Computer Science AS CIE
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data-representation as5 主题
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multimedia as3 主题
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compression as2 主题
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networks-and-the-internet as11 主题
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computers-and-components as5 主题
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logic-gates-and-logic-circuits as2 主题
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central-processing-unit-cpu-architecture as6 主题
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assembly-language- as4 主题
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bit-manipulation as1 主题
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operating-systems as3 主题
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language-translators as2 主题
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data-security as3 主题
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data-integrity as1 主题
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ethics-and-ownership as3 主题
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database-concepts as3 主题
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database-management-systems-dbms- as1 主题
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data-definition-language-ddl-and-data-manipulation-language-dml as1 主题
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computational-thinking-skills as1 主题
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algorithms as4 主题
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data-types-and-records as2 主题
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arrays as2 主题
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files as1 主题
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introduction-to-abstract-data-types-adt as1 主题
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programming-basics as1 主题
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constructs as2 主题
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structured-programming as1 主题
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program-development-life-cycle as1 主题
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program-design- as2 主题
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program-testing-and-maintenance as3 主题
assembly-language-basics as
Exam code:9618
Machine code vs assembly
What is machine code?
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Machine code is a first-generation language
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Instructions are directly executable by the processor
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Written in binary code
What is assembly?
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Assembly code is a second-generation language
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The code is written using mnemonics, abbreviated text commands such as LDA (Load), STA(Store)
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Using this language programmers can write human-readable programs that correspond almost exactly to machine code
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One assembly language instruction translates to one machine code instruction
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Needs to be translated into machine code for the computer to be able to execute it
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Each type of computer CPU has a specific instruction set
Instruction set
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An instruction set is a list of all the commands that can be processed by a CPU
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Each command has a binary code which is the machine code
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In assembly the binary code is written using mnemonics and split into an opcode and operand
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The opcode is the part of an instruction that tells the CPU what operation to perform
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It’s short for “operation code”
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Example operations: LDA (load), STA (store), ADD, INP, OUT, BRZ, BRA
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The operand is the data or memory address the opcode will work with
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It gives the extra detail the CPU needs to complete the instruction
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Often used to specify a memory address, a value, or a label
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Opcode |
Operand |
Explanation |
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Immediate addressing. Load the number |
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Direct addressing. Load the contents of the location at the given address to ACC. |
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Indirect addressing. Use the value at the given address as a new address. Load contents to ACC. |
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Indexed addressing. Use |
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Immediate addressing. Load the number |
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Move the contents of ACC to the given register (e.g. IX). |
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Store the contents of ACC at the given memory address. |
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Add the contents of the given address to ACC. |
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Subtract the contents of the given address from ACC. |
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Increment the contents of the register (ACC or IX) by 1. |
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Decrement the contents of the register (ACC or IX) by 1. |
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Unconditional jump to the given address. |
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Compare the contents of ACC with the contents of the given address. |
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Compare the contents of ACC with the number |
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Indirect addressing. Compare ACC with the contents at the address stored in |
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Jump to |
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<address> |
Jump to |
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Take input from the keyboard and store its ASCII value in ACC. |
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Output to the screen the character stored in ACC. |
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End the program and return control to the operating system |
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All questions will assume there is only one general purpose register available (Accumulator)
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