1. CPUs and power supplies Unit objective: Identify CPU characteristics and install power supplies

2. Topic A Topic A: CPUs Topic B: Power supplies

3. Central processing unit (CPU) “Brains” of your PC Processes instructions, manipulates data, controls interactions of other circuits Contains: –A control unit –One or more execution units –Registers –Single-core vs. multi-core processors

4. CPU performance Instruction — Low-level, hardware- specific command Rated in millions of instructions per seconds (MIPS) Rated according to clock speed Older CPUs — One clock cycle/ one instruction Newer CPUs — One clock cycle/ many instructions

5. CPU design characteristics pg 2-5 Addressable RAM Bus, address Bus, data Bus, internal Cache Clock speed Data bus width Dual Independent Bus (DIB) Front-side bus speed continued

6. CPU characteristics, continued GPU Hyperthreading Multimedia extensions (MMX) Multiprocessing Overclocking Pipelining Superscalar Throttling Virtualization support

7. Multiple-processor support Requires symmetric multiprocessing code for OS and applications 64-bit versions of Windows 7 and Windows Vista use NUMA –Non-uniform memory access is a computer memory design used in multiprocessing, where the memory access time depends on the memory location relative to a processor. –With NUMA, a processor can access its own local memory faster than non-local memory (memory local to another processor or memory shared between processors). –The benefits of NUMA are limited to particular workloads, mainly on servers

8. Processor specifications Most common manufacturers: –Intel –AMD Primary specifications –Clock speed, front side bus speed, addressable RAM, Cache Size Bus width specifications –No of bits which can be processed Internal specifications –Voltages used by chips

9. Inside the case Chipsets CPU packaging Slots

10. Chipsets Memory control System bus functions Audio functions Video display functions System management functions

11. Northbridge and Southbridge Two most important components of a PC chipset Northbridge controls interactions between the CPU, memory (including cache), AGP and PCIe video control circuitry, and the Southbridge continued

12. Northbridge/Southbridge, continued Southbridge controls interactions between buses and devices not controlled by the Northbridge –PCI expansion bus –Floppy drive controller –Serial port –Parallel port –PS/2 keyboard and mouse ports –USB and FireWire –BIOS and CMOS

13. CPU packaging Chip = die A package is made up of –Die –Plastic, metal, or ceramic case –Wires or connectors –Support chips –Cooling components

14. PGA package 80486

15. SECC package Pentium 3

16. Sockets and slots see pg 2-10 775 1156 1155 1366 940 AM2 AM2+ AM3 AM3+ FM1 F

17. Pentium with MMX CPU & Socket 7 socket

18. Typical cooling mechanisms Fans & Heat sinks and cooling fins Heat pipes –(water heated, evaporates which causes it to move cooler water to area which is repeated) Water pumps –(water pumped – more effective) Peltier coolers –(device which gets colder when voltage applied) Phase-change cooling –(like an AC unit) Undervolting

19. Power supply and CPU fans Power supply fan Auxiliary fan

20. Cooling fins

21. Cooling fins and a fan

22. Other cooling techniques Heat pipes — Small tubes filled with fluid Water pumps — Tubes filled with water, moved away from CPU to outside case and through cooling fins Peltier coolers –Electronic device that gets colder when voltage is applied –Non-convection –Connected directly to CPU –Can be combined with water coolers continued

23. Other cooling techniques, continued Phase-change cooling –Vapor compression –Gas to liquid –Liquid absorbs processor heat and evaporates –Gas returned to compressor –Cycle begins again –More efficient than water cooling systems –Generate significant noise Undervolting –Less power; less heat –Can cause system problems

24. Topic B Topic A: CPUs Topic B: Power supplies

25. Characteristics of electricity Electricity — Flow of electrons Conductor — Permits flow of electricity Insulator — Inhibits flow of electricity Voltage — Force of electricity caused by difference in charge at two locations –Measured in volts –Also called “potential” or “potential difference” –Officially designated as uppercase V –May see it as lowercase v continued

26. Characteristics, continued Current — Measure of the flow of electrons past a given point –Measured in amps, or amperes –Must be a complete circuit (closed circuit) –Direct current — Flows in one direction, at constant voltage, through circuit –Alternating current — Flows repeatedly back and forth through the circuit, at constantly varying voltage levels continued

27. Characteristics, continued Resistance — Force that opposes the flow of DC through a conductor Measured in ohms (Ω) Impedance — Like resistance, but applies to AC Power Measured in watts Calculate by multiplying voltage by current Energy — Electrical power delivered over time

28. Electricity Current can kill The 1–10–100 rule –You can feel 1mA (1 milliamp) –10mA enough to make muscles contract –100mA enough to stop your heart

29. Safety precautions Don’t touch exposed contacts Touch only insulated handles of tools Leave covers on equipment Work one-handed Don’t insert anything into wall outlets Remove jewelry, watches, etc. Keep hands clean and dry Don’t work in wet surroundings

30. PC power supply Converts AC wall voltage to DC voltages for PC components Includes a fan Provides some conditioning functions Can maintain power during brief drops and outages

31. Power supply specifications Rated by DC power output in watts –Modern systems typically =>600 watts –Older systems <200 watts Rating isn’t an indicator of power draw –Most power supplies will only draw the power which is needed to supply internal components –Some less efficient power supplies will however draw full power and waste electricity

32. Typical power requirements Motherboard30 W Memory10 W per 2 GB* CPU45–145 W or more Hard drive5–15 W CD-ROM drive5–20 W Floppy drive5–10 W Adapter card5–30 W

33. Standard outputs +3.3 V14 AAGP video cards, motherboard -5 V0.3 AISA bus adapter cards +5 V30 AMotherboard, CD/DVD drives, hard drives, PCI adapter cards, Pentium III and earlier processors +5 V0.85 A“Soft power” switch -12 V1 AOlder network adapters and serial ports +12 V12 ACD/DVD drives, hard drives, Pentium 4 and Athlon processors, motherboard

34. Power watt calculator http://extreme.outervision.com/PSUEn gine http://extreme.outervision.com/PSUEn gine

35. Sizes Form factor –AT –ATX –Micro-ATX

36. SATA power connector For Serial ATA drives

37. Peripheral power connector Molex connector Typically used to connect hard drives and optical drives

38. Floppy power connector Berg connector Smaller than Molex Typically used to connect floppy drives

39. Wire colors Wire colorMolexBergSATAVoltage Yellow1413, 14, 15+12 V Red41 (optional)7, 8, 9+5 V Black2 and 3 2 (optional) and 3 4, 5, 6 10, 11,12 Ground Orange1, 2, 3+3.3 v

40. Motherboard power connectors Dual power connectors (P8/P9) Single power connector

41. Voltage selection Dual-supply units – can adjust the power supply to run from 110 or 220 –110-120 –220-240

42. Unit summary Identified CPU characteristics and installed power supplies