CS 2810 Architecture Module 2

Pataasin ang iyong marka sa homework at exams ngayon gamit ang Quizwiz!

First byte sequence when coding binary

128, 64, 32, 16 - 8, 4, 2, 1

Binary is a base..

2

What number do you put by a shift operator to 4 bits?

2 The shift operators constant is actually 2^i " i being 2 in this case to shift by 4

How to represent negative numbers in binary

2's compliemnt

Unsigned 16 bits range Signed 16 bits range

2^16 = 65536 -2^15 to (2^15 -1)

How many memory words are in MIPS?

2^30

Operations need exactly how many operands?

3 - no more no less

How many bits are in a MIPS instruction set?

32

In MIPS how many registers are there?

32

Represent an Integer in MIPS requires...

4 bytes / or 32 bits each byte has 8 bits 8*4 = 32

Field names (I-type (for immediate))

6 bit Opcode 5 bit Register Source 5 bit Second Register Source(rt) 16 bit Constant or address lw destinationRegister,

Explain: add a , b, c

# The sum of b and c is placed in a

Which register is reserved for large constants?

$a0

$a_ range?

$a0 - $a3

Unique registers in MIPS

$gp $fp $sp $ra $at $zero

$s_ range?

$s0 - $s7 *Correspond to variables in C an Java

$t_ range?

$t0 - $t9 *Used for Temporary holds

Label all parts: add $t0, $t0, 5

$t0 - register 5 - immediate

$v_ range?

$v0 - $v1

Register always equal to zero?

$zero

Addresses of sequential words differ by..

*4

Range of 8 bits signed

-128 to +127 (0 is apart of the positive)

Logical operator OR

At least one of the conditions needs to be true.

Binary to Hexadecimal

Group into groups of 4. *can zeros to the left hand side if needed to make it a group of 4 A 4 bit can be at most 15. Use a-f for 10-15

What are data transfer instructions?

Instruction with the memory address (index in that array starting at 0), moves data between memory and registers

Memory

Larger, but slower to access - coming from RAM maybe only addressing constraints. store and load data

What are Registers

Limited amount of special locations built into the hardware

How to: 14 OR 3

Line up binary for each number. check vertically and apply OR to each

Big- Endian

Most significant bytes first. ( Left most byte = address 0 ) Out of 4 bytes (32 bits)

Little-Endian

Most significant bytes last. ( Right most byte = address 3) Out of 4 bytes (32 bits)

Hexadecimal to Decimal

Multiply place value by hex equivalent

Using 2's compliment, left-most bit is 1

Negative number

Machine Language vs Machine code

Numeric language, sequence code

Each line can hold how many instructions in MIPS?

One instruction per line

Logical operator XOR

Opposite of OR Cannot both be true

Registers

Part of hardware built into CPU Instruction set: how many registers available (MIPS 32 registers) fixed number benefit of registers - fast to access, no delay as you wait for data to come in but.. limited only so much data you can fit

Using 2's compliment, left-most bit is 0

Positive number

2's compliment

Positive numbers: normal binary with 0's out to the amount of bits given Negative numbers: binary number, find compliment, ADD 1 to the right-most bit of the complement. 1 +1 = 0 carry the one

What hardware unit hold the registers?

Processor

What are memory words used for?

To hold data structures, arrays, and spilled registers.

Byte

a group of 8 bits

A group of 32 bits in MIPS is called

a word

Extend an 8bit two's complement to 16 bit

add leading 0's if positive, add leading 1's if negative, until all bits used

Label all parts: add $t0, $t1, $t2

all are registers

b label

always takes that particular branch - not often used

Logical operators

and, or, not, xor, not

Byte addressing affects...

array index

How to save into an array

arrayName .space or .word li $v0, 5 (will read input INT) sw $v0, arrayName

Branch if equal Branch if equal than zero Branch if greater than Branch if not equal Branch if not equal to zero

beq beqz bgt benq benqz

bit

binary digit

Arithmetic Operations

bit shifts, boolean, or, and, etc. add, sub, mul, div, shift, or, and, sll

Branches allow us to control

flow of execution. Branch point - based on a value or set of values, we go to a different part of the program. Based on condition

Convert negative to positive bit using 2's compliment

get the complement of the bit, add 1.

Control Flow

instead of data, it moves where the programming is being executed, where its being read. ((If, else, method calls, for loops in other languages)) Branch, call, beqz, j,

What is the 'Store' and what is its format

instruction complementary to load - Copies data from a register to memory name of operation. register to be stored, offset(base register)

Computers vocabulary is called

instruction set

Computers language is called

instructions

Leading zeros vs trailing zeros

leading doesn't change the number. trailing does change the number

Syscall always needs...

load imediate into v0 =, number depends on TYPE it'll print 4 = print string 1 = print int 5 = READ int always prints whatever is in $a0 li $v0, 4 (string) syscall

Instruction Set Architecture (ISA)

set of instructions comp knows how to process and compute x86 - IBM MIPS ARMv7 ARMv8 older: 8080 modorolla 68K one processor doesn't run a different processors instruction set. Multiple processors that use same instruction set can use applications made on one.

Base address

starting address of an array

Address of a word matches...

the address of one of the 4 bytes in the word

Range of 8 bits unsigned

0-255 ( 256 number all together)

Logical operator NOT (unitary operator)

1 variable Opposite/ complement of input. Must be 0 to be true

Field names (R-Type (for register))

1. Opcode 2. register source 3. second register source 4. register destination 5. shift amount (or unused in many operations 6. function code - selects specific variant of the operation in the op field

Design Principles:

1. Simplicity favors regularity 2. Smaller is faster (usually) 3. Good design demands good compromises

How many data elements are in memory

Billions

Logical operator AND

Both of the conditions need to be true.

Decimal to Hexadecimal

Can do decimal to binary, then to hex. OR Divide 3162 into 256, put in the whole amount. 3162/256 = 12...

What are the ways you can manipulate 1's and 0's?

Categories Instructions: Data Handling, Arithmetic Operations, Control Flow

END OF VIDEO LECTURE

END OF VIDEO LECTURE

What are fields?

Each field (having many bits) represents one part of an instruction in an instruction set

We want to keep the clock cycle ___ fast or slow__?

Fast

Stored-Program concept

Programs, Instructions and data are stored in memory as numbers

Operands types

Registers Memory Immediates (constant values)

START OF TIO

START OF TIO

Represent 1, 026,854,800 in Little-Endian

Take each Byte from big-endian and flip backwards. Do not flip whole binary string!

How are memory words accessed?

They are accessed by data transfer instructions

What is Overflow?

When a number is too large to be represented with the number of bits allocated. occurs when the numbers' sign bits match but yield a SUM with a different sign bit.

a XOR a Will always equal

Zero. The same number will copy the bottom, so each bit will always be zero when XOR

Immediates

constant values hardcoded - stored in instruction itself - don't load from memory or store it. Can't even fit 32 bits in MIPS - not changeable

What is a load? And what is it's format

data transfer instruction type: specifically copies dat from memory to register. nameOfOperation regToBeLoaded, ConstantLocationInMemory(registerUsedToAccessMemory) lw $t0, 8($s3) In Proper terms: Loadword tempStorage, offset(register holding base address)

The first and last fields of an instruction do what?

define what operation/function will be preformed. add $t0 $s1 $s2 field 1 and 6 will be add

Instruction Set ARitecture differences

design devisors differ, availablities Two categories - Compex instruction set computer reduced instruction set computer *can have grey area, have some of each primary diff - CISC run one or more instructions, take multiple steps. variable length. fewer registers. hardware to implement. Hardware centric. Examples include Motorola 68K and x86 RISC - each instruction take exact same act of time. 1 instruction per clock cycle. fixed length. more registers. software break into single steps - no complex circitry like cisc. Software centric. Single-cycle instructions

Hexadecimal to Binary

each number or letter gets 4 bits (8,4,2,1) covert from left to right. Put them together in same order.

How to read in a user input integer?

load immediate, into 5 (READS int, meaning takes in user input) syscall to grab it store it into arry - store the value entered FROM syscall li $v0, 5 syscall move $t0, $v0 *to not overwrite on accident sw $t0, arrayName $t0 - store user inputted value

Load Word - Instruction

lw $t0, 32($s3) loadWord temporaryRegister, index*4(baseArray)

Arrays are held in...

memory

Data Handling

move 1 and 0 around. load into memory, load into reg. store in memory. copy from one location to another. Load, Store, Move

What does a shift operator do

moves all bits to left or right, filling the emptied bits with 0's sll willBeStoredHere, originalValue of word, shift how many places. sll $t1, $s0, 4

In MIPS, words must start addresses that

multiples of 4 *Alignment restriction

Goal: Invert every bit of $s3. Ex: If $s3 is 1010...1010, make $s3 0101...0101. _____ $s3, $s3, _____

nor / $zero $zero is just 0000 1 1 0 1 not or = both zero or both 1 0010

To get a valid byte address you must..

offset needs to be added to the base register by a multiple of 4

Logical operations do what

pack and unpacking of bits into words (32)

table all parts: lw $t1, num

register, memory

Read integer needs what kind of addressing? How do you ensure proper addressing?

to be at an address of a multiple of 4 items: .space 40 may not be aligned with .asciiz etc above it align 2 ( aligns it on a word boundary)


Kaugnay na mga set ng pag-aaral

PN 140 Final Exam NCLEX Practice Questions

View Set

Cognition E-Book Quiz Questions 1

View Set

Nursing Management: Patients With Intestinal and Rectal Disorders

View Set

Computer Security Midterm CH4, Computer Security Midterm CH 2, Information Security Exam 1, Chapter 2 Quiz, Chapter 1, CS356 CSU midterm 1

View Set

CPLP Performance Improvement: Chapter Quiz

View Set

Investment Theory, Models and Alternative Investments

View Set

A Look at the Fast-Food Industry by Eric Schlosser

View Set