Week 10

1. Week 10 CPU/Motherboard/Memory/Buses/Slots/Ports

2. We have a lot to cover! • We will not go into great detail • Basics of operation of CPU, Motherboard, Buses • Survey of Slots and Ports • Enough to tie our picture together

3. The Processor • The heart of the computer is the processor • CPU, for Central Processing Unit • Very complicated beasts! • We will summarize its function

4. The CPU • Performs all instructions in programs • Processes information • Does all math, comparison, etc. • Info goes in, info comes out! • The ALU (Arithmetic and Logic Unit) performs these tasks • Controls other devices in the system • Includes a small amount of built-in memory • To store the data it is currently using • ‘Registers’ and ‘Cache’

5. In the System Storage Processor (CPU) Input Output

6. CPUs: Different packages

7. CPUs: Things to notice • See all of the pins sticking out? • These are the wires that connect it to the outside world • Wires means information in and out

8. How a CPU plugs into the computer • Plugs into the ‘Motherboard’ • The pins all plug into a socket • What is a motherboard?

9. Motherboards • We’ve talked about how all information in a computer passes over ‘wires’ • Electrical current! • There are lots of components to connect! • If we just used WIRES, it would look like spaghetti!

10. Motherboard • Rather than dealing with spaghetti, a system has been developed where one component contains ALL of the wiring • Well, almost all… • The wiring is all done with printed circuits • No wires dangling! • Every other component plugs into this component, to be connected to the others

11. Motherboard • This component is the Motherboard (or Mainboard) • Motherboard provides wiring to connect components • All components plug into motherboard • Motherboard also controls things like timing • Don’t worry too much about this

12. Motherboard

13. Memory • We know that the computer needs Memory • Stores the programs and data currently in use • RAM: Random Access Memory

14. RAM • RAM comes in chips called DIMMS (now) • RAM works very simply… • Every bit is represented by a CAPACITOR • A capacitor can store an electrical charge (sort of like a battery…) • Store a bit: Store the electrical charge (on or off) • Read a bit: Test to see if there is a charge or not • Don’t worry about any more detail than that!

15. RAM comes in many sizes, speeds • RAM keeps evolving, to become bigger and faster • Typical modules today are 128M, 256M, 512M • There is a list of terms on page 107 • Latest types • DDR- Like SDRAM, but faster • Rambus- Faster still, but expensive!

16. What RAM looks like • Long, thin chips • Inserted in motherboard in rows

17. How RAM connect to motherboard • Notice the markings on the board?

18. Buses • We pause for a moment, and talk about the wiring itself • We know that: • Information is transferred over wires • Much of the wiring is provided by the motherboard

19. Buses • Indeed, the wiring on the motherboard transfers information • Important channels (‘highways’) of information are called BUSES • Like a highway, multiple devices all share the same bus • There may be 10 devices on the bus, but any two of them can use the bus to communicate

20. Buses: Multiple devices sharing the same lines

21. Buses • However, we know that to transmit USEFUL information, we need more than 1 bit!

22. Buses: Multiple Bits • It is possible to send multiple bits over a single wire • Send them one at a time! • In SERIAL

23. Buses: Multiple Bits • However, it is faster if we can send multiple bits at the same time • In PARALLEL

24. Buses: Multiple Bits • So parallel is faster • But, how do we send multiple bits at the same time? • MULTIPLE WIRES!

25. Buses: Multiple Bits • So: • Information needs to be passed as quickly as possible on the motherboard’s buses • Parallel is faster than serial • Multiple wires are needed for parallel • Therefore, BUSES ARE MADE UP OF MULTIPLE WIRES

26. Buses: Multiple, Parallel Wires • If you look at the motherboard, you can see the buses • They are the groups of lines that run in parallel

27. Buses • Data is passed around on the motherboard using buses • Components plug into the motherboard to connect to other devices • Therefore, components connect to the buses! • As we learn about other connectors, you will be able to see that they all connect to a bus!

28. Slots/Ports/Etc.: Familiarity Required • There is a great deal of information on various expansion cards, ports, etc. • You are not expected to memorize it all! • Read over for familiarity • What you will be expected to know: • Only for types mentioned in the presentation • Name (acronym, not the full name) • The degree to which it is used today • What types of devices typically use the interface • How fast it is (relative to other ports which can be used for the same type of device)

29. Expansion Slots and Ports • We know that we can connect lots of different devices to our computer • These items must connect to the motherboard somehow • There are two primary methods: Expansion Slots, and Ports

30. Expansion Slots • Devices may be either INTERNAL (inside the ‘box’) or EXTERNAL • Sometimes, we have a choice • E.g., Modems • Expansion slots are often used for INTERNAL devices

31. Expansion Slots • In earlier readings (p. 14), you learned about circuit boards • Virtually all electronic devices use circuit boards • With an external device, you need to package up that circuit board, build a way for it to connect to the computer, etc. • Expensive!

32. Expansion Slots • With internal devices, we can avoid all of this expense! • Just provide a circuit board, with no additional packaging • This is called an EXPANSION BOARD • Plugs directly into the motherboard

33. An Example

34. An Example

35. Things to notice… • They are normal circuit boards • Lots of components! • They each have a set of ‘pins’ which plugs into the slot • These pins are the wires that connect it to the motherboard • Why so many pins? • They connect to a BUS on the motherboard • Lots of lines for information • Other wires for controlling the board, etc.

36. Expansion Slots/Buses • If you look on the motherboard, you will see that there are ‘bus’ wires running to each of the expansion slots • Plugging a board in connects it to a bus • The board can now communicate with the motherboard, and other components!

37. Expansion Boards/Slots • An expansion board plugs into an expansion slot • This is an example of an INTERFACE! • What do we know about interfaces? • They have to match EXACTLY • For this reason, they are often standardized

38. Expansion Slot Standards • Expansion slots are standardized • To ensure that any manufacturer’s board will work with anyone else’s motherboard • There are a handful of standard interfaces that you need to know about

39. ISA Slots

40. ISA Slots… • Are an older technology • (Supports 16 data bits) • May not exist on newer PCs • Slower than current technologies • Used for general internal peripherals • Modems, sound cards, network boards, etc., etc.

41. PCI Slots

42. PCI Slots

43. PCI Bus/Slots • New technology • (32 data bits) • Primary general-purpose slot for modern PCs • Use for modems, sound cards, network boards, (sometimes) video, etc. • Much faster than ISA • That’s why it replaced ISA!

44. AGP Slot

45. AGP Slot • AGP stands for Accelerated Graphics Port • Only used for VIDEO cards • Most common graphics interface today • Normally, you only have 1 AGP slot on your motherboard • Very, very fast • Much faster than PCI • Needs to be fast, to support games!

46. Slots on a Motherboard

47. Slots on another Motherboard

48. How do you tell the difference? • You get to know them… • Color can provide you a clue • PCI are normally white • ISA are black • There is only one AGP… • You normally know what type of card you have • It will only fit one type of slot • You can then tell what type of slot it is!

49. How can you tell what a board does? • Usually, you can tell by the jacks (ports) on the back of the board • Headphone-type jacks-> sound card • Telephone jack-> modem • Network jack->network card • Monitor(VGA) port->video card

50. Ports • We’ve discussed the role of expansion slots • Internal devices • However, sometimes devices are external • Why, if it’s more expensive? • Convenience – portability, etc. • Physical requirement – can you imaging using an internal printer, or joystick?