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Published byEthelbert Farmer Modified over 9 years ago
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Assertion Based Testing
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Testing and verification Does the design function according to the specifications? Example
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Traditional approach Generate a set of test cases (vectors) Apply to the design.. See if the output is correct I.e. check addition, see if 2+2 = 4; VHDL assert/report statement built to support this activity
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Coverage How many test cases does it take to check ever possible input in a design.. Percent Coverage = % of all possible cases actually tested Number of cases Combinational logic 2 #of inputs (combinatorial explosion) Sequential logic 2 (#of inputs) x (#of states) (combinatorial nuclear holocaust) Input/signal timing verification (even harder) What coverage is enough? – Use designers knowledge, generate functional test.. etc… This technique is no longer adequate for complex designs
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Assertion based testing Verify a design by testing a set of behaviors derived from specifications Rather that test 2+2=4, test A+B=R. Specfic behaviors are called PROPERTIES ASSERTIONS are logical statements about properies (I.e. always true, never true)
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Examples PROPERTIES – P0: (A+B) = R when ALUop = “0001” – P1: (A-B) = R when ALUop = “0010” – P2: ALUop != “1000” ASSERTIONS – Assert never Property ALUop = “1000” – Assert implication Property (A+B) = R when ALUop = “0001” – Assert implication Property (A-B) = R when ALUop = “0010”
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Testing Assertions DESIGN UNDER TEST CASE GENERATOR ASSERTION CHECKER Design inputs Design outputs clock Generates a new test case on each clock edge Tests validity of each assertion on each rising clock edge
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Assertions in HDL designer Open Verification library – Map the library COE1502_OVL into your project. It is located at I:\1502\COE1502_OVL – Find the documentation at http://www.cs.pitt.edu/~don/coe1502/Reference/OVL.html – Each library component implements one type of assertion. – You will need to write VHDL to implement the properties to be tested
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Using OVL in your design Property written in embedded block User defined message string set in generic “msg” Component assert_always instantiated from OVL library
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Building a Testbench A testbench is a structured way of building a framework to test your design HDL designer creates a new block diagram with the component under test and a new component with the same inputs and outputs but with the directionality of each reversed
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Inside the tester component Test case generator Assertion checkers Partitioned by functional block in ALU Outputs to ALU inputs Inputs from ALU outputs
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Inside the test case generator Random Number generators Fixed 64-bit Component rand64 Variable 1-32 bit component randv Set seed value And width
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Inside the logic assertion tester
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Testing signed versus unsigned behaviors --Antecedent Expression antecedent_expr <= true when ALUop="1011" else false; --Consequent Expression consequent_expr = B) AND (R= X"0000_0000_0000_0000" )) else false;
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Testing the Shifters antecedent_expr1 <= true when ALUop="1110" else false; consequent_expr1 <= true when (SHR(A,shamt)) = R else false; antecedent_expr2 <= true when ALUop="1100" else false; consequent_expr2 <= true when (SHL(A,shamt)) = R else false; USE ieee.std_logic_unsigned USE ieee.std_logic_signed
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