VMM TEST「建议收藏」

VMM TEST「建议收藏」vmm_testisintroducedinvmm1.1.Toknowthevmmversionwhichyouareusing,usethiscommandvcs-R-sverilog-ntb_optsdtm        +incdir+$VMM_HOME/sv$VMM_HOME/sv/vmm_versions.svv

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vmm_test is introduced in vmm 1.1.

To know the vmm version which you are using, use this command


vcs -R -sverilog -ntb_opts dtm


         +incdir+$VMM_HOME/sv $VMM_HOME/sv/vmm_versions.sv


vmm_test is used for compiling all the testcases in one compilation. The simulation of each testcase is done individually. Traditionally for each testcase, compile and simulation are done per testcase file. With this new approach, which dose compilation only once, will save lot of cup.


Generally each testcase can be divided into two parts.

  Procedural code part.

  The procedural code part (like passing the above new constrained transaction definition to some atomic generator, calling the env methods etc) has to be defined between these macros. vmm provides 2 macros to define testcase procedural part.

 
`vmm_test_begin
(testcase_name
,vmm_env
,
“Test Case Name String”
)

 
`vmm_test_env
(testcase_name
)

  Declarative code part.

  The declarative part( like new constrained transacting definition) is defined outside these macros.


   Writing A Testcase 

  Let us see an example of writing a testcase.


  Inside the testcase, we will define a new transaction and pass this transaction to the atomic generator.


   Declarative part:

1)   Define all the declarative code.

 
class constrained_tran
extends pcie_transaction
;

 
// Add some constraints

 
// Change some method definitions

 
end
class

2) Define a handle to the above object.

  constrained_tran c_tran_obj
;

   Procedural part:

Use a `vmm_test_begin . There are 3 arguments to macro.

VMM TEST「建议收藏」


The first argument is the name of the testcase class and will also be used as the name of the testcase in the global testcase registry.


VMM TEST「建议收藏」


The second argument is the name of the environment class that will be used to execute the testcase. A data member of that type named “env” will be defined and assigned, ready to be used.


VMM TEST「建议收藏」


The third argument is a string documenting the purpose of the test.


 
`vmm_test_begin
(test_1
,vmm_env
,
“Test_1”
)

  In this testcase, we want to pass the c_tran_obj object. The steps t pass the c_tran_obj as per the vmm_env is

  env
.build
();

  c_tran_obj
=
new
(
” “
);

  env
.atomic_gen
.randomized_obj
= c_tran_obj
;

  Start the vmm_env execution.

  env
.run
();

  Now use `vmm_test_end to define the end of the testcase. The argument to this is the testcase name.

 
`vmm_test_end
(test_1
)

Following is the full testcase source code which we discussed above
.


   Testcase source code

 

 
class constrained_tran
extends pcie_transaction
;

 
end
class

  constrained_tran c_tran_obj

`vmm_test_begin
(test_1
,vmm_env
,
“Test_1”
)

  
$display
(
” Start of Testcase :  Test_1 “
);

   env
.build
();

   c_tran_obj
=
new
(
” “
);

   env
.atomic_gen
.randomized_obj
= c_tran_obj
;

   env
.run
();

  
$display
(
” End of Testcase : Test_1 “
);


`vmm_test_end
(test_1
)

Like this you can write many testcases in separate file or single file.

   Example Of Using Vmm_test 

Now we will implement 3 simple testcases and a main testcase which will be used for selecting any one of the 3 testcases.

   testcase_1

Write this testcase in a testcase_1.sv file


// Define all the declarative code hear. I done have anything to show you.


//


//  class constrained_tran extends pcie_transaction;


//


//  end class


//


//  constrained_tran c_tran_obj

`vmm_test_begin
(test_1
,vmm_env
,
“Test_1”
)

  
$display
(
” Start of Testcase :  Test_1 “
);

  
// This is procedural part. You can call build method.

   env
.build
();

  
// You can pass the above created transaction to atomic gen.

  
// c_tran_obj = new(” “);

  
// env.atomic_gen.randomized_obj = c_tran_obj;

  
//

  
//

  

   env
.run
();

  
$display
(
” End of Testcase : Test_1 “
);


`vmm_test_end
(test_1
)

  testcase_2

Write this testcase in a testcase_2.sv file


`vmm_test_begin
(test_2
,vmm_env
,
“Test_2”
)

  
$display
(
” Start of Testcase :  Test_2 “
);

  
// Do something like this ….

   env
.build
();

  
// like this ….

   env
.run
();

  
$display
(
” End of Testcase : Test_2 “
);


`vmm_test_end
(test_2
)

  testcase_3

Write this testcase in a testcase_3.sv file


`vmm_test_begin
(test_3
,vmm_env
,
“Test_3”
)

  
$display
(
” Start of Testcase :  Test_3 “
);

  
// Do something like this ….

   env
.build
();

  
// like this ….

   env
.run
();

  
$display
(
” End of Testcase : Test_3 “
);


`vmm_test_end
(test_3
)

  main testcase

Now we will write the main testcase. This doesn’t have any test scenario, it is only used for handling the above 3 testcases.


  This should be written in program block.

1)  First include all the above testcases inside the program block.

 
`include
“testcase_1.sv”

 
`include
“testcase_2.sv”

 
`include
“testcase_3.sv”

2)  Define env class object.

  vmm_env env
=
new
();

  As I dont have a custom env class to show, I used vmm_env. You can use your custom defined env.


 


3)  In the initial block call the run() method of vmm_test_registry class and pass the above env object as argument. This run method of vmm_test_registry is a static method, so there is no need to create an object of this class.

vmm_test_registry
::run
(env
);


   Main testcase source code

`include
“vmm.sv”


program main
();

 
`include
“testcase_1.sv”

 
`include
“testcase_2.sv”

 
`include
“testcase_3.sv”

   vmm_env env
;

  

  
initial

  
begin

  
$display
(
” START OF TEST CASE “
);

   env
=
new
();

   vmm_test_registry
::run
(env
);

  
$display
(
” START OF TEST CASE “
);

  
end

  

  


endprogram


Now compile the above code using command.





vcs -sverilog main_testcase.sv +incdir+$VMM_HOME/sv

Now simulate the above compiled code.

To simulate , just do ./simv and see the log.


You can see the list of the testcases. This simulation will not ececute any testcase.

  LOG

  START OF TEST CASE


*FATAL*[FAILURE] on vmm_test_registry(class) at                    0:


    No test was selected at runtime using +vmm_test=<test>.


    Available tests are:


       0) Default : Default testcase that simply calls env::run()


       1) test_1  : Test_1


       2) test_2  : Test_2


       3) test_3  : Test_3


To run testcase_1 use ./simv +vmm_test=test_1

  LOG

   START OF TEST CASE


Normal[NOTE] on vmm_test_registry(class) at                    0:


    Running test “test_1″…


Start of Testcase :  Test_1


Simulation PASSED on /./ (/./) at                    0 (0 warnings, 0 demoted errors & 0 demoted warnings)


End of Testcase : Test_1


START OF TEST CASE


  Simillarly to run testcase_2 ./simv +vmm_test=test_2

  LOG

START OF TEST CASE


Normal[NOTE] on vmm_test_registry(class) at                    0:


    Running test “test_2″…


Start of Testcase :  Test_2


Simulation PASSED on /./ (/./) at                    0 (0 warnings, 0 demoted errors & 0 demoted warnings)


End of Testcase : Test_2


START OF TEST CASE


You can also call the Default testcase, which just calls the  env::run()

./simv +vmm_test=Default

  LOG

START OF TEST CASE


Normal[NOTE] on vmm_test_registry(class) at                    0:


    Running test “Default”…


Simulation PASSED on /./ (/./) at                    0 (0 warnings, 0 demoted errors & 0 demoted warnings)


START OF TEST CASE

 


   Download the source code

vmm_test.tar


Browse the code in vmm_test.tar


   Command to compile

   vcs -sverilog -ntb_opts dtm +incdir+$VMM_HOME/sv main_testcase.sv

   Commands to simulate testcases

  ./simv


  ./simv +vmm_test=Default


  ./simv +vmm_test=test_1


  ./simv +vmm_test=test_2


  ./simv +vmm_test=test_3

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