***Step 1:
Switch on power supply of the CPU and then press down arrow or up arrow from the keyboard and then it will display the list of operating systems for ex: in our lab we have windows and Linux( edhat (linux edhat soft wares are redhat! ubuntu! fedora" #! and then select linux and press enter$ %hen it will take some time to display username and password$ Username: root Password: After that you must check for time and IP address of the server system and your system ( you must ensure that server system is on ) both should be same (time may be differed by minutes but IP address should be same).
%hen go o '$ .ile /ew choose the new pro0ect and type Pro0ect /ame and give the Click /ext -nd Click on 1pen Library list editor the Pro0ect location
2. After that Click on Edit
enu
Click on 2dit 3enu -dd standard mgc libraries and again Click on 2dit 3enu -dd mgc4design4kit and
click on O!.
". #hen Click $e%t
Step 2 :
'$ csh
&ive
ight click on Linux and
Click 1pen Setting 2ditor %hen you will see this window
select Open %erminal
Click
($ Source $cshrc )$ lmgrd *$ lmstat +$ ,cstudio -fter displaying the ic studio window ( it will have * blocks in that window(library cell! cell view! view cell and console block cells# #$
Step 3:
�&ive the path of Process .ile! 5 C rules /1%2: -ll the rule files will be in the design4data file! .ile! L6S rules .ile! S5L rules .ile! P27 rules ! %2C8L-9S +! .ile
-fter clicking on it : %he Path is: choose from the directory! : ( we have : and :root directories# in the address bar and then press on mgc4tree click on cccid ;;;;;;;;;;;;;;;;;;;and so on and choose process$ %his process will repeat for 5 C $ L6S! P27 and S5L$ $ -fter adding all Click ok$ -nd Click /ext$ Click .inish$
Click on ,= (of the palette window# Select 3&C452S,&/4>,% ( from the library# and select nmos and click ok$ -nd repeat the same for pmos (to see the details of the transistor click on it #
)) Similarly place 655! port in! port
out! and for ground$ a# Click on I* (of the palette window# Select &C+IC+,E-I&$+.I) ( from the library# and then select 6dd ""
C) #o chan'e the net names
Click on /et Change the net names to ,n and out
Step4 :
a) ight Click in Library <indow
Click /ew Library &ive /ame /ote: ,t will be user library$
b) ight click in Cell &ive Cell
/ame (any name# and choose 6iew %ype: Schematic
On Clickin' (inish
the following window will open
-nd then click on check and save$ ,)
Place 5C voltage source! Pulse voltage
palette
source and connect the circuit as shown ) Similarly place 5C vol and PULS2$
Port in: out
%his window has menu bar! workspace and Palette$
Step 5:
�a# Click on ,= (of the palette window# Select &C+IC+,E-I&$+sources+.I ) (from the library# and then select ""
5C ource to bias Pulse Source
%hen click on pulse source and set delay time to ?(@ero#us$
,f reAuired Change the 6oltage 6alues! <! L values of 31S.2%s as reAuired
Load the eldo models $ %o load the library ! select setup 3odel libraries! and browse for the path$
%o load the eldo models in
E) Clcik on %ools menu %ools &enerate symbol %hen Choose shape then Choose buffer and add circle to shape create an inverter$
(you can select from the -dd circle icon to add a circle to the inverter#$ %hen check and save$
one include file! select Setup include files and browse include files
() Click un$ ,t will enter Simulation
mode$ %hen Click ok$ &) Click on Lib:%emp:,nc Click on libraries
Click import Libraries
�!)
Click un Click on 2C waves4open in new window Click on %ran 5ouble click on reAuired
Import library .ib.eldo files
Include files
#hen press O!. ne%t
waveforms
/) Click %%! 2nter the name in Scenario name
##
Click -dd Scenario
II.To create layout
I)
Click on -nalysis Setup Check %ransient -nalysis ## Click %ransient Setup! &ive the reAuired values
A'ain 'ot ic studio and select original inv file!
ight click in view create new view$ 6iew type: Layout Select
name
B# Click edit waveform Click probe all voltages
6iew type
a#
%hen Click /ext Select Connectivity Source as Schematic Click .inish
Click probe all voltages
%ran
b# &oto setup tool bars S5L tool bar then
� c#
Select p31S.2% and click ,nstance (,=# to place Layout of n31S.2% Layout of P31S 31S.2%s Layout of P31S and /31S with auto connectivity
Select Dgb4p and Select Psub 5raw the psub as shown k layout$
f) Click -dd 5evices
8ere d# Select any one of 655! ,/! 1U%! two down &round and click arrows port to place them on layout 6dd symbo ls for -dd device 6ss
Select nwell draw it near pmos as shown
Complete Layout e# Click ,rout for routing the layout use spacebar for changing the layers (poly! 3etal'! 3etal( etc #
g)
Click on 3etal' text in layers pallet Click %= for naming the nodes$ i$e 655! gnd! ,n !1ut
.# ,n the tool menu
�%ools 4 Calibre4 5 C ! U/ 5 C ,t will give if any errors are there in the layout with red cross tick mark %ools 4 Calibre4 L6S un L6S! ,f L6S is correct then the it will give L6S is correct %ools 4 Calibre4 P27 ,n inputs tab check export from layout viewer 1utputs Click on format! select 5SP. un P27 Click on Start 62 to see to the extracted Parasitic 6alues %his will create the 5SP. file which can be used in the simulation 2ffects$
