Unified Coverage Report :: Module

Line Coverage for Module : prim_intr_hw ( parameter Width=1,FlopOutput=1,IntrT="Event" )
Line Coverage for Module self-instances :

SCORE	LINE
100.00	100.00

tb.dut.u_intr_cmdfifo_not_empty

SCORE	LINE
100.00	100.00

tb.dut.u_intr_payload_not_empty

SCORE	LINE
100.00	100.00

tb.dut.u_intr_payload_overflow

SCORE	LINE
100.00	100.00

tb.dut.u_intr_readbuf_watermark

SCORE	LINE
100.00	100.00

tb.dut.u_intr_readbuf_flip

SCORE	LINE
100.00	100.00

tb.dut.u_intr_tpm_rdfifo_cmd_end

SCORE	LINE
97.92	100.00

tb.dut.u_intr_tpm_rdfifo_drop

	Line No.	Total	Covered	Percent
TOTAL		7	7	100.00
CONT_ASSIGN	62	1	1	100.00
CONT_ASSIGN	64	1	1	100.00
CONT_ASSIGN	67	1	1	100.00
CONT_ASSIGN	69	1	1	100.00
ALWAYS	95	3	3	100.00



61                          logic  [Width-1:0]    new_event;
62         1/1              assign new_event =
           Tests:       T1 T2 T3 
63                                     (({Width{reg2hw_intr_test_qe_i}} & reg2hw_intr_test_q_i) | event_intr_i);
64         1/1              assign hw2reg_intr_state_de_o = |new_event;
           Tests:       T1 T2 T3 
65                          // for scalar interrupts, this resolves to '1' with new event
66                          // for vector interrupts, new events are OR'd in to existing interrupt state
67         1/1              assign hw2reg_intr_state_d_o  =  new_event | reg2hw_intr_state_q_i;
           Tests:       T1 T2 T3 
68                      
69         1/1              assign status = reg2hw_intr_state_q_i ;
           Tests:       T1 T2 T3 
70                        end : g_intr_event
71                        else if (IntrT == "Status") begin : g_intr_status
72                          logic [Width-1:0] test_q; // Storing test. Cleared by SW
73                      
74                          always_ff @(posedge clk_i or negedge rst_ni) begin
75                            if (!rst_ni) test_q <= '0;
76                            else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
77                          end
78                      
79                          // TODO: In Status type, INTR_STATE is better to be external type and RO.
80                          assign hw2reg_intr_state_de_o = 1'b 1; // always represent the status
81                          assign hw2reg_intr_state_d_o  = event_intr_i | test_q;
82                      
83                          assign status = event_intr_i | test_q;
84                      
85                          // To make the timing same to event type, status signal does not use CSR.q,
86                          // rather the input of the CSR.
87                          logic unused_reg2hw;
88                          assign unused_reg2hw = ^reg2hw_intr_state_q_i;
89                        end : g_intr_status
90                      
91                      
92                        if (FlopOutput == 1) begin : gen_flop_intr_output
93                          // flop the interrupt output
94                          always_ff @(posedge clk_i or negedge rst_ni) begin
95         1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
96         1/1                  intr_o <= '0;
           Tests:       T1 T2 T3 
97                            end else begin
98         1/1                  intr_o <= status & reg2hw_intr_enable_q_i;
           Tests:       T1 T2 T3

Line Coverage for Module : prim_intr_hw ( parameter Width=1,FlopOutput=1,IntrT="Status" )
Line Coverage for Module self-instances :

SCORE	LINE
100.00	100.00

tb.dut.u_intr_tpm_cmdaddr_notempty

	Line No.	Total	Covered	Percent
TOTAL		10	10	100.00
ALWAYS	75	4	4	100.00
CONT_ASSIGN	81	1	1	100.00
CONT_ASSIGN	83	1	1	100.00
CONT_ASSIGN	88	1	1	100.00
ALWAYS	95	3	3	100.00



74                          always_ff @(posedge clk_i or negedge rst_ni) begin
75         2/2                if (!rst_ni) test_q <= '0;
           Tests:       T1 T2 T3  | T1 T2 T3 
76         2/2                else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
           Tests:       T1 T2 T3  | T32 T33 T34 
                        MISSING_ELSE
77                          end
78                      
79                          // TODO: In Status type, INTR_STATE is better to be external type and RO.
80                          assign hw2reg_intr_state_de_o = 1'b 1; // always represent the status
81         1/1              assign hw2reg_intr_state_d_o  = event_intr_i | test_q;
           Tests:       T1 T2 T3 
82                      
83         1/1              assign status = event_intr_i | test_q;
           Tests:       T1 T2 T3 
84                      
85                          // To make the timing same to event type, status signal does not use CSR.q,
86                          // rather the input of the CSR.
87                          logic unused_reg2hw;
88         1/1              assign unused_reg2hw = ^reg2hw_intr_state_q_i;
           Tests:       T1 T2 T3 
89                        end : g_intr_status
90                      
91                      
92                        if (FlopOutput == 1) begin : gen_flop_intr_output
93                          // flop the interrupt output
94                          always_ff @(posedge clk_i or negedge rst_ni) begin
95         1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
96         1/1                  intr_o <= '0;
           Tests:       T1 T2 T3 
97                            end else begin
98         1/1                  intr_o <= status & reg2hw_intr_enable_q_i;
           Tests:       T1 T2 T3

Cond Coverage for Module : prim_intr_hw ( parameter Width=1,FlopOutput=1,IntrT="Event" )
Cond Coverage for Module self-instances :

SCORE	COND
100.00	100.00

tb.dut.u_intr_cmdfifo_not_empty

SCORE	COND
100.00	100.00

tb.dut.u_intr_payload_not_empty

SCORE	COND
100.00	100.00

tb.dut.u_intr_payload_overflow

SCORE	COND
100.00	100.00

tb.dut.u_intr_readbuf_watermark

SCORE	COND
100.00	100.00

tb.dut.u_intr_readbuf_flip

SCORE	COND
100.00	100.00

tb.dut.u_intr_tpm_rdfifo_cmd_end

SCORE	COND
97.92	91.67

tb.dut.u_intr_tpm_rdfifo_drop

	Total	Covered	Percent
Conditions	12	12	100.00
Logical	12	12	100.00
Non-Logical	0	0
Event	0	0

 LINE       62
 EXPRESSION ((({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i) | event_intr_i)
             -----------------------------1----------------------------   ------2-----

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T12,T13,T45
1	0	Covered	T32,T33,T34

 LINE       62
 SUB-EXPRESSION (({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i)
                 ----------------1----------------   ----------2---------

-1-	-2-	Status	Tests
0	1	Covered	T1,T2,T3
1	0	Covered	T32,T33,T34
1	1	Covered	T32,T33,T34

 LINE       67
 EXPRESSION (g_intr_event.new_event | reg2hw_intr_state_q_i)
             -----------1----------   ----------2----------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T12,T13,T45
1	0	Covered	T12,T13,T45

 LINE       98
 EXPRESSION (status & reg2hw_intr_enable_q_i)
             ---1--   -----------2----------

-1-	-2-	Status	Tests
0	1	Covered	T32,T33,T34
1	0	Covered	T12,T13,T45
1	1	Covered	T32,T33,T34

Cond Coverage for Module : prim_intr_hw ( parameter Width=1,FlopOutput=1,IntrT="Status" )
Cond Coverage for Module self-instances :

SCORE	COND
100.00	100.00

tb.dut.u_intr_tpm_cmdaddr_notempty

	Total	Covered	Percent
Conditions	9	9	100.00
Logical	9	9	100.00
Non-Logical	0	0
Event	0	0

 LINE       81
 EXPRESSION (event_intr_i | g_intr_status.test_q)
             ------1-----   ----------2---------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T32,T33,T34
1	0	Covered	T6,T24,T26

 LINE       83
 EXPRESSION (event_intr_i | g_intr_status.test_q)
             ------1-----   ----------2---------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T32,T33,T34
1	0	Covered	T6,T24,T26

 LINE       98
 EXPRESSION (status & reg2hw_intr_enable_q_i)
             ---1--   -----------2----------

-1-	-2-	Status	Tests
0	1	Covered	T32,T33,T34
1	0	Covered	T6,T24,T26
1	1	Covered	T32,T33,T34

Branch Coverage for Module : prim_intr_hw ( parameter Width=1,FlopOutput=1,IntrT="Event" )
Branch Coverage for Module self-instances :

SCORE	BRANCH
100.00	100.00

tb.dut.u_intr_cmdfifo_not_empty

SCORE	BRANCH
100.00	100.00

tb.dut.u_intr_payload_not_empty

SCORE	BRANCH
100.00	100.00

tb.dut.u_intr_payload_overflow

SCORE	BRANCH
100.00	100.00

tb.dut.u_intr_readbuf_watermark

SCORE	BRANCH
100.00	100.00

tb.dut.u_intr_readbuf_flip

SCORE	BRANCH
100.00	100.00

tb.dut.u_intr_tpm_rdfifo_cmd_end

SCORE	BRANCH
97.92	100.00

tb.dut.u_intr_tpm_rdfifo_drop

	Line No.	Total	Covered	Percent
Branches		2	2	100.00
IF	95	2	2	100.00



95               if (!rst_ni) begin
                 -1-  
96                 intr_o <= '0;
                   ==>
97               end else begin
98                 intr_o <= status & reg2hw_intr_enable_q_i;
                   ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T1,T2,T3

Branch Coverage for Module : prim_intr_hw ( parameter Width=1,FlopOutput=1,IntrT="Status" )
Branch Coverage for Module self-instances :

SCORE	BRANCH
100.00	100.00

tb.dut.u_intr_tpm_cmdaddr_notempty

	Line No.	Total	Covered	Percent
Branches		5	5	100.00
IF	75	3	3	100.00
IF	95	2	2	100.00



75               if (!rst_ni) test_q <= '0;
                 -1-  
                 ==>
76               else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
                      -2-  
                 ==>
                 MISSING_ELSE
                 ==>

Branches:

-1-	-2-	Status	Tests
1	-	Covered	T1,T2,T3
0	1	Covered	T32,T33,T34
0	0	Covered	T1,T2,T3



95               if (!rst_ni) begin
                 -1-  
96                 intr_o <= '0;
                   ==>
97               end else begin
98                 intr_o <= status & reg2hw_intr_enable_q_i;
                   ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T1,T2,T3

Assert Coverage for Module : prim_intr_hw

	Total	Attempted	Percent	Succeeded/Matched	Percent
Assertions	1	1	100.00	1	100.00
Cover properties	0	0		0
Cover sequences	0	0		0
Total	1	1	100.00	1	100.00

Assertion Details

Name	Attempts	Real Successes	Failures	Incomplete
IntrTKind_A	7648	7648	0	0

IntrTKind_A

Name	Attempts	Real Successes
Total	7648	7648
T1	8	8
T2	8	8
T3	8	8
T4	8	8
T5	8	8
T6	8	8
T7	8	8
T8	8	8
T9	8	8
T10	8	8

Line Coverage for Instance : tb.dut.u_intr_tpm_rdfifo_drop

	Line No.	Total	Covered	Percent
TOTAL		7	7	100.00
CONT_ASSIGN	62	1	1	100.00
CONT_ASSIGN	64	1	1	100.00
CONT_ASSIGN	67	1	1	100.00
CONT_ASSIGN	69	1	1	100.00
ALWAYS	95	3	3	100.00



61                          logic  [Width-1:0]    new_event;
62         1/1              assign new_event =
           Tests:       T1 T2 T3 
63                                     (({Width{reg2hw_intr_test_qe_i}} & reg2hw_intr_test_q_i) | event_intr_i);
64         1/1              assign hw2reg_intr_state_de_o = |new_event;
           Tests:       T6 T24 T26 
65                          // for scalar interrupts, this resolves to '1' with new event
66                          // for vector interrupts, new events are OR'd in to existing interrupt state
67         1/1              assign hw2reg_intr_state_d_o  =  new_event | reg2hw_intr_state_q_i;
           Tests:       T1 T2 T3 
68                      
69         1/1              assign status = reg2hw_intr_state_q_i ;
           Tests:       T1 T2 T3 
70                        end : g_intr_event
71                        else if (IntrT == "Status") begin : g_intr_status
72                          logic [Width-1:0] test_q; // Storing test. Cleared by SW
73                      
74                          always_ff @(posedge clk_i or negedge rst_ni) begin
75                            if (!rst_ni) test_q <= '0;
76                            else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
77                          end
78                      
79                          // TODO: In Status type, INTR_STATE is better to be external type and RO.
80                          assign hw2reg_intr_state_de_o = 1'b 1; // always represent the status
81                          assign hw2reg_intr_state_d_o  = event_intr_i | test_q;
82                      
83                          assign status = event_intr_i | test_q;
84                      
85                          // To make the timing same to event type, status signal does not use CSR.q,
86                          // rather the input of the CSR.
87                          logic unused_reg2hw;
88                          assign unused_reg2hw = ^reg2hw_intr_state_q_i;
89                        end : g_intr_status
90                      
91                      
92                        if (FlopOutput == 1) begin : gen_flop_intr_output
93                          // flop the interrupt output
94                          always_ff @(posedge clk_i or negedge rst_ni) begin
95         1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
96         1/1                  intr_o <= '0;
           Tests:       T1 T2 T3 
97                            end else begin
98         1/1                  intr_o <= status & reg2hw_intr_enable_q_i;
           Tests:       T1 T2 T3

Cond Coverage for Instance : tb.dut.u_intr_tpm_rdfifo_drop

	Total	Covered	Percent
Conditions	12	11	91.67
Logical	12	11	91.67
Non-Logical	0	0
Event	0	0

 LINE       62
 EXPRESSION ((({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i) | event_intr_i)
             -----------------------------1----------------------------   ------2-----

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Not Covered
1	0	Covered	T32,T33,T34

 LINE       62
 SUB-EXPRESSION (({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i)
                 ----------------1----------------   ----------2---------

-1-	-2-	Status	Tests
0	1	Covered	T1,T2,T4
1	0	Covered	T32,T33,T34
1	1	Covered	T32,T33,T34

 LINE       67
 EXPRESSION (g_intr_event.new_event | reg2hw_intr_state_q_i)
             -----------1----------   ----------2----------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T32,T33,T34
1	0	Covered	T32,T33,T34

 LINE       98
 EXPRESSION (status & reg2hw_intr_enable_q_i)
             ---1--   -----------2----------

-1-	-2-	Status	Tests
0	1	Covered	T32,T33,T34
1	0	Covered	T32,T33,T34
1	1	Covered	T32,T33,T34

Branch Coverage for Instance : tb.dut.u_intr_tpm_rdfifo_drop

	Line No.	Total	Covered	Percent
Branches		2	2	100.00
IF	95	2	2	100.00



95               if (!rst_ni) begin
                 -1-  
96                 intr_o <= '0;
                   ==>
97               end else begin
98                 intr_o <= status & reg2hw_intr_enable_q_i;
                   ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T1,T2,T3

Assert Coverage for Instance : tb.dut.u_intr_tpm_rdfifo_drop

	Total	Attempted	Percent	Succeeded/Matched	Percent
Assertions	1	1	100.00	1	100.00
Cover properties	0	0		0
Cover sequences	0	0		0
Total	1	1	100.00	1	100.00

Assertion Details

Name	Attempts	Real Successes	Failures	Incomplete
IntrTKind_A	956	956	0	0

IntrTKind_A

Name	Attempts	Real Successes
Total	956	956
T1	1	1
T2	1	1
T3	1	1
T4	1	1
T5	1	1
T6	1	1
T7	1	1
T8	1	1
T9	1	1
T10	1	1

Line Coverage for Instance : tb.dut.u_intr_cmdfifo_not_empty

	Line No.	Total	Covered	Percent
TOTAL		7	7	100.00
CONT_ASSIGN	62	1	1	100.00
CONT_ASSIGN	64	1	1	100.00
CONT_ASSIGN	67	1	1	100.00
CONT_ASSIGN	69	1	1	100.00
ALWAYS	95	3	3	100.00



61                          logic  [Width-1:0]    new_event;
62         1/1              assign new_event =
           Tests:       T1 T2 T3 
63                                     (({Width{reg2hw_intr_test_qe_i}} & reg2hw_intr_test_q_i) | event_intr_i);
64         1/1              assign hw2reg_intr_state_de_o = |new_event;
           Tests:       T1 T2 T3 
65                          // for scalar interrupts, this resolves to '1' with new event
66                          // for vector interrupts, new events are OR'd in to existing interrupt state
67         1/1              assign hw2reg_intr_state_d_o  =  new_event | reg2hw_intr_state_q_i;
           Tests:       T1 T2 T3 
68                      
69         1/1              assign status = reg2hw_intr_state_q_i ;
           Tests:       T1 T2 T3 
70                        end : g_intr_event
71                        else if (IntrT == "Status") begin : g_intr_status
72                          logic [Width-1:0] test_q; // Storing test. Cleared by SW
73                      
74                          always_ff @(posedge clk_i or negedge rst_ni) begin
75                            if (!rst_ni) test_q <= '0;
76                            else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
77                          end
78                      
79                          // TODO: In Status type, INTR_STATE is better to be external type and RO.
80                          assign hw2reg_intr_state_de_o = 1'b 1; // always represent the status
81                          assign hw2reg_intr_state_d_o  = event_intr_i | test_q;
82                      
83                          assign status = event_intr_i | test_q;
84                      
85                          // To make the timing same to event type, status signal does not use CSR.q,
86                          // rather the input of the CSR.
87                          logic unused_reg2hw;
88                          assign unused_reg2hw = ^reg2hw_intr_state_q_i;
89                        end : g_intr_status
90                      
91                      
92                        if (FlopOutput == 1) begin : gen_flop_intr_output
93                          // flop the interrupt output
94                          always_ff @(posedge clk_i or negedge rst_ni) begin
95         1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
96         1/1                  intr_o <= '0;
           Tests:       T1 T2 T3 
97                            end else begin
98         1/1                  intr_o <= status & reg2hw_intr_enable_q_i;
           Tests:       T1 T2 T3

Cond Coverage for Instance : tb.dut.u_intr_cmdfifo_not_empty

	Total	Covered	Percent
Conditions	12	12	100.00
Logical	12	12	100.00
Non-Logical	0	0
Event	0	0

 LINE       62
 EXPRESSION ((({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i) | event_intr_i)
             -----------------------------1----------------------------   ------2-----

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T13,T41,T40
1	0	Covered	T32,T33,T34

 LINE       62
 SUB-EXPRESSION (({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i)
                 ----------------1----------------   ----------2---------

-1-	-2-	Status	Tests
0	1	Covered	T1,T4,T5
1	0	Covered	T32,T33,T34
1	1	Covered	T32,T33,T34

 LINE       67
 EXPRESSION (g_intr_event.new_event | reg2hw_intr_state_q_i)
             -----------1----------   ----------2----------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T13,T41,T40
1	0	Covered	T13,T41,T40

 LINE       98
 EXPRESSION (status & reg2hw_intr_enable_q_i)
             ---1--   -----------2----------

-1-	-2-	Status	Tests
0	1	Covered	T32,T33,T34
1	0	Covered	T13,T41,T40
1	1	Covered	T32,T33,T34

Branch Coverage for Instance : tb.dut.u_intr_cmdfifo_not_empty

	Line No.	Total	Covered	Percent
Branches		2	2	100.00
IF	95	2	2	100.00



95               if (!rst_ni) begin
                 -1-  
96                 intr_o <= '0;
                   ==>
97               end else begin
98                 intr_o <= status & reg2hw_intr_enable_q_i;
                   ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T1,T2,T3

Assert Coverage for Instance : tb.dut.u_intr_cmdfifo_not_empty

	Total	Attempted	Percent	Succeeded/Matched	Percent
Assertions	1	1	100.00	1	100.00
Cover properties	0	0		0
Cover sequences	0	0		0
Total	1	1	100.00	1	100.00

Assertion Details

Name	Attempts	Real Successes	Failures	Incomplete
IntrTKind_A	956	956	0	0

IntrTKind_A

Name	Attempts	Real Successes
Total	956	956
T1	1	1
T2	1	1
T3	1	1
T4	1	1
T5	1	1
T6	1	1
T7	1	1
T8	1	1
T9	1	1
T10	1	1

Line Coverage for Instance : tb.dut.u_intr_payload_not_empty

	Line No.	Total	Covered	Percent
TOTAL		7	7	100.00
CONT_ASSIGN	62	1	1	100.00
CONT_ASSIGN	64	1	1	100.00
CONT_ASSIGN	67	1	1	100.00
CONT_ASSIGN	69	1	1	100.00
ALWAYS	95	3	3	100.00



61                          logic  [Width-1:0]    new_event;
62         1/1              assign new_event =
           Tests:       T1 T2 T3 
63                                     (({Width{reg2hw_intr_test_qe_i}} & reg2hw_intr_test_q_i) | event_intr_i);
64         1/1              assign hw2reg_intr_state_de_o = |new_event;
           Tests:       T1 T2 T3 
65                          // for scalar interrupts, this resolves to '1' with new event
66                          // for vector interrupts, new events are OR'd in to existing interrupt state
67         1/1              assign hw2reg_intr_state_d_o  =  new_event | reg2hw_intr_state_q_i;
           Tests:       T1 T2 T3 
68                      
69         1/1              assign status = reg2hw_intr_state_q_i ;
           Tests:       T1 T2 T3 
70                        end : g_intr_event
71                        else if (IntrT == "Status") begin : g_intr_status
72                          logic [Width-1:0] test_q; // Storing test. Cleared by SW
73                      
74                          always_ff @(posedge clk_i or negedge rst_ni) begin
75                            if (!rst_ni) test_q <= '0;
76                            else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
77                          end
78                      
79                          // TODO: In Status type, INTR_STATE is better to be external type and RO.
80                          assign hw2reg_intr_state_de_o = 1'b 1; // always represent the status
81                          assign hw2reg_intr_state_d_o  = event_intr_i | test_q;
82                      
83                          assign status = event_intr_i | test_q;
84                      
85                          // To make the timing same to event type, status signal does not use CSR.q,
86                          // rather the input of the CSR.
87                          logic unused_reg2hw;
88                          assign unused_reg2hw = ^reg2hw_intr_state_q_i;
89                        end : g_intr_status
90                      
91                      
92                        if (FlopOutput == 1) begin : gen_flop_intr_output
93                          // flop the interrupt output
94                          always_ff @(posedge clk_i or negedge rst_ni) begin
95         1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
96         1/1                  intr_o <= '0;
           Tests:       T1 T2 T3 
97                            end else begin
98         1/1                  intr_o <= status & reg2hw_intr_enable_q_i;
           Tests:       T1 T2 T3

Cond Coverage for Instance : tb.dut.u_intr_payload_not_empty

	Total	Covered	Percent
Conditions	12	12	100.00
Logical	12	12	100.00
Non-Logical	0	0
Event	0	0

 LINE       62
 EXPRESSION ((({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i) | event_intr_i)
             -----------------------------1----------------------------   ------2-----

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T41,T40,T44
1	0	Covered	T32,T33,T34

 LINE       62
 SUB-EXPRESSION (({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i)
                 ----------------1----------------   ----------2---------

-1-	-2-	Status	Tests
0	1	Covered	T1,T4,T5
1	0	Covered	T32,T33,T34
1	1	Covered	T32,T33,T34

 LINE       67
 EXPRESSION (g_intr_event.new_event | reg2hw_intr_state_q_i)
             -----------1----------   ----------2----------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T41,T40,T44
1	0	Covered	T41,T40,T44

 LINE       98
 EXPRESSION (status & reg2hw_intr_enable_q_i)
             ---1--   -----------2----------

-1-	-2-	Status	Tests
0	1	Covered	T32,T33,T34
1	0	Covered	T41,T40,T44
1	1	Covered	T32,T33,T34

Branch Coverage for Instance : tb.dut.u_intr_payload_not_empty

	Line No.	Total	Covered	Percent
Branches		2	2	100.00
IF	95	2	2	100.00



95               if (!rst_ni) begin
                 -1-  
96                 intr_o <= '0;
                   ==>
97               end else begin
98                 intr_o <= status & reg2hw_intr_enable_q_i;
                   ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T1,T2,T3

Assert Coverage for Instance : tb.dut.u_intr_payload_not_empty

	Total	Attempted	Percent	Succeeded/Matched	Percent
Assertions	1	1	100.00	1	100.00
Cover properties	0	0		0
Cover sequences	0	0		0
Total	1	1	100.00	1	100.00

Assertion Details

Name	Attempts	Real Successes	Failures	Incomplete
IntrTKind_A	956	956	0	0

IntrTKind_A

Name	Attempts	Real Successes
Total	956	956
T1	1	1
T2	1	1
T3	1	1
T4	1	1
T5	1	1
T6	1	1
T7	1	1
T8	1	1
T9	1	1
T10	1	1

Line Coverage for Instance : tb.dut.u_intr_payload_overflow

	Line No.	Total	Covered	Percent
TOTAL		7	7	100.00
CONT_ASSIGN	62	1	1	100.00
CONT_ASSIGN	64	1	1	100.00
CONT_ASSIGN	67	1	1	100.00
CONT_ASSIGN	69	1	1	100.00
ALWAYS	95	3	3	100.00



61                          logic  [Width-1:0]    new_event;
62         1/1              assign new_event =
           Tests:       T1 T2 T3 
63                                     (({Width{reg2hw_intr_test_qe_i}} & reg2hw_intr_test_q_i) | event_intr_i);
64         1/1              assign hw2reg_intr_state_de_o = |new_event;
           Tests:       T1 T2 T3 
65                          // for scalar interrupts, this resolves to '1' with new event
66                          // for vector interrupts, new events are OR'd in to existing interrupt state
67         1/1              assign hw2reg_intr_state_d_o  =  new_event | reg2hw_intr_state_q_i;
           Tests:       T1 T2 T3 
68                      
69         1/1              assign status = reg2hw_intr_state_q_i ;
           Tests:       T1 T2 T3 
70                        end : g_intr_event
71                        else if (IntrT == "Status") begin : g_intr_status
72                          logic [Width-1:0] test_q; // Storing test. Cleared by SW
73                      
74                          always_ff @(posedge clk_i or negedge rst_ni) begin
75                            if (!rst_ni) test_q <= '0;
76                            else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
77                          end
78                      
79                          // TODO: In Status type, INTR_STATE is better to be external type and RO.
80                          assign hw2reg_intr_state_de_o = 1'b 1; // always represent the status
81                          assign hw2reg_intr_state_d_o  = event_intr_i | test_q;
82                      
83                          assign status = event_intr_i | test_q;
84                      
85                          // To make the timing same to event type, status signal does not use CSR.q,
86                          // rather the input of the CSR.
87                          logic unused_reg2hw;
88                          assign unused_reg2hw = ^reg2hw_intr_state_q_i;
89                        end : g_intr_status
90                      
91                      
92                        if (FlopOutput == 1) begin : gen_flop_intr_output
93                          // flop the interrupt output
94                          always_ff @(posedge clk_i or negedge rst_ni) begin
95         1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
96         1/1                  intr_o <= '0;
           Tests:       T1 T2 T3 
97                            end else begin
98         1/1                  intr_o <= status & reg2hw_intr_enable_q_i;
           Tests:       T1 T2 T3

Cond Coverage for Instance : tb.dut.u_intr_payload_overflow

	Total	Covered	Percent
Conditions	12	12	100.00
Logical	12	12	100.00
Non-Logical	0	0
Event	0	0

 LINE       62
 EXPRESSION ((({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i) | event_intr_i)
             -----------------------------1----------------------------   ------2-----

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T41,T40,T44
1	0	Covered	T32,T33,T34

 LINE       62
 SUB-EXPRESSION (({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i)
                 ----------------1----------------   ----------2---------

-1-	-2-	Status	Tests
0	1	Covered	T1,T2,T4
1	0	Covered	T32,T33,T34
1	1	Covered	T32,T33,T34

 LINE       67
 EXPRESSION (g_intr_event.new_event | reg2hw_intr_state_q_i)
             -----------1----------   ----------2----------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T41,T40,T44
1	0	Covered	T41,T40,T44

 LINE       98
 EXPRESSION (status & reg2hw_intr_enable_q_i)
             ---1--   -----------2----------

-1-	-2-	Status	Tests
0	1	Covered	T32,T33,T34
1	0	Covered	T41,T40,T44
1	1	Covered	T32,T33,T34

Branch Coverage for Instance : tb.dut.u_intr_payload_overflow

	Line No.	Total	Covered	Percent
Branches		2	2	100.00
IF	95	2	2	100.00



95               if (!rst_ni) begin
                 -1-  
96                 intr_o <= '0;
                   ==>
97               end else begin
98                 intr_o <= status & reg2hw_intr_enable_q_i;
                   ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T1,T2,T3

Assert Coverage for Instance : tb.dut.u_intr_payload_overflow

	Total	Attempted	Percent	Succeeded/Matched	Percent
Assertions	1	1	100.00	1	100.00
Cover properties	0	0		0
Cover sequences	0	0		0
Total	1	1	100.00	1	100.00

Assertion Details

Name	Attempts	Real Successes	Failures	Incomplete
IntrTKind_A	956	956	0	0

IntrTKind_A

Name	Attempts	Real Successes
Total	956	956
T1	1	1
T2	1	1
T3	1	1
T4	1	1
T5	1	1
T6	1	1
T7	1	1
T8	1	1
T9	1	1
T10	1	1

Line Coverage for Instance : tb.dut.u_intr_readbuf_watermark

	Line No.	Total	Covered	Percent
TOTAL		7	7	100.00
CONT_ASSIGN	62	1	1	100.00
CONT_ASSIGN	64	1	1	100.00
CONT_ASSIGN	67	1	1	100.00
CONT_ASSIGN	69	1	1	100.00
ALWAYS	95	3	3	100.00



61                          logic  [Width-1:0]    new_event;
62         1/1              assign new_event =
           Tests:       T1 T2 T3 
63                                     (({Width{reg2hw_intr_test_qe_i}} & reg2hw_intr_test_q_i) | event_intr_i);
64         1/1              assign hw2reg_intr_state_de_o = |new_event;
           Tests:       T1 T2 T3 
65                          // for scalar interrupts, this resolves to '1' with new event
66                          // for vector interrupts, new events are OR'd in to existing interrupt state
67         1/1              assign hw2reg_intr_state_d_o  =  new_event | reg2hw_intr_state_q_i;
           Tests:       T1 T2 T3 
68                      
69         1/1              assign status = reg2hw_intr_state_q_i ;
           Tests:       T1 T2 T3 
70                        end : g_intr_event
71                        else if (IntrT == "Status") begin : g_intr_status
72                          logic [Width-1:0] test_q; // Storing test. Cleared by SW
73                      
74                          always_ff @(posedge clk_i or negedge rst_ni) begin
75                            if (!rst_ni) test_q <= '0;
76                            else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
77                          end
78                      
79                          // TODO: In Status type, INTR_STATE is better to be external type and RO.
80                          assign hw2reg_intr_state_de_o = 1'b 1; // always represent the status
81                          assign hw2reg_intr_state_d_o  = event_intr_i | test_q;
82                      
83                          assign status = event_intr_i | test_q;
84                      
85                          // To make the timing same to event type, status signal does not use CSR.q,
86                          // rather the input of the CSR.
87                          logic unused_reg2hw;
88                          assign unused_reg2hw = ^reg2hw_intr_state_q_i;
89                        end : g_intr_status
90                      
91                      
92                        if (FlopOutput == 1) begin : gen_flop_intr_output
93                          // flop the interrupt output
94                          always_ff @(posedge clk_i or negedge rst_ni) begin
95         1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
96         1/1                  intr_o <= '0;
           Tests:       T1 T2 T3 
97                            end else begin
98         1/1                  intr_o <= status & reg2hw_intr_enable_q_i;
           Tests:       T1 T2 T3

Cond Coverage for Instance : tb.dut.u_intr_readbuf_watermark

	Total	Covered	Percent
Conditions	12	12	100.00
Logical	12	12	100.00
Non-Logical	0	0
Event	0	0

 LINE       62
 EXPRESSION ((({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i) | event_intr_i)
             -----------------------------1----------------------------   ------2-----

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T12,T45,T46
1	0	Covered	T32,T33,T34

 LINE       62
 SUB-EXPRESSION (({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i)
                 ----------------1----------------   ----------2---------

-1-	-2-	Status	Tests
0	1	Covered	T1,T4,T5
1	0	Covered	T32,T33,T34
1	1	Covered	T32,T33,T34

 LINE       67
 EXPRESSION (g_intr_event.new_event | reg2hw_intr_state_q_i)
             -----------1----------   ----------2----------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T12,T45,T46
1	0	Covered	T12,T45,T46

 LINE       98
 EXPRESSION (status & reg2hw_intr_enable_q_i)
             ---1--   -----------2----------

-1-	-2-	Status	Tests
0	1	Covered	T32,T33,T34
1	0	Covered	T12,T45,T46
1	1	Covered	T32,T34,T85

Branch Coverage for Instance : tb.dut.u_intr_readbuf_watermark

	Line No.	Total	Covered	Percent
Branches		2	2	100.00
IF	95	2	2	100.00



95               if (!rst_ni) begin
                 -1-  
96                 intr_o <= '0;
                   ==>
97               end else begin
98                 intr_o <= status & reg2hw_intr_enable_q_i;
                   ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T1,T2,T3

Assert Coverage for Instance : tb.dut.u_intr_readbuf_watermark

	Total	Attempted	Percent	Succeeded/Matched	Percent
Assertions	1	1	100.00	1	100.00
Cover properties	0	0		0
Cover sequences	0	0		0
Total	1	1	100.00	1	100.00

Assertion Details

Name	Attempts	Real Successes	Failures	Incomplete
IntrTKind_A	956	956	0	0

IntrTKind_A

Name	Attempts	Real Successes
Total	956	956
T1	1	1
T2	1	1
T3	1	1
T4	1	1
T5	1	1
T6	1	1
T7	1	1
T8	1	1
T9	1	1
T10	1	1

Line Coverage for Instance : tb.dut.u_intr_readbuf_flip

	Line No.	Total	Covered	Percent
TOTAL		7	7	100.00
CONT_ASSIGN	62	1	1	100.00
CONT_ASSIGN	64	1	1	100.00
CONT_ASSIGN	67	1	1	100.00
CONT_ASSIGN	69	1	1	100.00
ALWAYS	95	3	3	100.00



61                          logic  [Width-1:0]    new_event;
62         1/1              assign new_event =
           Tests:       T1 T2 T3 
63                                     (({Width{reg2hw_intr_test_qe_i}} & reg2hw_intr_test_q_i) | event_intr_i);
64         1/1              assign hw2reg_intr_state_de_o = |new_event;
           Tests:       T1 T2 T3 
65                          // for scalar interrupts, this resolves to '1' with new event
66                          // for vector interrupts, new events are OR'd in to existing interrupt state
67         1/1              assign hw2reg_intr_state_d_o  =  new_event | reg2hw_intr_state_q_i;
           Tests:       T1 T2 T3 
68                      
69         1/1              assign status = reg2hw_intr_state_q_i ;
           Tests:       T1 T2 T3 
70                        end : g_intr_event
71                        else if (IntrT == "Status") begin : g_intr_status
72                          logic [Width-1:0] test_q; // Storing test. Cleared by SW
73                      
74                          always_ff @(posedge clk_i or negedge rst_ni) begin
75                            if (!rst_ni) test_q <= '0;
76                            else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
77                          end
78                      
79                          // TODO: In Status type, INTR_STATE is better to be external type and RO.
80                          assign hw2reg_intr_state_de_o = 1'b 1; // always represent the status
81                          assign hw2reg_intr_state_d_o  = event_intr_i | test_q;
82                      
83                          assign status = event_intr_i | test_q;
84                      
85                          // To make the timing same to event type, status signal does not use CSR.q,
86                          // rather the input of the CSR.
87                          logic unused_reg2hw;
88                          assign unused_reg2hw = ^reg2hw_intr_state_q_i;
89                        end : g_intr_status
90                      
91                      
92                        if (FlopOutput == 1) begin : gen_flop_intr_output
93                          // flop the interrupt output
94                          always_ff @(posedge clk_i or negedge rst_ni) begin
95         1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
96         1/1                  intr_o <= '0;
           Tests:       T1 T2 T3 
97                            end else begin
98         1/1                  intr_o <= status & reg2hw_intr_enable_q_i;
           Tests:       T1 T2 T3

Cond Coverage for Instance : tb.dut.u_intr_readbuf_flip

	Total	Covered	Percent
Conditions	12	12	100.00
Logical	12	12	100.00
Non-Logical	0	0
Event	0	0

 LINE       62
 EXPRESSION ((({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i) | event_intr_i)
             -----------------------------1----------------------------   ------2-----

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T12,T45,T46
1	0	Covered	T32,T33,T34

 LINE       62
 SUB-EXPRESSION (({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i)
                 ----------------1----------------   ----------2---------

-1-	-2-	Status	Tests
0	1	Covered	T1,T2,T3
1	0	Covered	T32,T33,T34
1	1	Covered	T32,T33,T34

 LINE       67
 EXPRESSION (g_intr_event.new_event | reg2hw_intr_state_q_i)
             -----------1----------   ----------2----------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T12,T45,T46
1	0	Covered	T12,T45,T46

 LINE       98
 EXPRESSION (status & reg2hw_intr_enable_q_i)
             ---1--   -----------2----------

-1-	-2-	Status	Tests
0	1	Covered	T32,T33,T34
1	0	Covered	T12,T45,T46
1	1	Covered	T32,T33,T34

Branch Coverage for Instance : tb.dut.u_intr_readbuf_flip

	Line No.	Total	Covered	Percent
Branches		2	2	100.00
IF	95	2	2	100.00



95               if (!rst_ni) begin
                 -1-  
96                 intr_o <= '0;
                   ==>
97               end else begin
98                 intr_o <= status & reg2hw_intr_enable_q_i;
                   ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T1,T2,T3

Assert Coverage for Instance : tb.dut.u_intr_readbuf_flip

	Total	Attempted	Percent	Succeeded/Matched	Percent
Assertions	1	1	100.00	1	100.00
Cover properties	0	0		0
Cover sequences	0	0		0
Total	1	1	100.00	1	100.00

Assertion Details

Name	Attempts	Real Successes	Failures	Incomplete
IntrTKind_A	956	956	0	0

IntrTKind_A

Name	Attempts	Real Successes
Total	956	956
T1	1	1
T2	1	1
T3	1	1
T4	1	1
T5	1	1
T6	1	1
T7	1	1
T8	1	1
T9	1	1
T10	1	1

Line Coverage for Instance : tb.dut.u_intr_tpm_cmdaddr_notempty

	Line No.	Total	Covered	Percent
TOTAL		10	10	100.00
ALWAYS	75	4	4	100.00
CONT_ASSIGN	81	1	1	100.00
CONT_ASSIGN	83	1	1	100.00
CONT_ASSIGN	88	1	1	100.00
ALWAYS	95	3	3	100.00



74                          always_ff @(posedge clk_i or negedge rst_ni) begin
75         2/2                if (!rst_ni) test_q <= '0;
           Tests:       T1 T2 T3  | T1 T2 T3 
76         2/2                else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
           Tests:       T1 T2 T3  | T32 T33 T34 
                        MISSING_ELSE
77                          end
78                      
79                          // TODO: In Status type, INTR_STATE is better to be external type and RO.
80                          assign hw2reg_intr_state_de_o = 1'b 1; // always represent the status
81         1/1              assign hw2reg_intr_state_d_o  = event_intr_i | test_q;
           Tests:       T1 T2 T3 
82                      
83         1/1              assign status = event_intr_i | test_q;
           Tests:       T1 T2 T3 
84                      
85                          // To make the timing same to event type, status signal does not use CSR.q,
86                          // rather the input of the CSR.
87                          logic unused_reg2hw;
88         1/1              assign unused_reg2hw = ^reg2hw_intr_state_q_i;
           Tests:       T1 T2 T3 
89                        end : g_intr_status
90                      
91                      
92                        if (FlopOutput == 1) begin : gen_flop_intr_output
93                          // flop the interrupt output
94                          always_ff @(posedge clk_i or negedge rst_ni) begin
95         1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
96         1/1                  intr_o <= '0;
           Tests:       T1 T2 T3 
97                            end else begin
98         1/1                  intr_o <= status & reg2hw_intr_enable_q_i;
           Tests:       T1 T2 T3

Cond Coverage for Instance : tb.dut.u_intr_tpm_cmdaddr_notempty

	Total	Covered	Percent
Conditions	9	9	100.00
Logical	9	9	100.00
Non-Logical	0	0
Event	0	0

 LINE       81
 EXPRESSION (event_intr_i | g_intr_status.test_q)
             ------1-----   ----------2---------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T32,T33,T34
1	0	Covered	T6,T24,T26

 LINE       83
 EXPRESSION (event_intr_i | g_intr_status.test_q)
             ------1-----   ----------2---------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T32,T33,T34
1	0	Covered	T6,T24,T26

 LINE       98
 EXPRESSION (status & reg2hw_intr_enable_q_i)
             ---1--   -----------2----------

-1-	-2-	Status	Tests
0	1	Covered	T32,T33,T34
1	0	Covered	T6,T24,T26
1	1	Covered	T32,T33,T34

Branch Coverage for Instance : tb.dut.u_intr_tpm_cmdaddr_notempty

	Line No.	Total	Covered	Percent
Branches		5	5	100.00
IF	75	3	3	100.00
IF	95	2	2	100.00



75               if (!rst_ni) test_q <= '0;
                 -1-  
                 ==>
76               else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
                      -2-  
                 ==>
                 MISSING_ELSE
                 ==>

Branches:

-1-	-2-	Status	Tests
1	-	Covered	T1,T2,T3
0	1	Covered	T32,T33,T34
0	0	Covered	T1,T2,T3



95               if (!rst_ni) begin
                 -1-  
96                 intr_o <= '0;
                   ==>
97               end else begin
98                 intr_o <= status & reg2hw_intr_enable_q_i;
                   ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T1,T2,T3

Assert Coverage for Instance : tb.dut.u_intr_tpm_cmdaddr_notempty

	Total	Attempted	Percent	Succeeded/Matched	Percent
Assertions	1	1	100.00	1	100.00
Cover properties	0	0		0
Cover sequences	0	0		0
Total	1	1	100.00	1	100.00

Assertion Details

Name	Attempts	Real Successes	Failures	Incomplete
IntrTKind_A	956	956	0	0

IntrTKind_A

Name	Attempts	Real Successes
Total	956	956
T1	1	1
T2	1	1
T3	1	1
T4	1	1
T5	1	1
T6	1	1
T7	1	1
T8	1	1
T9	1	1
T10	1	1

Line Coverage for Instance : tb.dut.u_intr_tpm_rdfifo_cmd_end

	Line No.	Total	Covered	Percent
TOTAL		7	7	100.00
CONT_ASSIGN	62	1	1	100.00
CONT_ASSIGN	64	1	1	100.00
CONT_ASSIGN	67	1	1	100.00
CONT_ASSIGN	69	1	1	100.00
ALWAYS	95	3	3	100.00



61                          logic  [Width-1:0]    new_event;
62         1/1              assign new_event =
           Tests:       T1 T2 T3 
63                                     (({Width{reg2hw_intr_test_qe_i}} & reg2hw_intr_test_q_i) | event_intr_i);
64         1/1              assign hw2reg_intr_state_de_o = |new_event;
           Tests:       T1 T2 T3 
65                          // for scalar interrupts, this resolves to '1' with new event
66                          // for vector interrupts, new events are OR'd in to existing interrupt state
67         1/1              assign hw2reg_intr_state_d_o  =  new_event | reg2hw_intr_state_q_i;
           Tests:       T1 T2 T3 
68                      
69         1/1              assign status = reg2hw_intr_state_q_i ;
           Tests:       T1 T2 T3 
70                        end : g_intr_event
71                        else if (IntrT == "Status") begin : g_intr_status
72                          logic [Width-1:0] test_q; // Storing test. Cleared by SW
73                      
74                          always_ff @(posedge clk_i or negedge rst_ni) begin
75                            if (!rst_ni) test_q <= '0;
76                            else if (reg2hw_intr_test_qe_i) test_q <= reg2hw_intr_test_q_i;
77                          end
78                      
79                          // TODO: In Status type, INTR_STATE is better to be external type and RO.
80                          assign hw2reg_intr_state_de_o = 1'b 1; // always represent the status
81                          assign hw2reg_intr_state_d_o  = event_intr_i | test_q;
82                      
83                          assign status = event_intr_i | test_q;
84                      
85                          // To make the timing same to event type, status signal does not use CSR.q,
86                          // rather the input of the CSR.
87                          logic unused_reg2hw;
88                          assign unused_reg2hw = ^reg2hw_intr_state_q_i;
89                        end : g_intr_status
90                      
91                      
92                        if (FlopOutput == 1) begin : gen_flop_intr_output
93                          // flop the interrupt output
94                          always_ff @(posedge clk_i or negedge rst_ni) begin
95         1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
96         1/1                  intr_o <= '0;
           Tests:       T1 T2 T3 
97                            end else begin
98         1/1                  intr_o <= status & reg2hw_intr_enable_q_i;
           Tests:       T1 T2 T3

Cond Coverage for Instance : tb.dut.u_intr_tpm_rdfifo_cmd_end

	Total	Covered	Percent
Conditions	12	12	100.00
Logical	12	12	100.00
Non-Logical	0	0
Event	0	0

 LINE       62
 EXPRESSION ((({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i) | event_intr_i)
             -----------------------------1----------------------------   ------2-----

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T6,T24,T26
1	0	Covered	T32,T33,T34

 LINE       62
 SUB-EXPRESSION (({Width {reg2hw_intr_test_qe_i}}) & reg2hw_intr_test_q_i)
                 ----------------1----------------   ----------2---------

-1-	-2-	Status	Tests
0	1	Covered	T1,T4,T5
1	0	Covered	T32,T33,T34
1	1	Covered	T32,T33,T34

 LINE       67
 EXPRESSION (g_intr_event.new_event | reg2hw_intr_state_q_i)
             -----------1----------   ----------2----------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T6,T24,T26
1	0	Covered	T6,T24,T26

 LINE       98
 EXPRESSION (status & reg2hw_intr_enable_q_i)
             ---1--   -----------2----------

-1-	-2-	Status	Tests
0	1	Covered	T32,T33,T34
1	0	Covered	T6,T24,T26
1	1	Covered	T32,T33,T34

Branch Coverage for Instance : tb.dut.u_intr_tpm_rdfifo_cmd_end

	Line No.	Total	Covered	Percent
Branches		2	2	100.00
IF	95	2	2	100.00



95               if (!rst_ni) begin
                 -1-  
96                 intr_o <= '0;
                   ==>
97               end else begin
98                 intr_o <= status & reg2hw_intr_enable_q_i;
                   ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T1,T2,T3

Assert Coverage for Instance : tb.dut.u_intr_tpm_rdfifo_cmd_end

	Total	Attempted	Percent	Succeeded/Matched	Percent
Assertions	1	1	100.00	1	100.00
Cover properties	0	0		0
Cover sequences	0	0		0
Total	1	1	100.00	1	100.00

Assertion Details

Name	Attempts	Real Successes	Failures	Incomplete
IntrTKind_A	956	956	0	0

IntrTKind_A

Name	Attempts	Real Successes
Total	956	956
T1	1	1
T2	1	1
T3	1	1
T4	1	1
T5	1	1
T6	1	1
T7	1	1
T8	1	1
T9	1	1
T10	1	1

SCORE	LINE	COND	TOGGLE	FSM	BRANCH	ASSERT	NAME
92.52	95.20	84.31	97.00		90.62	95.45	dut

NAME	SCORE	LINE	COND	TOGGLE	FSM	BRANCH	ASSERT
no children

SCORE	LINE	COND	TOGGLE	FSM	BRANCH	ASSERT	NAME
92.52	95.20	84.31	97.00		90.62	95.45	dut

NAME	SCORE	LINE	COND	TOGGLE	FSM	BRANCH	ASSERT
no children

SCORE	LINE	COND	TOGGLE	FSM	BRANCH	ASSERT	NAME
92.52	95.20	84.31	97.00		90.62	95.45	dut