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Hello friends, welcome to Gate Smashers
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In today's video we are going to
discuss that how the registers are
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communicating with each other
with the help of common bus.
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That means how registers transfer data
to each other with the help of common bus
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As we have seen in the last video in
the Von Neumann's architecture that
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different types of devices
communicate with each other
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And registers are one of the important points here
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because we use different
types of registers in the computer
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Like program counter, input register,
output register, accumulator,
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data register, temporary registers
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These different types of registers are
what they are using inside the computer
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to execute the programs
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Means the most important thing that we
want to execute the data and instruction
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the registers are helping the most
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And here all the registers that we are
using to connect them, what do we have?
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Common bus, means we are using bus
architecture here
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and to make the bus, we are
taking the help of multiplexers
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So here you will be absolutely
clear from this diagram
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In this diagram also
if we see, first of all
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we have 4 registers,
register A, B, C and D
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And these 4 are 4 bit registers that I
have taken here but generally what we use
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in computers are 16 bit registers
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But if we make such big registers with so
much data then
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the diagram will become very complex
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So here I have 4 bit registers 0, 1, 2, 3
and anyway registers are sequence of
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bits, sequence of flip flops
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So apart from that if we talk here, I
have taken 4*1 multiplexers, there are 4
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multiplexers and in all 4 4*1 means
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That there are 4 inputs and output is
1 and if there are 4 inputs then how
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many select lines will there be?
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There will be 2 select lines S0 and S1
and with the help of these select lines
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what we will do is
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How we allow the
output or registers to
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load the data and
share it with each other
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With example we
will see this but first of
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all if we talk here how
we have connected it
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So see the first
bit of register A0 is
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connected with this
A1, A2, A3 with this
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And the same B0 is with the first, B1
with the second, B2 with the third,
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B3 with the fourth I have
just made a connection
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of these 4 only
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because if we make all these
connections here
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diagram will become very complex,
you will not be clear
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But if you see these
bits then you will get
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an idea that which bit
is connected with which
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So we understand from this example,
first of all if we talk let's say that the
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select lines we have
are S1 and S0, S1 and S0
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Now if we talk here what values
can be there? 00, 01, 10, 11
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And if we talk about multiplexers
then how does it work?
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Let's say 1, 2, 3, 4 these are 4 inputs
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0, 1, 2, 3 and 2 select lines
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So if S1 and S0 are 0, 0
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means if this value value is 0, 0
multiplexer's property tells
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That it picks up the 0th input, if it is
01 then first input
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If it is 10 then it will pick second,
if it is 11 then it will pick third
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and show it in the output
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So we are using the same here, you
should know the multiplexer property
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Then it will be easily clear to you,
so let's say if we apply 00
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Select lines are here,
so what did we apply
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00, so what will happen?
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As we applied 00, the a0 will be selected,
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means a0 here will become,
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Output, first of all from this
one, it will pick up 0th one
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As I just told you,
as we give 00 here
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it will pick the 0th value, the 0th input
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So here 0th input is? a0,
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here which is the 0th input? a1,
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what is the 0th input here? a2
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And here which is the 0th input? a3,
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so what will be in output? These four will!
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And what will it become?
a3, a2, a1, a0, so what does it mean?
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That the value of the
register number a will
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be selected and you
can also say it like this
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That the data of register
a will be loaded on the bus
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Now we can give it to any register
from the bus, to ALU
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can give it to memory
We can transfer it anywhere,
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all the devices
connected with the bus
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And if we see 01, let's say
what value did I pass in select line? 01
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So as soon as we give 01, so see which
value will it pick up?
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this value of 1.
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So let's say if we give 01 here,
so what is the first value here?
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First one b0, this first bit is b0,
so b0, what is here? b1,
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what is here? b2, what is here? b3
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So see which register
was chosen here
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which register data will be
loaded on the bus? b
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Similarly, here 1 0, so
what will happen in 1 0?
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the third value will be loaded
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the third bit of everything here
It will be loaded,
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so the third of this?
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Basically the third of this
is c0, c1, c2, c3,
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c register data will be loaded on the bus
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Or multiplexer will load the data on the bus,
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if it's 1 1, D data will be loaded
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See as soon as 1 comes, so 1 1
means the last bit,
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fourth I mean third bit,
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because we start numbering from 0
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So this is d0, d1, d2, d3, see these
lines are already connected here
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So the data here will be
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It will be loaded, the register
data will be loaded on the bus
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So if any instruction
is written here that
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let's say we have to
load data of a on the bus
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So to load data of a on the bus,
what you have to do is
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pass select lines value as 0, 0
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So the data of a register
will be loaded on the bus
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And if we talk like
this, let's say if we
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want to give this
data to b from the bus.
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The data of a has already come on the bus
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Now we have to give this data to b,
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pick data from a and send it to b
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So how will we do it? nothing,
we will connect these lines with b
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Already these lines will be connected,
but here I have not made a diagram, so
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you make it and see What you have to
do is, we bring these lines down like this
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Here all these lines will be connected
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Third line will be done and
this is our most significant
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So LSB, 2nd, 3rd and 4th, all these lines
will come down and what we have to do
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is simply connect
them here Like this
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similarly it will be
connected with C, D and A
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And our instruction is, first
load the data of A on the bus
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So what we did to load the data
of a register on the bus is
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turned the value of select line 0, 0
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So the data is loaded on the bus, now
what we have to do is,
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give that data to b, to do so, here
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we load
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on every register there will be
Load signal or load bit
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with the control unit
turn load bit or load signal to 1
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where? In this case,
we have to activate b
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Because our instruction is saying that
load the data of a on the bus first, we
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have done that by
making the select lines 0, 0
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Now what we have to do is, with control signal
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activate the load value of b?
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will make it 1, for others it is 0
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Although this data is going to C,
although this whole data is going to C
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A already has it and
similarly data is going to D
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But who will pick up that data here?
That data will pick up only b
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Because instruction says that we
have to give that data to b, so control unit
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will send which signal here?
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What will be the load of b?
Will be 1, will be active
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So this is how the registers
communicate with each other using the bus
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Now here if we talk about gate, net or
any competitive level of exam
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So what questions can come here?
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about numerical question
or one mark question
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So here first of all they can ask
number of multiplexers required
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Means how many number
of multiplexers I will need here
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So according to the question here
every multiplexer is picking up one bit
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This is 0th bit, this is 1st bit,
this is 2nd bit, this is 4th bit
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See here it picked up 0th bit, it has
to pick up 1st bit, it has to select 2nd
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bit, it has to select 3rd bit
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So if we talk about number of
multiplexers, our first question is
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number of multiplexers required
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Number of mux required will
be number of bits in register
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Means all the bits in register,
let's say if there are 8 bits in register
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If there are 8 bits in every register
then number of multiplexer is 8
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If we have 16 bits in register then
number of registers required is 16
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And second question is that the
inputs, number of inputs in multiplexer
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Means we took 4*1
multiplexer here,
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let's say we need 8*1,
16*1, how much we need
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How will we know that number of
inputs in the multiplexer will come equal to
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number of register
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How much? equal to number of register,
see here number of multiplexers is equal
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to number of register Means all the
bits are 0th bit, 1 bit, 2nd bit, 3rd bit
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Let's say if I increase
2 more bits here,
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4th and 5th, then
who will pick up 4th bit
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Here I will need
one more multiplexer,
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for 5th bit I will need
one more multiplexer
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So if we have number of bits is 10, then
how many multiplexers are required? 10
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But here if we talk about this
multiplexer, I need 4*1 or how much?
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To make K*1 multiplexer what you need?
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Number of registers
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1, 2, 3 and 4, so these are two
important points asked in exams
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So note these two points and apart
from this if we talk about how we make
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architecture How we use it,
then we use bus architecture here
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So this is how the different registers
communicate with each other and they
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share the data.
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So how many types of
registers are there, how
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we use them, we will
see in the next video
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Thank you
