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\$\begingroup\$ I have used similar cards in the past, still have a 286, 386 and 486 on seperate ISA/ZORRO cards for my Amigas, also have a 486 pci card (ancient and cant remember the make atm, will look it up when I get home) and they work wonderfully provided you either have custom software to utilise them with VMs or are happy to run a single tower cluster compute system:) The card I linked.


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For example, you can install an x1 expansion card in any kind of PCI Express slot; it doesn’t need to be installed in an x1 slot.. (available inside the CPU or inside the motherboard chipset.


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\$\begingroup\$ I have used similar cards in the past, still have a 286, 386 and 486 on seperate ISA/ZORRO cards for my Amigas, also have a 486 pci card (ancient and cant remember the make atm, will look it up when I get home) and they work wonderfully provided you either have custom software to utilise them with VMs or are happy to run a single tower cluster compute system:) The card I linked.


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After purchasing the card reader you remove the SD card from the camera and insert the card into the card reader. Next insert the card reader in a USB slot in your computer. Then pretty much the same thing happens on your computer.


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You are using an cpu card slot version of Internet Explorer.
Some features may not work correctly.
They sort of did, in the days before PCI.
The Processor Bus Era Until fairly recently, every processor hooked into the world outside the CPU with a processor bus.
The whole system on the early PC is connected this web page some way to this processor bus.
The PC-XT bus, and the PC-AT bus that followed later dubbed the Industry Standard Architecture Bus began life as simple extensions of the main board bus plus a few extra management signals interrupts to the PIC, DMA via the DMA controller.
That worked for awhile, of course.
But eventually, there were very good architectural reasons to change the CPU bus.
If you gave it its own RAM and ROM, you actually could.
Some early industrial PCs worked just this way: you had a PC on a card and lots of expansion slots.
As systems got more complex, they needed increasingly complex logic between the system bus, which got faster and went through various architecural changes, and see more expansion bus, which by definition has to remain locked to a standard of some kind.
The Purpose-Designed Local Bus Replacement: PCI In the early 1980s, Intel had a pretty clever bit of thinking on this.
They saw that every CPU-bus-based expansion bus eventually had to be mated to a different processor bus, and the result was inefficiencies, restrictions, complexity, etc.
Intel set out to create a bus that was suitable to these expansion devices on its own, separate from any CPU bus.
And that was the original PCI bus.
So once we got PCI in system, it was something like this.
The CPU or CPUs shared a common CPU bus with memory.
And that was part of the PCI design, and a pretty clever thing: by definition, your system could have a large number of different PCI buses.
This allowed the design of the CPU subsystem to exist completely independently of the rest of the PC….
It was a fairly necessary step in PC evolution.
There were some systems that did PCI essentially as the only system bus.
In the 1990s, I was working for a company called PIOS AG, and designed a computer system cpu card slot actually did use the PCI bus as the main system bus.
Above is a CPU card designed by Thomas Rudloff for this PC.
The edge connector could not be a standard PCI slot, because it was necessary to have a number of additional system control signals, things that could not be done efficiently using just PCI.
For example, each PCI slot has four interrupt signals.
And there are more than four in the system.
The Move Away From the Shared Bus This CPU-on-a-card idea actually caught on in a more limited form in the greater PC industry, for a little while anyway.
Now, as stated, most CPUs have that processor bus.
The 8088 and early 8-bit computers had an 8-bit-wide data bus, while the Pentium went to a 64-bit bus.
Most CPUs by then had a cache memory on-chip, often on a wide bus, but limited in size.
Larger caches could exist off-chip.
Eventually, that main system bus was just too slow to be good for cache.
So they added another bus to the CPU, just for an external cache.
This could be faster and wider than the main bus, just a very tight private agreement between the CPU and the cache memory cpu card slot, designed specifically for one another.
Not coincidentally, this is about the time CPUs started showing cpu card slot on modules, Slot 1 from Intel, Slot A from AMD, etc.
The CPU and cache were on the card, with just the CPU front-side bus coming off to the rest of the PC.
Unlike previous front-side or system buses, EV6 was not intended to be a shared bus — it was a point to point connection between a CPU and a North Bridge.
That allowed the memory controller and the CPU buses to evolve in their own direction, no more reliance on one another.
And always with the idea of making things much faster.
In this era, the EV6 bus managed 1.
This was possible because the complete characteristic of the bus, only one driver and one load, allows for much tighter margins… similar to the idea of the Advanced Graphics Port AGP.
The PCI Bus itself has stuck around for a long, long time in this industry.
But PCI-X systems tended to be very expensive, really only ever caught traction in higher-end servers.
This did a couple of cool things.
For one, it shrunk down the demands of the North Bridge to the point where the North and South bridges could actually merge in some systems.
Putting that memory controller on-chip allowed first for a more efficient memory interface, fewer trips on and off chips.
And maybe the coolest thing of all: Hypertransport was not only not a shared bus, it was not a parallel bus, but rather, a high speed card download free tablet games for bus.
And each Hypertransport link was one-way… you needed at least two for any connection, one for reads, one for writes… and these ran independently from one another.
In a way, somewhat like a very, very fast network connection… and in fact, Hypertransport is an open design that came from the world of network computers.
Going to a serial bus made each link smaller, physically, and allowed AMD to include multiple HT links per cpu card slot />Now, think about the idea of putting a processor like that on a slot card.
But then you have a configuration problem… your CPU has a number of HT links on it.
But what if I have a few of these slots?
How should that card route the various links?
This is where the idea of a main CPU on a card really starts to break down.
Intel developed similar technology.
Intel also, of course, cpu card slot this into a general purpose interconnect, the PCI Express link.
Each PCI Express 3.
So the CPU in my PC, the Intel i7—3930K, has 40 PCI express links built into the chip.
In a PCI bus, each device gets the bus for a fixed number of cycles, then gets kicked off.
So that one bus becomes a bottleneck, and the same thing would be true today with any single connection to the CPU.
How would that system, on a PCI Express card, run all those signals to PCI Express slots?
In the old ISA bus days, every pin on each slot was the same.
On a PCI Express slot, all of the PCI Express signals are different on each slot.
The card shown above is the Intel Xenon Phi, which contains 72 processors on a PCI express card, with their own memory.
The Embedded World When you leave the world of high-performance PC computing, you start to see things a little different.
Lower-end PCs, tablets, phones, and embedded devices like your home WiFi router typically use a System-on-Chip SOC.
MX6 chip from NXP which was Freescale and is now Qualcomm.
This is a multi-core ARM Cortex A9 chip, a bit slow for a phone or tablet today.
MX6 has a single PCI Express 2.
I design in PCI Express switches and PCI Express to PCI Bus bridge chips if I need more expansion than comes built-in.
If that ever became a limit, time for a faster embedded processor.
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First, you are quite right that RAM is the biggest one. Because a GPU has to share RAM bandwidth with the CPU, it simply cannot use nearly as much RAM. Worse, it is using RAM that is not optimized for GPU use, so the CPU, GPU, and RAMDAC all fight for the same precious bandwidth and the path between the GPU and RAM is much less direct.


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How to Install GRAPHIC CARD in PC in Hindi. ग्राफिक कार्ड कैसे लगायें.

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First, you are quite right that RAM is the biggest one. Because a GPU has to share RAM bandwidth with the CPU, it simply cannot use nearly as much RAM. Worse, it is using RAM that is not optimized for GPU use, so the CPU, GPU, and RAMDAC all fight for the same precious bandwidth and the path between the GPU and RAM is much less direct.


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Tim Fisher has 30+ years' professional technology support experience.
He writes troubleshooting content and read more the General Manager of Lifewire.
The central processing unit is the computer component that's responsible for cpu card slot and executing most of the commands from the free card games for other and software.
All sorts of devices use a CPU, including desktop, laptop, and computers, smartphones — even your flat-screen television set.
You may see many different names used to describe the CPU, including processor, computer processor, microprocessor, central processor, and "the brains of the computer.
A modern CPU is usually small and square, with many short, rounded, metallic connectors on its underside.
Some older CPUs have pins instead of metallic connectors.
The CPU or sometimes a "slot" on the.
The CPU is inserted into the socket pin-side-down, and a small lever helps to secure the processor.
After running even a short while, modern CPUs can get very hot.
To help dissipate this heat, it's almost always necessary to attach a heat sink and a fan directly on top of the CPU.
Typically, these come bundled with a CPU purchase.
Other more advanced cooling options are also available, including water cooling kits and phase change units.
Not all CPUs have pins on their bottom sides, but in the ones that do, the pins are easily bent.
Take great care when handling, especially when you're installing them onto the motherboard.
CPU Clock Speed The clock speed of a processor is the number of instructions it can process in any given second, measured in gigahertz.
For example, a CPU has a clock speed of 1 Hz if it can process one piece of instruction every second.
Extrapolating this to a more real-world example: a CPU with a clock speed of 3.
Running two processor units working side-by-side means that the CPU can simultaneously manage twice the instructions every second, drastically improving performance.
Some CPUs can virtualize two cores for every one physical core that's available, a technique known as.
Virtualizing means that a CPU with only four cores can function as if it has eight, with the additional virtual CPU cores referred to as separate threads.
Physical cores, though, do perform better than virtual ones.
CPU permitting, some applications can use what's called multithreading.
If a thread is understood as a single piece of a computer process, then using multiple threads in a single CPU core means more instructions can be understood and processed at once.
Some software can take advantage of this feature on more than one CPU core, which means that even more instructions can be processed simultaneously.
For a more specific example of how some CPUs are faster than others, let's look at how Intel has developed its cpu card slot />Just as you'd probably suspect cpu card slot their naming, Intel Core i7 chips perform better than i5 chips, which perform better than i3 chips.
Why one performs better or worse than others is a bit more complex but still pretty easy to understand.
Intel Core i3 chips don't have this capability.
Processor models ending in "K" can bewhich means this additional clock speed can be forced and utilized all the time.
Hyper-Threading enables the two threads to be processed per each CPU core.
This means i3 processors with Hyper-Threading support just four simultaneous threads since they're dual-core processors.
Intel Core i5 processors don't support Hyper-Threading, which means they, too, can cpu card slot with four threads at the same time.
Due to the power constraints inherent in devices that don't have a continuous supply of power battery-powered products like smartphones, tablets, etc.
Neither clock speed, nor simply the number of CPU cores, is the sole factor determining whether one CPU is "better" than cpu card slot />It often depends most on the type of software that runs on the computer — in other words, the applications that will be using the CPU.
One CPU may have a low clock speed but is a quad-core processor, while another cpu card slot a high clock speed but is only a dual-core processor.
Deciding which CPU would outperform the other, again, depends entirely on what the CPU is being used for.
For example, a CPU-demanding that functions best with several CPU cores is going to work better on a multicore processor with low clock speeds than it would on a single-core CPU with high clock speeds.
Not all software, games, and so on can even take advantage of more than just one or two cores, making any more available CPU cores pretty useless.
Another component of a CPU is cache.
CPU cache is like a temporary holding place for commonly used data.
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Whether your computer can run a operating system depends on the size of data units that the CPU can handle.
More memory can be accessed at once and in larger pieces with a 64-bit processor than a 32-bit one, which is why and applications that are cannot run on a 32-bit processor.
Each motherboard supports only a certain range of CPU types, so always check with your motherboard manufacturer before making a purchase.
CPUs aren't always perfect, by the way.

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A memory slot, memory socket, or RAM slot is what allows RAM (computer memory) to be inserted into the computer. Depending on the motherboard, there may be two to four memory slots (sometimes more on high-end motherboards) and are what determine the type of RAM used with the computer. The most.


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In order for a graphics card to not be bottlenecked by the connection *(i.e. the connection being too slow and holding it back), it would need at least sixteen lanes of pcie 2.0 connection. Adding onto the fact that you wouldn't have that is the fact that it would be going through an Express Card slot, which would further impact speeds.


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In the device manager, look for a device labeled “SD host adapter.” If you see it, your computer has a built-in SD card reader. If you can locate the slot but not the device listing, or see the listing but not the slot, contact your computer's manufacturer for more information.


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This content has beenand is no longer maintained by Indiana University.
Resources linked from this page may no longer be available or reliable.
PCMCIA is an acronym for Personal Computer Memory Card International Association; the acronym is pronounced as separate letters.
PCMCIA is a non-profit trade association and standards body consisting of some 500 companies.
PCMCIA cpu card slot developed a standard for small, credit card-sized devices, called PC cards, that are often used in notebook computers.
Adapters are available that allow PC cards to be used in desktop computer systems.
You can visit the PCMCIA web site at: In the past, the cards were known as PCMCIA cards, but they are now referred to as PC cards, PC card hosts, and PC card software.
PCMCIA refers to the association and standards body.
A PC cpu card slot slot is an expansion cpu card slot often found in notebook computers that allows for the easy and quick addition of a host of different devices.
Originally designed for adding memory to portable https://agohome.ru/card/fallsview-casino-players-card.html systems, the PC card standard has been updated several times since its original creation.
PC good jackson casino card regret are Plug and Play cpu card slot that are often hot-swappable i.
Windows NT, however, has more limited support for PC cards, and you cannot change cards on the fly.
Many systems will give a familiar beep sound from the computer's speaker when you remove or cpu card slot a card.
Differences between PC cards There are three different types of PC cards.
All three have the same rectangular size 85.
These cards are often used for modem, fax, Cpu card slot, and LAN cards.
Most notebook computer systems come with two PC card slots that allow for the use of two type I or type II PC cards and one type III PC card.
The PC card slots are stacked with one above the other.
Usually, type III PC cards fit only in the bottom slot.
Cardbus is an extension of the latest PCMCIA standard, which expands the bus bandwidth and throughput to 32 bits at 33MHz.
In contrast, the older PC card standard was 16 bits at cpu card slot />Cardbus is analogous to the PCI slots in desktops, while the older PC card standard is analogous to ISA.
The newer cardbus slot can cable card an older 16-bit PC card, but an check this out PC card slot cannot accept newer cardbus cards.
To tell if your PC card is cardbus, look on the interface end of the card.
Cardbus devices will have a notched metal plate on that end.
While not technically accurate, some vendors and technicians refer to the older style 16-bit PC card as PCMCIA in order to contrast it with 32-bit cardbus cpu card slot, which makes them sound like competing standards.
However, cardbus is an extension to the PCMCIA standard, not a replacement.
For additional information, see: ExpressCard The latest extension of the PCMCIA standard is called ExpressCard.
This standard is being built on the latest USB 2.
The aim is to increase speed and reduce size, cost, and complexity.
One of the ways it does this is to eliminate the PCMCIA Host Controller in favor of using the USB or PCI Express controller read more />For additional information, see:.

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PCI slots are engineered to allow a card's graphic processing unit (GPU) to bypass the computer's CPU entirely when addressing memory. This, combined with a throughput rate of up to 132 megabytes.


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A PC card slot is an expansion slot often found in notebook computers that allows for the easy and quick addition of a host of different devices. Originally designed for adding memory to portable computer systems, the PC card standard has been updated several times since its original creation.


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Broadax Systems, Inc. is a leading full-size PICMG1.0 single board computer supplier. The PICMG1.0 full-size slot single board computer is focused on multiple-slot PCI and ISA expansion demands.


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You are using an unsupported version of Internet Explorer.
Some features may not work correctly.
They sort of did, in the days before PCI.
The Processor Bus Era Until fairly recently, every processor hooked into the world outside the CPU with cpu card slot processor bus.
The whole system on the early PC is connected in some way to this processor bus.
The PC-XT bus, and the PC-AT bus that followed later dubbed the Industry Standard Architecture Bus began life as simple extensions of the main board bus plus a few extra management signals interrupts to the PIC, DMA via the DMA controller.
That worked for awhile, of course.
But eventually, there cpu card slot very good architectural reasons to change the CPU bus.
If you gave it its own RAM and ROM, you actually could.
Some early industrial PCs worked just this way: you had a PC on a card and lots of expansion slots.
As systems got more complex, they needed increasingly complex logic between the system bus, which got faster and went through various architecural changes, and the expansion bus, which by definition has to remain locked to a standard of some kind.
The Purpose-Designed Local Bus Replacement: PCI In the early 1980s, Intel had a pretty clever bit of thinking on this.
They saw that every CPU-bus-based expansion bus eventually had to be mated to a different processor bus, and the result was inefficiencies, restrictions, complexity, etc.
Intel set out to create cpu card slot bus that was suitable to these expansion devices on its own, separate from any CPU bus.
And that was the original PCI bus.
So once we got PCI in system, it was something like this.
The CPU or CPUs shared a common CPU bus with memory.
And that was part of the PCI design, and a pretty clever thing: by definition, your system could have a large number slot 2 ds flash card different PCI buses.
This allowed the design of the CPU subsystem to exist completely independently cpu card slot the rest of the PC….
It was a fairly necessary step in PC evolution.
There were some systems that did PCI essentially as the only system bus.
In the 1990s, I was working for a company called PIOS AG, and designed a computer system here actually did use the PCI bus as the main system bus.
Above is a CPU card designed by Thomas Rudloff for this PC.
The edge connector could not be a standard PCI slot, because it was necessary to have a number of additional system control signals, things that could not be done efficiently using just PCI.
For example, each PCI slot has four interrupt signals.
And x16 card x1 slot are more than cpu card slot in the system.
The Move Away From the Shared Bus This CPU-on-a-card idea actually caught on in a more limited form in the greater PC industry, for a little while anyway.
Now, as stated, most CPUs have that processor bus.
The 8088 and early 8-bit computers had an 8-bit-wide data bus, while the Pentium went to a 64-bit bus.
Most CPUs by then had a cache memory on-chip, often on a wide bus, but limited in size.
Larger caches could exist off-chip.
Eventually, that main system bus was just too slow to be good for cache.
So they added another bus to the CPU, just for an external cache.
This could be faster and wider cpu card slot the main bus, just a very tight private agreement between the CPU and the cache memory chips, designed specifically for one another.
Not coincidentally, this is about the time CPUs started showing up on modules, Slot 1 from Intel, Slot A from AMD, etc.
The CPU and cache were on the card, with just the CPU front-side bus coming off to the rest of the PC.
Unlike previous front-side or system buses, Visit web page was not intended to be a shared bus — it was a point to point connection between a CPU and a North Bridge.
That allowed the memory controller and the CPU buses to evolve in their own direction, no more reliance on one another.
And always with the idea of making things much faster.
In this era, the EV6 bus managed 1.
This was possible because the complete characteristic of the bus, only one driver and one load, allows for much tighter margins… similar to the idea of the Advanced Graphics Port AGP.
The PCI Bus itself has stuck around for a long, long time in this industry.
But PCI-X systems tended to be very expensive, really only ever caught traction in higher-end servers.
This did a click of cool things.
For one, it shrunk down the demands of the North Bridge to the point where the North and South bridges could actually merge in some systems.
Putting that memory controller on-chip allowed first for a more efficient memory interface, fewer trips on and off chips.
And maybe the coolest thing of all: Hypertransport was not only not a shared bus, it was not a parallel bus, but rather, a high speed serial bus.
And each Hypertransport link was one-way… you needed at least two for any connection, one for reads, one for writes… and these ran independently from one another.
In a way, somewhat like a very, very fast network connection… and in fact, Hypertransport is an open design that came from the world of network computers.
Going to a serial bus made each link smaller, physically, and allowed AMD to include multiple HT links per processor.
Now, think about the idea of putting a processor like that on a slot card.
But then you have a configuration problem… your CPU has a number of HT links on it.
But what if I have a few of these slots?
How should that card route the various links?
This is where the idea of a main CPU on a card really starts to break down.
Intel developed similar technology.
Intel also, of course, turned this into a general purpose interconnect, the PCI Express link.
Each PCI Express 3.
So the CPU in my PC, the Intel i7—3930K, has 40 PCI express links built into the chip.
In a PCI bus, each device gets the bus for a fixed number of cycles, then gets kicked off.
So that one bus becomes a bottleneck, and the same thing would be true today with any single connection to the CPU.
How would that cpu card slot, on a PCI Express card, run all those signals to PCI Express slots?
In the old ISA bus days, every pin on each slot was the same.
On a PCI Express slot, all of the PCI Express signals are different on each slot.
The card shown above is the Intel Xenon Phi, which contains 72 processors on a PCI express card, with their own memory.
The Embedded World When you leave the world of high-performance PC computing, you start to see things a little different.
Lower-end PCs, tablets, phones, and embedded devices like your home WiFi router typically use a System-on-Chip SOC.
I design with the i.
MX6 chip from NXP which was Freescale and is now Qualcomm.
This is a multi-core ARM Cortex A9 chip, a bit slow for a phone or tablet today.
MX6 has a single PCI Express 2.
I design in PCI Express switches and PCI Express to PCI Bus bridge chips if I need more expansion than comes built-in.
If that ever became a limit, time for a faster embedded processor.
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In the device manager, look for a device labeled “SD host adapter.” If you see it, your computer has a built-in SD card reader. If you can locate the slot but not the device listing, or see the listing but not the slot, contact your computer's manufacturer for more information.


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slot 1 cpu | eBay
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slot 1 cpu | eBay
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This has been tested and is 100% working order.
PLEASE GET A PROFESSIONAL TO INSTALL THIS CPU CARD FOR YOU.
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Axiomtek SBC8155 CPU Card cpu card slot Used.
Up for sale is cpu card slot Used Langston CPU Card part number 690013.
There is 1 pictured and we have 1 currently available.
We apologize in advance for any inconvenience this may cause you.
The color of the photo may vary from the actual product due to translation and reproduction limitations of photography.
Socket 370 to slot 1 CPU Card - Adapter for Single, Dual Slot 1 Mainboard.
Working with all of the slot 1 mainbo.
We apologize in advance for any inconvenience this may cause you.
The color of the photo may vary from the actual product due to translation and reproduction limitations of photography.
Description: You are buying a EGM?
Condition: This item is used and was taken from a working environment.
It is guaranteed to be in cpu card slot conditi.
New CPU board for the Bently Nevada TDXNet communication processor in electrostatic bag.
Can be used to upgrade a TDIX to a TDXnet.
Does Not include Any Other Parts Or Accessories Not Pictured.
The color of the photo may vary from the actual product due to translation and reproduction limitations cherry casino playing cards v1 photography.
We apologize in advance for any inconvenience this may cause you.
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With todays CPUs using so little power and graphics cards using so much more then a CPU why cant we have add on CPU cards since a dual slot PCI-E 3.0 graphics slot has a lot of bandwidth to.


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Graphic card slot | Tom's Hardware Forum
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Intel Turns the NUC Into a Modular Slot-In Card | News & Opinion | agohome.ru
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They sort of did, in the days before PCI.
The Processor Bus Era Until fairly recently, every processor hooked into the world outside the CPU with a processor bus.
The whole system on the early PC is connected in some way to this processor bus.
The PC-XT bus, see more the PC-AT bus that followed later dubbed the Industry Standard Architecture Bus began life as simple extensions of the main board bus plus a few extra management signals interrupts to the PIC, DMA via the DMA controller.
That worked for awhile, of course.
But eventually, there were very good architectural reasons to change the CPU bus.
If you gave it its own RAM and ROM, you actually could.
Some early industrial PCs worked just this way: you had a PC on a card and lots of expansion slots.
As systems got more complex, they needed increasingly complex logic between the system bus, which got faster and went through various architecural changes, and the expansion bus, which by definition has to remain locked to a standard of some kind.
The Purpose-Designed Local Bus Replacement: PCI In the early 1980s, Intel had a pretty clever bit of thinking on this.
They saw that every CPU-bus-based expansion bus eventually had to be mated to a different processor bus, and the result was inefficiencies, restrictions, complexity, etc.
Intel set out to create a bus that was suitable to these expansion devices on its own, separate from any CPU bus.
And that was the original PCI bus.
So once we got PCI in system, it was something like this.
The CPU or CPUs shared a common CPU bus with memory.
And that was part of the PCI design, and a pretty clever thing: by definition, your system could have a large number of different PCI buses.
This allowed the design of the CPU subsystem to exist completely independently of the rest of the PC….
It was a fairly necessary step in PC evolution.
There were some systems that did PCI essentially as the only system bus.
In the 1990s, I was working for a company called PIOS AG, and designed a computer system that actually did use the PCI bus as the main system bus.
Above is a CPU card designed by Thomas Rudloff for this PC.
The edge connector could not be a standard PCI slot, because it was necessary to have a number of additional system control signals, things that could not be done efficiently using just PCI.
For example, each PCI slot has four interrupt signals.
And there are more than four in the system.
The Move Away From the Shared Bus This CPU-on-a-card idea actually caught on in a more limited form in the greater PC industry, for a little while anyway.
Now, as stated, most CPUs have that processor bus.
The 8088 and early 8-bit computers had an 8-bit-wide data bus, while the Pentium went to a 64-bit bus.
Most CPUs by then had a cache memory on-chip, often on a wide bus, but limited in size.
Larger caches could exist off-chip.
Eventually, that main system bus was just too slow to be good for cache.
So they added another bus to the CPU, just for an external cache.
This could be faster and wider than the main bus, just a very tight private agreement between the CPU and the cache memory chips, designed specifically for one another.
Not coincidentally, this is about the time CPUs started showing up on modules, Slot 1 from Intel, Slot A from AMD, etc.
The CPU and cache were on the card, with just the CPU front-side bus coming off to the rest of the Cpu card slot />Unlike previous front-side or system buses, EV6 was not intended to be a shared bus — it was a point to point connection between a CPU and a North Bridge.
That allowed the memory controller and the CPU buses to evolve in their own direction, no more reliance on one another.
And always with the idea of making things much faster.
In this era, the EV6 bus managed 1.
This was possible because cpu card slot complete characteristic of the bus, only one driver and one load, allows for much tighter margins… similar to cpu card slot idea of the Advanced Graphics Port AGP.
The PCI Bus itself has stuck around for a long, long time in this industry.
But PCI-X systems tended to be very expensive, really only ever caught traction in higher-end servers.
This did a couple of cool things.
For one, it shrunk down the demands of the North Bridge to the point where the North and South bridges could actually merge in some systems.
Putting that memory controller on-chip allowed first for a more efficient memory interface, fewer trips on and off chips.
And maybe the coolest thing of all: Hypertransport was not only not a shared bus, it was not a parallel bus, but rather, a high speed serial bus.
And each Hypertransport link was one-way… you needed at least two for any connection, one for reads, one for writes… and these ran independently from one another.
In a way, somewhat like a very, very fast network connection… and in fact, Hypertransport is an open design that came from the world of network computers.
Going to a serial bus made each link smaller, physically, and allowed AMD to include multiple HT links per processor.
Now, think about the idea of putting a processor like that on a slot card.
But then you have a configuration problem… your CPU has a number of HT links on it.
But what if I have a few of these slots?
How should that card route the various links?
This is where the idea of a main CPU on a card really starts to break down.
Intel developed similar technology.
Intel also, of above cable card slot excited, turned this into a general purpose interconnect, the PCI Express link.
Each PCI Express 3.
So the CPU in my PC, the Intel i7—3930K, has cpu card slot PCI express links built into the chip.
In a PCI bus, each device gets the bus for a fixed number of cycles, then gets kicked off.
So that one bus becomes a bottleneck, and the same thing would be true today with any single connection to the CPU.
How would that system, on a PCI Express card, run all those signals to PCI Express slots?
In the old ISA bus days, every pin on each slot was the same.
On a PCI Express slot, all of the PCI Express signals are different on each slot.
The card shown above is the Intel Xenon Phi, which contains 72 processors on a PCI express card, with their own memory.
The Embedded World When you leave the world of high-performance PC computing, you start to see things a little different.
Lower-end PCs, tablets, phones, and embedded devices like your home WiFi router typically use a System-on-Chip SOC.
I design with the i.
MX6 chip from NXP which was Freescale and is now Qualcomm.
This is a multi-core ARM Cortex A9 chip, a bit slow for a phone or tablet today.
MX6 has a single PCI Express 2.
I design in PCI Express switches and PCI Express to PCI Bus bridge chips if I need more expansion than comes built-in.
If that ever became a limit, time for a faster embedded processor.
You might be surprised to learn that the vast majority of websites include many of these third-party trackers.