is to shorten the time it takes to input data. Right now computers are very fast, but it still can take hours to input data for a spread sheet or write a letter, or draw a building using CAD.

I think that the future of computing is making the interface invisible to the user, by just talking, hand drawing, or thinking the commands. We have voice recognition now, but it still needs refinement; drawing pads are okay, but the computer has trouble deciding what it is seeing; and cache has the ability built into anticipate which pieces of program to hold that will be used again soon, but this is still limited.

The human to machine interface is where real leaps in speed still need to occur. Do we need a lightspeed computer when the average user can only type at twenty or thirty words a minute?
 
  • #9
I agree with ya, but I also think that the interface will come along with the technology.

I do know that one of the major reasons why computers have problems interpreting analog information (drawing, face recognition, etc) is because computers process digital information. Life is analog, so unless we can figure out a way to build analog computers (us) that process on the same speed as current pcs, I'd say we will reach a limit in a short time as to just what a computer can do.

And that, is why more power is needed. You know, voice technologies have increased like crazy in the past 5 years. Why? I'd say due to the massive jump in cpu speed, increase in fsb, better ram, etc.

And I'm pretty sure Microsoft is working on technology to give total control to your computer through a mind link type device. Maybe it was on new scientist or something of the sort.
 
  • #10
I think the limit to be reached is not what the hardware is capable of - superconductors, qubits etc allow computers that are staggeringly powerful. The limit would be from us - what we want, what we can take, what information we can feed it.

The fastest computer in the universe is just a heap of junk if you have no programs to run on it. And the output from computers would very likely exceed what the human body can experience. An excess of detail, perhaps?
 
  • #11
Originally posted by megashawn
I agree with ya, but I also think that the interface will come along with the technology.

I do know that one of the major reasons why computers have problems interpreting analog information (drawing, face recognition, etc) is because computers process digital information. Life is analog, so unless we can figure out a way to build analog computers (us) that process on the same speed as current pcs, I'd say we will reach a limit in a short time as to just what a computer can do.

And that, is why more power is needed. You know, voice technologies have increased like crazy in the past 5 years. Why? I'd say due to the massive jump in cpu speed, increase in fsb, better ram, etc.

And I'm pretty sure Microsoft is working on technology to give total control to your computer through a mind link type device. Maybe it was on new scientist or something of the sort.

Yes. I agree.
 
  • #12
I've read that scientist are working on making a Quantum Computer that can perforn a task in seconds that takes a supercomputer years to do. I don't know if that's anywhere near the speed of light, but it is pretty fast.
 
  • #13
Actually, I'd like a reply to grady's question too... how do you relate processing speeds (which is usually given in terms of processor clock cycles per second, Hz) to the speed of light? If you are talking about the carrier of information within the chips, then you would notice that the "speed" of computers has never changed - the distance traveled to go through each switch has. In the same way, c wouldn't be a practical barrier to computing, as it can be circumvented with advanced switchs and miniaturisation. Quantum computers don't get their speed from going over c. They do it because they don't have the practical weaknesses of silicon computing, and that qubits allow multiple data storage, and perhaps even fuzzy logic computing, allowing switches that are much more efficient.
 
  • #14
Originally posted by garytse86
there must be a theoretical limit of how fast a computer can be, since the maximum speed is the speed of light. so what would happen after that? Everyone will just buy one computer with the best stuff, i.e. graphics card (1*10^999999999999 MB) and ram, and pass it on to the next generations forever?
it defintly woulden go that high not becuase of physics but becuase we are too slow to notice like i really can't tell the diffrenace betwwen a 1.8 ghz and a 2.4 ghz
 
  • #15
Bus bottleneck

i think the main limiting factor for traditional computer model will be the bus paradigm. no matter how fast the cpu is, no matter many cpus are connected in parallel, it will always bog down to how the data that is to be processed transported to the processor and the processed result returned for display/stored/etc.

is there a way to make N-N connections amongs computer components? there are numerous tha have been studied (mostly in the family of hypercubes). however i imagine that someday (or someone has already implemented it?) the wired connections will be replaced by lasers (and further on by protein-based/biological computer?). the connections topology will be in 3-D where the restriction of overlapping electrical circuits will non-issue. switching from one connection to another will be performed with mems or other to-be invented optical switching methods.

granted these computers will be much more complex than today's ones. but so is einstein's relativity (and later quantum mechanics) compared to Newtonian mechanics.
 
  • #16
I would like to stress that there is no limit to the calculation speed of a computer, as the speed of processing is not related to the speed of light.
 
  • #17
Originally posted by fffbone
I would like to stress that there is no limit to the calculation speed of a computer, as the speed of processing is not related to the speed of light.
There may be no limit because of the speed of light, but there are limits for other reasons - like the size of the atom. There are only a certain number of transistors you can pack into a silicon chip. And then there's heat dissipation...

5 years is what I give it before we see a major slowdown in Moore's Law (which predicts doubling of the number of transistors and by implication computing power every 18 months).
 
  • #18
Someone said you can't calculate at the speed of light. This is incorrect. There is absolutely no reason why you can't have a chip passing signals of light rather than current. The computer would NOT become too massive and fall through the Earth. The computer itself does not move at C, only the light does, and since light moves that fast anyway, it won't make any difference.

And as stated, not only can we have it using light, but we can do it all in parallel. Parallel processing is why the human brain is still way faster than any computer on Earth.
 
  • #19
Sorry, Let me rephrase that, as the computing speed of the computers are not dependent on c, therefore, the calculation speed of a computer will not be limited by c. But as russ_watters said, there are other elements that will limit the calculation speed of a computer.

By the way, I would like to ask adam, why would anyone want to build a computer that sends light signals?
 
  • #20
Originally posted by fffbone
By the way, I would like to ask adam, why would anyone want to build a computer that sends light signals?
Since high end storage and transmission media are light based and light travels faster than electonic signals, its a desirable direction to go.
 
  • #21
Originally posted by fffbone

By the way, I would like to ask adam, why would anyone want to build a computer that sends light signals?
People are aleady doing optical storage, I believe. Add an optical bus, and optical processing, and it's all quite fast. I would think it would reduce heat in the system too, maybe reduce power costs.
 
  • #22
Computing at the speed of LIGHT

Originally posted by grady

I don't see what you all mean by calculate at speed of light. What does this mean?

There is technology now that can use optical light to compute at 8 Tera (8 billion) calculations per second. It is a "fixed-point processor comprised of three elements: a Vector Matrix Multiplier (VMM) capable of performing vector-matrix operations at a rate of up to 8000 Giga MAC operations per second; a Vector Processor Unit (VPU) capable of performing 128 Giga operations per second and an industry standard DSP (TI TMS320C64xx) for control and scalar processing (SPU)."

Take a look at the following site for information and a demo can be found at the bottom of the description paragraphs for information on the page.

http://www.lenslet.com/products.asp

See CNN report on this product at

http://edition.cnn.com/2003/TECH/ptech/10/31/israel.lenslet.reut/
 

1. What is the current maximum speed of computers?

The current maximum speed of computers is measured in gigahertz (GHz) and can range from 2-5 GHz for most consumer computers, while high-performance computers can reach speeds of up to 10 GHz.

2. Is there a limit to how fast computers can get?

Yes, there is a limit to how fast computers can get. This is due to physical limitations such as heat dissipation, power consumption, and the speed of electrical signals in computer components.

3. Can advancements in technology increase the maximum speed of computers?

Yes, advancements in technology can increase the maximum speed of computers. This can be achieved through improvements in processor design, materials used in computer components, and advancements in cooling technology.

4. Are there any alternative ways to improve computer speed besides increasing clock speed?

Yes, there are alternative ways to improve computer speed besides increasing clock speed. This can include utilizing multiple processors, improving memory access times, and optimizing software and algorithms.

5. What is the future of computer speed?

The future of computer speed is difficult to predict, but it is likely that advancements in technology will continue to push the limits of computer speed. This could include the development of new materials, alternative methods of computing, and further optimization of existing components.

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