Computer architecture Essay Example for Free

Computer architecture EssayDescribe how analogue data can be converted and stored in computer systems Analogue data needs to be consumed in order to be processed by a computer. As computers mete come to the fore in Ones and Zeros it can only go in specific intervals. For example, when recording a give appear that gradually gets louder over a minute, a digital recording could record the level of sound every grabe, save would lose the information between seconds. If the sound was sampled every half second, there would be half as overmuch information lost from the original source, but file size would be doubled. This is the trade off that has to be made between file size and quality. micro chip depth is the number of bits of information recorded per second . The higher the bit depth means, the higher the sample rate and this results in higher quality sound file. A good example of bit depth is in CD quality audio which has a bit depth of 16 bits and a sample rate of 44. 1 kHz. Task 3 (P5) Describe the key components of a computer architecture and how they interact 1. Data Buffer this is a region of retentiveness used to temporarily hold data while it is being moved from one place to another.2. Accumulator A An 8 bit CPU has 1 register called the accumulator, this holds temporary data e. g. the take-out when you do addition. 3. Arithmetic Logic Unit (ALU) this is the workhorse of the CPU because it carries out all the calculations. 4. Data Buses the mechanism that moves information around a computer. 5. Address Buffer this holds the address part of the focusing register, 6. Program Counter this contains the location of the next instruction to be executed and, therefore, keeps track of where the computer is up to in a program. 7.Instruction Register (IR) this divides the information it receives into cardinal fields. One field in the IR contains the operation code that tells the CPU what operation is to be carried out. The other field, called the operand field, contains the address of the data to be used by the instruction. 8. Condition Code Register (CCR) this takes a snapshot of the press out of the ALU after each instruction has been executed and records the state of the carry, negative, zero, and overflow flag-bits. In the above diagram the flag-bits are H, I, N, Z, V C. Task 4 (P6) Describe the features of a central processor Multi-tasking.Multi-tasking is a manner where multiple processes are dealt with at once sharing common processing recourses such as a CPU. It involves the CPU assigning which instructions to be carried out first but it only focuses on one instruction at a clip. Pipelining Pipelining is a method in which the Processor begins to execute a second instruction before the first has finished. Every pipeline is divided into separates and each segment can be ran along side each other. When each segment completes its task it moves on to the next. stash (Level 1 and Level 2) Cache is a portion of memory made of high-speed static RAM (SRAM).As a result Cache memory is much more efficient than the main memory (RAM) which is dynamic RAM (DRAM) that runs slower but also cheaper. The lay away is a comminuteder, smart memory which stores copies of the data from the most frequently used main memory locations. DRAM is dynamic in that, unlike SRAM, it needs to have its memory cells refreshed or given a new electronic charge every fewer milliseconds. SRAM does not need refreshing because it operates on the principle of mournful current that is switched in one of two directions rather than a storage cell that holds a charge in place.If the computer processor can have the data it needs for its next operation in cache memory, it resulting save time compared to having to get it from random access memory. Level 1 cache is normally built on to the processor chip. It is extensively used for all sorts of purposes such as data fetching, data shifting and data loops, storing only small amounts of data. Level 2 cache is normally located on the motherboard. L2 cache stores much more data, coming usually from the L1 cache. L2 cache can be up to sixteen times the size of L1 cache this also means that it takes up much more room so it has to be located on the motherboard. time Rate The clock rate is the speed at which a processor clock oscillates constantly from a one to a zero, this is measured in hertz. The clock rates speed is determined by an oscillator crystal and amplifier circuit inside a clock generator circuit. The limiting factor of the clock rate is the time it takes for the signal line to settle down from its on state to off state. The time rate is also as fast as L2 cache. Task 5 (P7) Describe the operation of logic furnishs using the true tables not AND (2 inputs) OR (2 inputs) Consider how these three main gates can be combined.NOR (2 inputs) NOT Logic Gate also distinguishn as (Inverter) The output is neat when only one input is false. Otherwise, the output is false. A Not gate is a logic gate which reverses the state of the input. AND Logic Gate The output is true when both inputs are true. Otherwise, the output is false. OR Logic Gate The output is true if either one or both of the inputs are true. If both inputs are false, then the output is false. These three main logic gates can be used to make other possible combinations of logic gates such as a NOR gate. NOR Logic Gate.The NOR gate is a combination of an OR gate followed by an inverter. The output is true if both inputs are false. Otherwise, the output is false. Task 6 (M1) Explain using examples how data travels around the processor Task 7 (M2) nominate logic circuits using simple logic gates and provide truth tables This is a circuit that shows binary addition. Here are a few examples of the circuit being carried out. The Red circle/circles show input and Green circle/circles show output data This can be shown in the truth tables below. Task 8 (M4) Provide a description of both astable and bistable flip- flops.A flip-flop is an electrical circuit that can be in one of two states. Astable flip flop Astable flip flop is an oscillator which regularly switches states all the time. It has one 1 input and 1 Output. It can be used as a clock. Bistable flip flop Bistable flip flop is a memory device/gate which keeps one state indefinitely while it has power it also has 2 inputs and 2 outputs. The difference between An Astable and Bistable flip flops. A bistable flip-flop is a multivibrator with two stable states and can be put into either of its two states and it will stay like that. An example of this could beA simple clear switch turn it on, it stays on, turn it off, it stays off. Task 9 (D1) Create complex logic circuits made up of arrays of simple logic circuits. To produce an addition of two numbers each of four bits in length we must(prenominal) first. You can add two numbers unneurotic each four bit in length by extending the first i ntegral adders carry out to another full adder and so on. Until you get 4 full adders each following on from the last carry out. The way a full adder works The circuit adds two bits Input A and Input B, taking into account the previous carry in, to give the Sum, and the carry out.Now we know how a full adder works we can now relate this to the idea of 4 full adders joined together by the last carry out and the diagram below illustrates this. Diagram 1 These diagrams (below) will show you how you can add two four bit binary numbers together using a logic circuit. Example 1 Binary 1111+ 1111 ______ 11110 These binary numbers with value of 1 stand for both switches (The inputs i. e. the two four bit numbers added together) and the sum which in this case are shown by the flashing of LED lights (The sum is the output). 0 means no switch or light is active.The first line of inputs for this study will always be A4,A3,A2,A1 The second line of inputs for this study will always be B4,B3,B2,B1 these two numbers will be added together Then it is a long underscore followed by Carrys C3,C2,C1 directly underneath And then finally the output sum shown as O Task 10 (D2) Compare and contrast two different processors I will compare the AMD Opteron quad core and the Intel core 2 quad processor q9650.AMD Opteron quad core 64-bit Computing Yes L2 cache 512kb x4 L3 cache 2mb Clock renovate 2. 1Ghz Special Features Rapid Virtualization Indexing AMD Smart Fetch Technology Front place Bus (FSB) Speed 2000Mhz Watts 45 Price i 165 new Intel core 2 quad processor q9650 64-bit Computing Yes L2 cache 12mb Clock Speed 3Ghz Special Features Intel Virtualization Technology Enhanced Intel SpeedStep Technology Front status Bus (FSB) Speed 1533Mhz.Watts 65 Price i 223 new Key components Front Side Bus The Front Side Bus allows the components to send and receive data from the CPU to the North Bridge and vise versa. The faster a computers bus speed, the faster it will operate, but a fast bus sp eed cant make up for a slow Clock Speed. Clock Speed The Clock Speed is the speed at which a microprocessor executes instructions these clock cycles per second are measured in hertz. Special Features Virtualization -Virtualization also known as a virtual machine makes it possible to run multiple operating systems on one computer.SpeedStep Technology SpeedStep Technology is built into some new Intel processors this can be used to change the clock speed by using a piece of software. Speed Step Technology allows the processor to keep up with performed operations. It greatly reduces power consumption and heat loss. Smart Fetch Technology Smart Fetch Technology allows the processor core to enter a halt state and draw less power, which reduces CPU power consumption. Recommendation Both processors have Quad-Core technology and 64 bit computing, however the difference is in the Clock speed, Cache memory and the extra features.Both processors have similar special features such as the AMD Rapid Virtualization Indexing and the Intel Virtualization Technology. Although the Intel core 2 quad processor q9650 has no L3 cache I think that the higher clock speed and L2 cache more than makes up for not having any L3 cache. Not to mention the Intel core 2 quad processor q9650 has Speed Step Technology which makes for a much greater performance. The Intel core 2 quad processor q9650 is more expensive but it is a price worth paying for such a greater performance.