What I would like to ask is why is computer hardware so base.
In that with the engineering potential that I hope exist the hardware barley advances each year.
Granted small improvement have taken place each year that offer more power or other.
What about the basics of what the hardware is being used for?
I speak mainly as to the consumer side of things but if similar hardware is being deployed on the corporate side then much could be wanted.
-----
So To Delve In.
What are the limits in the desired uses of any products?
What direction has been taken a path down and for what purpose?
ex: CPU-litho shrink, change in design,other?
What is at the core that is limiting unlimited processing power in a cpu or gpu or other?
Would that be something to set out after?
Here is some going into depth now.
CPU- Issues? Heat? Why? Resistance? Why? Other? Why?
Have the CPU manufacturers looked at every single portion of there chip and measured the resistance in that
portion? What about the motherboard?
If certain portions of chips had changes.. increases in size/increase in material used and a even balance was produced what would the end result be?
-------
CPU's-
You that design and make them.
Look for energy build and lack as the energy flows through the chip.(under: Low Load/Medium Load/Full Load/Max)
Change those areas and you may have a huge with possible no cap increase in what your chip can do.
Motherboards Manufacturers-
Look at where the cpu connects to your boards as well as where junctions are.
Where other components connect.
You may find high resistance, or vacuums. (under: Low Load/Medium Load/Full Load/Max)
Fix a few of these and heat may soon become a thing of the past.
Also the connections that are used to connect the components.
PCIe for ex. Have you measured it under full to past max load and looked at the connecting components?
You may find many bottle necks across your boards along similar lines. (energy build up or vacuums)
GPU's-
Similar to CPU's there may be simple build ups, missing uses/connections/energy flow that hinder your performance by many hundred to thousand folds. Consider looking at each part. (under: Low Load/Medium Load/Full Load/Max)
Components on system boards-
Look into them and find the bottlenecks or other?
(under: Low Load/Medium Load/Full Load/Max)
usb2-speed vs usb3 speed?
solution? solution fix to problem not fully understood cause?
Modification to usb2 that is different than to usb3 result- many multiple times faster than usb3.
(under: Low Load/Medium Load/Full Load/Max)
Power Supplies-
Check you wire from plug to your box.
Depending on what your using you may be loosing more than you know 1/2-2/3 the way down the power cord.
Check your energy converters?
Fuses?
(under: Low Load/Medium Load/Full Load/Max)
You may be able to get 1600-3000 watt equivalents out of 300-600+watts of currents energy ratings.
Look and find.
Why are wires present going from desktop power supply to the components?
Transfer power?
In wall wiring?
Jack/set of jacks (set standard?).
Side of power supply or external connector?
Transfer power through wiring in case?
Connection jacks set locations under mother board lock into?
Other locations?
Cooling-
Liquid cooling with no liquid entering the case?(freezer type/other)
Cooling from an external source with cooling pipes run into the system insulated?
Design and running of your piping.
Cooling-Video cards.
Thermal Barrier behind GPU? Heatsink behind GPU?
Proper thermal management of heat pipes.
If the heat is building up in one area move it collect it?
If it's not being down why? You have the tools modify them.
Cooling CPU-
Heat rises?
CPu heat sinks set on top of processor?
In most systems heat can travel up between the heatsink and the processor?
Many solutions--
Boards have processors that lie horizontal.
Board/heatsinks that seal the heat in to be transferred to cooling structures.
Heatsink/board combo that have a heat sink that engulfs the cpu/gpu on all sides.
!heatsink! processor cpu
!-----------! --------- barrier ---------thermal transfer material(copper/other)
! !cpu ! ! board ---------barrier
! !-------!! board
board
heatsink - --------
cpu !!piping
Board !!
cap- heat trapping/in connect with or without heatsink
The solutions are present.
Do unknown resolution of the solution keep those creating from completing?
Heat pipping new issue --- known solution <+/- 100 ,,,,Unknown solutions > the unknown.
Differnt path? What is the goal? What is the core to find the goal? Even if it isn't the current goal at hand?
Cooling Cases-
Channels in a case?
Air pumped into a case through channels in a cases chassis?
Air cooled in route along cooling piping?
Directed in compressed air into onto location to be cooled?
Vacuum connected to heat producing components?
Copper tubing channeling running through the case?
laptop and desktop?
Thermally insulating heat pipes laptop and desktop?
Thermally insulating chassis laptop and desktop?
Running laptop cooling through channels air tight under pressure?
Multi cooling solutions for heat producing components dependent on heat levels produced in each heat pipe cluster.
Better fans(many more efficient designs exist.)
HDD's-
You have your problems the solutions are all around you.
More on this later.
(under: Low Load/Medium Load/Full Load/Max)
Optical Drives-same As HDD
Ram-can be same as HDD
(under: Low Load/Medium Load/Full Load/Max)
Interface controllers- Sata/other similar to usb2-usb3--plenty of speed if found.
(under: Low Load/Medium Load/Full Load/Max)
Cables-
What is the current purpose of the metal shielding liner in cables?
What effect does it have on signal/energy transfer?
How does everything perform without that?
Power cable design? With or Without/Other?
(under: Low Load/Medium Load/Full Load/Max)
-
Off Note:
Power lines in the power grid. How much energy bleeds of between posts? what kind of shielding other?
causing or not?
Something to look into is the high amount of energy that may be being transferred when the cable get close to the pole/post /other that is supporting it....grounding.
-
Video Displays--- many solutions what is the desire-- many new types flexible/curved/other
What is the point of a display?-I touch some on that later.
Resolution? Not sure the current technique? pixels based?
What need to be shown? Images? Light?
Many solutions is there really a need yet?
One example-
Light- speed of light. pixel change-slower?
Source light behind image- channels-shuttered/other?
example:
source
blue/green/red
\\//\\/ channels direct light.
colors constant change as fast as light can be opened or closed.
3d displayed on a 2d type screen. Explained somewhat below.
.
.
.
The core of the solutions-all the way to the solutions are here now to anything you may want.
All that you may need to do to find your solutions is take a step back and look at your problems a different way.
Maybe more base?
I write this and share whats below in hope that the development that can be done will soon start being seen as it can be done. And maybe with less effort than is know.
------------------------------------------------------------------------------------------------------------------
Any Limit That Is Still There Is Because You Haven't Taken The Time To Figure Out Why It Is A Limit.
-product upgrade cycle/cost/life of product/
-component limits/introduction of new components/design time/testing time/ fab changes
-Any problem/limit you have there is a solution/
Even the ones you say that is the way it is, or I wid=sh this could do this or that.
Adding and editing this in text format is still a pain why?
\\// /\/\
----- -____
\\// \\//
Try producing this and editing this in an email client/other... Try moving the set on the right over or down on line.
How many problems with possibly simple solutions do we see every day that go unanswered
and why?????
In that with the engineering potential that I hope exist the hardware barley advances each year.
Granted small improvement have taken place each year that offer more power or other.
What about the basics of what the hardware is being used for?
I speak mainly as to the consumer side of things but if similar hardware is being deployed on the corporate side then much could be wanted.
-----
So To Delve In.
What are the limits in the desired uses of any products?
What direction has been taken a path down and for what purpose?
ex: CPU-litho shrink, change in design,other?
What is at the core that is limiting unlimited processing power in a cpu or gpu or other?
Would that be something to set out after?
Here is some going into depth now.
CPU- Issues? Heat? Why? Resistance? Why? Other? Why?
Have the CPU manufacturers looked at every single portion of there chip and measured the resistance in that
portion? What about the motherboard?
If certain portions of chips had changes.. increases in size/increase in material used and a even balance was produced what would the end result be?
-------
CPU's-
You that design and make them.
Look for energy build and lack as the energy flows through the chip.(under: Low Load/Medium Load/Full Load/Max)
Change those areas and you may have a huge with possible no cap increase in what your chip can do.
Motherboards Manufacturers-
Look at where the cpu connects to your boards as well as where junctions are.
Where other components connect.
You may find high resistance, or vacuums. (under: Low Load/Medium Load/Full Load/Max)
Fix a few of these and heat may soon become a thing of the past.
Also the connections that are used to connect the components.
PCIe for ex. Have you measured it under full to past max load and looked at the connecting components?
You may find many bottle necks across your boards along similar lines. (energy build up or vacuums)
GPU's-
Similar to CPU's there may be simple build ups, missing uses/connections/energy flow that hinder your performance by many hundred to thousand folds. Consider looking at each part. (under: Low Load/Medium Load/Full Load/Max)
Components on system boards-
Look into them and find the bottlenecks or other?
(under: Low Load/Medium Load/Full Load/Max)
usb2-speed vs usb3 speed?
solution? solution fix to problem not fully understood cause?
Modification to usb2 that is different than to usb3 result- many multiple times faster than usb3.
(under: Low Load/Medium Load/Full Load/Max)
Power Supplies-
Check you wire from plug to your box.
Depending on what your using you may be loosing more than you know 1/2-2/3 the way down the power cord.
Check your energy converters?
Fuses?
(under: Low Load/Medium Load/Full Load/Max)
You may be able to get 1600-3000 watt equivalents out of 300-600+watts of currents energy ratings.
Look and find.
Why are wires present going from desktop power supply to the components?
Transfer power?
In wall wiring?
Jack/set of jacks (set standard?).
Side of power supply or external connector?
Transfer power through wiring in case?
Connection jacks set locations under mother board lock into?
Other locations?
Cooling-
Liquid cooling with no liquid entering the case?(freezer type/other)
Cooling from an external source with cooling pipes run into the system insulated?
Design and running of your piping.
Cooling-Video cards.
Thermal Barrier behind GPU? Heatsink behind GPU?
Proper thermal management of heat pipes.
If the heat is building up in one area move it collect it?
If it's not being down why? You have the tools modify them.
Cooling CPU-
Heat rises?
CPu heat sinks set on top of processor?
In most systems heat can travel up between the heatsink and the processor?
Many solutions--
Boards have processors that lie horizontal.
Board/heatsinks that seal the heat in to be transferred to cooling structures.
Heatsink/board combo that have a heat sink that engulfs the cpu/gpu on all sides.
!heatsink! processor cpu
!-----------! --------- barrier ---------thermal transfer material(copper/other)
! !cpu ! ! board ---------barrier
! !-------!! board
board
heatsink - --------
cpu !!piping
Board !!
cap- heat trapping/in connect with or without heatsink
The solutions are present.
Do unknown resolution of the solution keep those creating from completing?
Heat pipping new issue --- known solution <+/- 100 ,,,,Unknown solutions > the unknown.
Differnt path? What is the goal? What is the core to find the goal? Even if it isn't the current goal at hand?
Cooling Cases-
Channels in a case?
Air pumped into a case through channels in a cases chassis?
Air cooled in route along cooling piping?
Directed in compressed air into onto location to be cooled?
Vacuum connected to heat producing components?
Copper tubing channeling running through the case?
laptop and desktop?
Thermally insulating heat pipes laptop and desktop?
Thermally insulating chassis laptop and desktop?
Running laptop cooling through channels air tight under pressure?
Multi cooling solutions for heat producing components dependent on heat levels produced in each heat pipe cluster.
Better fans(many more efficient designs exist.)
HDD's-
You have your problems the solutions are all around you.
(under: Low Load/Medium Load/Full Load/Max)
Optical Drives-same As HDD
Ram-can be same as HDD
(under: Low Load/Medium Load/Full Load/Max)
Interface controllers- Sata/other similar to usb2-usb3--plenty of speed if found.
(under: Low Load/Medium Load/Full Load/Max)
Cables-
What is the current purpose of the metal shielding liner in cables?
What effect does it have on signal/energy transfer?
How does everything perform without that?
Power cable design? With or Without/Other?
(under: Low Load/Medium Load/Full Load/Max)
-
Off Note:
Power lines in the power grid. How much energy bleeds of between posts? what kind of shielding other?
causing or not?
Something to look into is the high amount of energy that may be being transferred when the cable get close to the pole/post /other that is supporting it....grounding.
-
Video Displays--- many solutions what is the desire-- many new types flexible/curved/other
What is the point of a display?-I touch some on that later.
Resolution? Not sure the current technique? pixels based?
What need to be shown? Images? Light?
Many solutions is there really a need yet?
One example-
Light- speed of light. pixel change-slower?
Source light behind image- channels-shuttered/other?
example:
source
blue/green/red
\\//\\/ channels direct light.
colors constant change as fast as light can be opened or closed.
3d displayed on a 2d type screen. Explained somewhat below.
.
.
.
The core of the solutions-all the way to the solutions are here now to anything you may want.
All that you may need to do to find your solutions is take a step back and look at your problems a different way.
Maybe more base?
I write this and share whats below in hope that the development that can be done will soon start being seen as it can be done. And maybe with less effort than is know.
------------------------------------------------------------------------------------------------------------------
Any Limit That Is Still There Is Because You Haven't Taken The Time To Figure Out Why It Is A Limit.
-product upgrade cycle/cost/life of product/
-component limits/introduction of new components/design time/testing time/ fab changes
-Any problem/limit you have there is a solution/
Even the ones you say that is the way it is, or I wid=sh this could do this or that.
Adding and editing this in text format is still a pain why?
\\// /\/\
----- -____
\\// \\//
Try producing this and editing this in an email client/other... Try moving the set on the right over or down on line.
How many problems with possibly simple solutions do we see every day that go unanswered
and why?????
