ECE582 PROJECT: Equivalence Checking with Formality solution

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Description

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In this project, you will learn how to use a commercial equivalence checker, called formality, to
perform the equivalence checking on RTL design. Formality is an application that uses formal
techniques to prove or disprove the functional equivalence of two designs or two technology
libraries. For example, you can use Formality to compare a gate-level netlist to its register transfer
level (RTL) source or to a modified version of that gate-level netlist. After the comparison,
Formality reports whether the two designs or technology libraries are functionally equivalent. The
equivalence checker is widely used in the industry to reduce design cycle for regression testing.
In this project, we will only run the equivalence check on netlists or RTL level designs. You can
explore other functionalities by yourself.
Software setup:
1. You will need to connect to the RedHat system remotely:
mo.ece.pdx.edu. If you are on campus, you can remote access through Ubuntu PC in the Intel lab.
If you are off campus, check: https://cat.pdx.edu/services/network/vpn-services/ to install PSU
VPN on your system. Then install a remote access software support x-server such as MobaXterm
or putty with xming.
2. Login to mo.ece.pdx.edu with your ECE username and password.
3. Run addpkg and select DC, formality, and then re-log in the system.
4. Create a workstation directory for your formality project in your home directory, place your
Verilog file you want to check in the directory and run fm_shell form there. You can also run
fm_shell -gui in GUI mode, so you can just select your files instead of using commands.
5. Read the tutorial to practice some basic commands.
6. User Manuel can be found at D2L reading materials.
Task 1: Describe the following two circuits C1 and C2 in Verilog. Use the formality to check if
they are equivalence. You need to use the same names on the corresponding inputs and outputs.
Task 1.1:
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Task 2: Use the formality to check if two sequential circuits are equivalent.
Task 2.1: Perform the equivalence check on the following two sequential circuits with formality.
Note:
1. For those who have not used any Synopsys tools before, you might have the license
problem. If you see an error message related to the license or path issue while running
formality, you can use the addpkg command, then add formality 2017. This will set up
the Synopsys license path for you.
2. The report should show the screenshots of the result from the formality.
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