CH10 Instruction Sets: Characteristics and Functions

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CH10 Instruction Sets: Characteristics and Functions Software and Hardware interface Machine Instruction Characteristics Types of Operands Pentium II and PowerPC Data Types Types of Operations Pentium II and PowerPC Operation Types Assembly Language TECH Computer Science CH09

What is an instruction set? The complete collection of instructions that are understood by a CPU Machine Code Binary Usually represented by assembly codes 2

Elements of an Instruction Operation code (Op code) Do this Source Operand reference To this Destination (Result) Operand reference Put the answer here Next Instruction Reference When you have done that, do this... 3

Instruction Representation In machine code each instruction has a unique bit pattern For human consumption (well, programmers anyway) a symbolic representation is used e.g. ADD, SUB, LOAD Operands can also be represented in this way ADD A, B 5

Instruction Types Data processing Data storage (main memory) Data movement (I/O) Program flow control 6

Number of Addresses (a) Operand 1, Operand 2, Result a = b + c; May be a forth - next instruction (usually implicit) Not common Needs very long words to hold everything 7

Number of Addresses (b) One address doubles as operand and result a = a + b Reduces length of instruction 8

Number of Addresses (c) Implicit second address Usually a register (accumulator) Common on early machines 9

Number of Addresses (d) 0 (zero) addresses All addresses implicit Uses a stack e.g. push a push b add pop c c = a + b 10

How Many Addresses More addresses Fewer addresses More complex (powerful?) instructions More registers Inter-register operations are quicker Fewer instructions per program Fewer addresses Less complex (powerful?) instructions More instructions per program Faster fetch/execution of instructions 11

Design Decisions (1) Operation repertoire Data types How many ops? What can they do? How complex are they? Data types Instruction formats Length of op code field Number of addresses 12

Design Decisions (2) Registers Addressing modes (later…) RISC v CISC Number of CPU registers available Which operations can be performed on which registers? Addressing modes (later…) RISC v CISC 13

Types of Operand Addresses Numbers Characters Logical Data Integer/floating point Characters ASCII etc. Logical Data Bits or flags (Aside: Is there any difference between numbers and characters? Ask a C programmer!) 14

Pentium Processors Pentium: superscaler techniques allowing multiple instructions to execute in parallel Pentium Pro: branch prediction, speculative execution Pentium II: MMX technology to process video, audio, and graphics Pentium III: additional floating-point instruction to support 3D graphics software.

Pentium Data Types 8 bit Byte 16 bit word 32 bit double word 64 bit quad word Addressing is by 8 bit unit A 32 bit double word is read at addresses divisible by 4 15

Specific Data Types General - arbitrary binary contents Integer - single binary value Ordinal - unsigned integer Unpacked BCD - One digit per byte Packed BCD - 2 BCD digits per byte Near Pointer - 32 bit offset within segment Bit field Byte String Floating Point 16

Pentium Data Types 17

Types of Operation Data Transfer Arithmetic Logical Conversion I/O System Control Transfer of Control 18

Data Transfer Specify Source Destination Amount of data May be different instructions for different movements e.g. IBM 370 Or one instruction and different addresses e.g. VAX 19

Arithmetic Add, Subtract, Multiply, Divide Signed Integer Floating point ? May include Increment (a++) Decrement (a--) Negate (-a) 20

Logical Bitwise operations AND, OR, NOT 21

Conversion E.g. Binary to Decimal 22

Input/Output May be specific instructions May be done using data movement instructions (memory mapped) May be done by a separate controller (DMA) 23

Systems Control Privileged instructions CPU needs to be in specific state Ring 0 on 80386+ Kernel mode For operating systems use 24

Transfer of Control // Branch Skip Subroutine call e.g. branch to x if result is zero Skip e.g. increment and skip if zero ISZ Register1 Branch xxxx ADD A Subroutine call c.f. interrupt call 25

Common Instruction Set 1

Common Instruction Set 2

Common Instruction Set 3

Common Instruction Set 4

Byte Order What order do we read numbers that occupy more than one byte e.g. (numbers in hex to make it easy to read) 12345678 can be stored in 4x8bit locations as follows 27

Byte Order (example) Address Value (1) Value(2) 184 12 78 185 34 56 184 12 78 185 34 56 186 56 34 186 78 12 i.e. read top down or bottom up? 28

Byte Order Names The problem is called Endian The system on the left has the least significant byte in the lowest address This is called big-endian The system on the right has the least significant byte in the highest address This is called little-endian 29

Standard…What Standard? Pentium (80x86), VAX are little-endian IBM 370, Moterola 680x0 (Mac), and most RISC are big-endian PowerPC supports both! Internet is big-endian Makes writing Internet programs on PC more awkward! WinSock provides htoi and itoh (Host to Internet & Internet to Host) functions to do the convertion 30