Line Coverage for Module :
prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Module :
prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
850722716 |
456362715 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
850722716 |
456362715 |
0 |
0 |
| T1 |
198106 |
117575 |
0 |
0 |
| T2 |
137148 |
51540 |
0 |
0 |
| T3 |
244206 |
143015 |
0 |
0 |
| T4 |
2318336 |
1547805 |
0 |
0 |
| T5 |
598490 |
540752 |
0 |
0 |
| T6 |
295294 |
216855 |
0 |
0 |
| T7 |
489152 |
49071 |
0 |
0 |
| T8 |
106288 |
62062 |
0 |
0 |
| T9 |
280748 |
50181 |
0 |
0 |
| T10 |
302032 |
215688 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_por.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_por.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
52510496 |
31498831 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
52510496 |
31498831 |
0 |
0 |
| T1 |
12230 |
8172 |
0 |
0 |
| T2 |
8468 |
3537 |
0 |
0 |
| T3 |
15076 |
12350 |
0 |
0 |
| T4 |
143098 |
104275 |
0 |
0 |
| T5 |
36945 |
34267 |
0 |
0 |
| T6 |
18231 |
14142 |
0 |
0 |
| T7 |
30188 |
3436 |
0 |
0 |
| T8 |
6562 |
3873 |
0 |
0 |
| T9 |
17332 |
3519 |
0 |
0 |
| T10 |
18646 |
15925 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_por_io.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_por_io.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
50408579 |
30238002 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
50408579 |
30238002 |
0 |
0 |
| T1 |
11739 |
7845 |
0 |
0 |
| T2 |
8129 |
3395 |
0 |
0 |
| T3 |
14473 |
11855 |
0 |
0 |
| T4 |
137357 |
100109 |
0 |
0 |
| T5 |
35466 |
32895 |
0 |
0 |
| T6 |
17502 |
13578 |
0 |
0 |
| T7 |
28995 |
3300 |
0 |
0 |
| T8 |
6299 |
3717 |
0 |
0 |
| T9 |
16638 |
3378 |
0 |
0 |
| T10 |
17899 |
15287 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_por_io_div2.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_por_io_div2.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
25205250 |
15115297 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
25205250 |
15115297 |
0 |
0 |
| T1 |
5870 |
3922 |
0 |
0 |
| T2 |
4064 |
1697 |
0 |
0 |
| T3 |
7236 |
5928 |
0 |
0 |
| T4 |
68683 |
50040 |
0 |
0 |
| T5 |
17733 |
16448 |
0 |
0 |
| T6 |
8747 |
6785 |
0 |
0 |
| T7 |
14498 |
1642 |
0 |
0 |
| T8 |
3149 |
1859 |
0 |
0 |
| T9 |
8319 |
1688 |
0 |
0 |
| T10 |
8949 |
7643 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_por_io_div4.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_por_io_div4.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
12601978 |
7554617 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
12601978 |
7554617 |
0 |
0 |
| T1 |
2935 |
1960 |
0 |
0 |
| T2 |
2030 |
847 |
0 |
0 |
| T3 |
3617 |
2963 |
0 |
0 |
| T4 |
34342 |
25015 |
0 |
0 |
| T5 |
8866 |
8224 |
0 |
0 |
| T6 |
4374 |
3392 |
0 |
0 |
| T7 |
7244 |
816 |
0 |
0 |
| T8 |
1574 |
928 |
0 |
0 |
| T9 |
4158 |
843 |
0 |
0 |
| T10 |
4474 |
3821 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_por_usb.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_por_usb.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
25205103 |
15115304 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
25205103 |
15115304 |
0 |
0 |
| T1 |
5868 |
3919 |
0 |
0 |
| T2 |
4064 |
1697 |
0 |
0 |
| T3 |
7236 |
5928 |
0 |
0 |
| T4 |
68689 |
50044 |
0 |
0 |
| T5 |
17733 |
16448 |
0 |
0 |
| T6 |
8748 |
6786 |
0 |
0 |
| T7 |
14495 |
1642 |
0 |
0 |
| T8 |
3150 |
1859 |
0 |
0 |
| T9 |
8319 |
1688 |
0 |
0 |
| T10 |
8949 |
7643 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_lc.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_lc.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
52510496 |
27978642 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
52510496 |
27978642 |
0 |
0 |
| T1 |
12230 |
7166 |
0 |
0 |
| T2 |
8468 |
3525 |
0 |
0 |
| T3 |
15076 |
8171 |
0 |
0 |
| T4 |
143098 |
94364 |
0 |
0 |
| T5 |
36945 |
34263 |
0 |
0 |
| T6 |
18231 |
13326 |
0 |
0 |
| T7 |
30188 |
3348 |
0 |
0 |
| T8 |
6562 |
3865 |
0 |
0 |
| T9 |
17332 |
3511 |
0 |
0 |
| T10 |
18646 |
12797 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_lc.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_lc.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
52510496 |
27270159 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
52510496 |
27270159 |
0 |
0 |
| T1 |
12230 |
7001 |
0 |
0 |
| T2 |
8468 |
2857 |
0 |
0 |
| T3 |
15076 |
7961 |
0 |
0 |
| T4 |
143098 |
92997 |
0 |
0 |
| T5 |
36945 |
34196 |
0 |
0 |
| T6 |
18231 |
13161 |
0 |
0 |
| T7 |
30188 |
2682 |
0 |
0 |
| T8 |
6562 |
3798 |
0 |
0 |
| T9 |
17332 |
2711 |
0 |
0 |
| T10 |
18646 |
12647 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_lc_shadowed.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_lc_shadowed.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
52510496 |
27978286 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
52510496 |
27978286 |
0 |
0 |
| T1 |
12230 |
7166 |
0 |
0 |
| T2 |
8468 |
3525 |
0 |
0 |
| T3 |
15076 |
8171 |
0 |
0 |
| T4 |
143098 |
94364 |
0 |
0 |
| T5 |
36945 |
34263 |
0 |
0 |
| T6 |
18231 |
13326 |
0 |
0 |
| T7 |
30188 |
3349 |
0 |
0 |
| T8 |
6562 |
3865 |
0 |
0 |
| T9 |
17332 |
3511 |
0 |
0 |
| T10 |
18646 |
12797 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_lc_shadowed.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_lc_shadowed.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
52510496 |
27270460 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
52510496 |
27270460 |
0 |
0 |
| T1 |
12230 |
7001 |
0 |
0 |
| T2 |
8468 |
2857 |
0 |
0 |
| T3 |
15076 |
7961 |
0 |
0 |
| T4 |
143098 |
92997 |
0 |
0 |
| T5 |
36945 |
34196 |
0 |
0 |
| T6 |
18231 |
13161 |
0 |
0 |
| T7 |
30188 |
2686 |
0 |
0 |
| T8 |
6562 |
3798 |
0 |
0 |
| T9 |
17332 |
2711 |
0 |
0 |
| T10 |
18646 |
12647 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_lc_aon.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_lc_aon.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
1591058 |
829708 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
1591058 |
829708 |
0 |
0 |
| T1 |
367 |
210 |
0 |
0 |
| T2 |
253 |
104 |
0 |
0 |
| T3 |
450 |
226 |
0 |
0 |
| T4 |
4353 |
2842 |
0 |
0 |
| T5 |
1108 |
1027 |
0 |
0 |
| T6 |
545 |
393 |
0 |
0 |
| T7 |
908 |
87 |
0 |
0 |
| T8 |
196 |
115 |
0 |
0 |
| T9 |
518 |
103 |
0 |
0 |
| T10 |
557 |
373 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_lc_io.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_lc_io.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
50408579 |
26859820 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
50408579 |
26859820 |
0 |
0 |
| T1 |
11739 |
6879 |
0 |
0 |
| T2 |
8129 |
3383 |
0 |
0 |
| T3 |
14473 |
7841 |
0 |
0 |
| T4 |
137357 |
90597 |
0 |
0 |
| T5 |
35466 |
32891 |
0 |
0 |
| T6 |
17502 |
12794 |
0 |
0 |
| T7 |
28995 |
3254 |
0 |
0 |
| T8 |
6299 |
3710 |
0 |
0 |
| T9 |
16638 |
3369 |
0 |
0 |
| T10 |
17899 |
12283 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_lc_io.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_lc_io.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
50408579 |
26180281 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
50408579 |
26180281 |
0 |
0 |
| T1 |
11739 |
6719 |
0 |
0 |
| T2 |
8129 |
2743 |
0 |
0 |
| T3 |
14473 |
7641 |
0 |
0 |
| T4 |
137357 |
89285 |
0 |
0 |
| T5 |
35466 |
32827 |
0 |
0 |
| T6 |
17502 |
12634 |
0 |
0 |
| T7 |
28995 |
2614 |
0 |
0 |
| T8 |
6299 |
3646 |
0 |
0 |
| T9 |
16638 |
2601 |
0 |
0 |
| T10 |
17899 |
12139 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_lc_io_div2.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_lc_io_div2.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
25205250 |
13420071 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
25205250 |
13420071 |
0 |
0 |
| T1 |
5870 |
3438 |
0 |
0 |
| T2 |
4064 |
1691 |
0 |
0 |
| T3 |
7236 |
3912 |
0 |
0 |
| T4 |
68683 |
45269 |
0 |
0 |
| T5 |
17733 |
16446 |
0 |
0 |
| T6 |
8747 |
6391 |
0 |
0 |
| T7 |
14498 |
1622 |
0 |
0 |
| T8 |
3149 |
1855 |
0 |
0 |
| T9 |
8319 |
1684 |
0 |
0 |
| T10 |
8949 |
6136 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_lc_io_div2.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_lc_io_div2.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
25205250 |
13080019 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
25205250 |
13080019 |
0 |
0 |
| T1 |
5870 |
3358 |
0 |
0 |
| T2 |
4064 |
1371 |
0 |
0 |
| T3 |
7236 |
3812 |
0 |
0 |
| T4 |
68683 |
44613 |
0 |
0 |
| T5 |
17733 |
16414 |
0 |
0 |
| T6 |
8747 |
6311 |
0 |
0 |
| T7 |
14498 |
1302 |
0 |
0 |
| T8 |
3149 |
1823 |
0 |
0 |
| T9 |
8319 |
1300 |
0 |
0 |
| T10 |
8949 |
6064 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_lc_io_div4.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_lc_io_div4.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
12601978 |
6683258 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
12601978 |
6683258 |
0 |
0 |
| T1 |
2935 |
1711 |
0 |
0 |
| T2 |
2030 |
843 |
0 |
0 |
| T3 |
3617 |
1929 |
0 |
0 |
| T4 |
34342 |
22580 |
0 |
0 |
| T5 |
8866 |
8222 |
0 |
0 |
| T6 |
4374 |
3189 |
0 |
0 |
| T7 |
7244 |
786 |
0 |
0 |
| T8 |
1574 |
926 |
0 |
0 |
| T9 |
4158 |
839 |
0 |
0 |
| T10 |
4474 |
3052 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_lc_io_div4.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_lc_io_div4.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
12601978 |
6513337 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
12601978 |
6513337 |
0 |
0 |
| T1 |
2935 |
1671 |
0 |
0 |
| T2 |
2030 |
683 |
0 |
0 |
| T3 |
3617 |
1879 |
0 |
0 |
| T4 |
34342 |
22252 |
0 |
0 |
| T5 |
8866 |
8206 |
0 |
0 |
| T6 |
4374 |
3149 |
0 |
0 |
| T7 |
7244 |
626 |
0 |
0 |
| T8 |
1574 |
910 |
0 |
0 |
| T9 |
4158 |
647 |
0 |
0 |
| T10 |
4474 |
3016 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_lc_io_div4_shadowed.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_lc_io_div4_shadowed.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
12601978 |
6683258 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
12601978 |
6683258 |
0 |
0 |
| T1 |
2935 |
1711 |
0 |
0 |
| T2 |
2030 |
843 |
0 |
0 |
| T3 |
3617 |
1929 |
0 |
0 |
| T4 |
34342 |
22580 |
0 |
0 |
| T5 |
8866 |
8222 |
0 |
0 |
| T6 |
4374 |
3189 |
0 |
0 |
| T7 |
7244 |
786 |
0 |
0 |
| T8 |
1574 |
926 |
0 |
0 |
| T9 |
4158 |
839 |
0 |
0 |
| T10 |
4474 |
3052 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_lc_io_div4_shadowed.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_lc_io_div4_shadowed.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
12601978 |
6513337 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
12601978 |
6513337 |
0 |
0 |
| T1 |
2935 |
1671 |
0 |
0 |
| T2 |
2030 |
683 |
0 |
0 |
| T3 |
3617 |
1879 |
0 |
0 |
| T4 |
34342 |
22252 |
0 |
0 |
| T5 |
8866 |
8206 |
0 |
0 |
| T6 |
4374 |
3149 |
0 |
0 |
| T7 |
7244 |
626 |
0 |
0 |
| T8 |
1574 |
910 |
0 |
0 |
| T9 |
4158 |
647 |
0 |
0 |
| T10 |
4474 |
3016 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_lc_usb.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_lc_usb.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
25205103 |
13420178 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
25205103 |
13420178 |
0 |
0 |
| T1 |
5868 |
3435 |
0 |
0 |
| T2 |
4064 |
1691 |
0 |
0 |
| T3 |
7236 |
3912 |
0 |
0 |
| T4 |
68689 |
45273 |
0 |
0 |
| T5 |
17733 |
16446 |
0 |
0 |
| T6 |
8748 |
6392 |
0 |
0 |
| T7 |
14495 |
1622 |
0 |
0 |
| T8 |
3150 |
1855 |
0 |
0 |
| T9 |
8319 |
1684 |
0 |
0 |
| T10 |
8949 |
6136 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_lc_usb.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_lc_usb.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
25205103 |
13080250 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
25205103 |
13080250 |
0 |
0 |
| T1 |
5868 |
3355 |
0 |
0 |
| T2 |
4064 |
1371 |
0 |
0 |
| T3 |
7236 |
3812 |
0 |
0 |
| T4 |
68689 |
44617 |
0 |
0 |
| T5 |
17733 |
16414 |
0 |
0 |
| T6 |
8748 |
6312 |
0 |
0 |
| T7 |
14495 |
1302 |
0 |
0 |
| T8 |
3150 |
1823 |
0 |
0 |
| T9 |
8319 |
1300 |
0 |
0 |
| T10 |
8949 |
6064 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_sys.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_sys.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
52510496 |
26979538 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
52510496 |
26979538 |
0 |
0 |
| T1 |
12230 |
6896 |
0 |
0 |
| T2 |
8468 |
2857 |
0 |
0 |
| T3 |
15076 |
7537 |
0 |
0 |
| T4 |
143098 |
92335 |
0 |
0 |
| T5 |
36945 |
34196 |
0 |
0 |
| T6 |
18231 |
13047 |
0 |
0 |
| T7 |
30188 |
2724 |
0 |
0 |
| T8 |
6562 |
3798 |
0 |
0 |
| T9 |
17332 |
2711 |
0 |
0 |
| T10 |
18646 |
12492 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_daon_sys_io_div4.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_daon_sys_io_div4.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
12601978 |
6613168 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
12601978 |
6613168 |
0 |
0 |
| T1 |
2935 |
1686 |
0 |
0 |
| T2 |
2030 |
843 |
0 |
0 |
| T3 |
3617 |
1827 |
0 |
0 |
| T4 |
34342 |
22421 |
0 |
0 |
| T5 |
8866 |
8222 |
0 |
0 |
| T6 |
4374 |
3162 |
0 |
0 |
| T7 |
7244 |
796 |
0 |
0 |
| T8 |
1574 |
926 |
0 |
0 |
| T9 |
4158 |
839 |
0 |
0 |
| T10 |
4474 |
3015 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_spi_device.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_spi_device.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
12601978 |
6374392 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
12601978 |
6374392 |
0 |
0 |
| T1 |
2935 |
1671 |
0 |
0 |
| T2 |
2030 |
683 |
0 |
0 |
| T3 |
3617 |
1821 |
0 |
0 |
| T4 |
34342 |
22252 |
0 |
0 |
| T5 |
8866 |
7377 |
0 |
0 |
| T6 |
4374 |
3149 |
0 |
0 |
| T7 |
7244 |
636 |
0 |
0 |
| T8 |
1574 |
910 |
0 |
0 |
| T9 |
4158 |
647 |
0 |
0 |
| T10 |
4474 |
3006 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_spi_host0.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_spi_host0.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
50408579 |
25625981 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
50408579 |
25625981 |
0 |
0 |
| T1 |
11739 |
6719 |
0 |
0 |
| T2 |
8129 |
2743 |
0 |
0 |
| T3 |
14473 |
7555 |
0 |
0 |
| T4 |
137357 |
89285 |
0 |
0 |
| T5 |
35466 |
27714 |
0 |
0 |
| T6 |
17502 |
12634 |
0 |
0 |
| T7 |
28995 |
2614 |
0 |
0 |
| T8 |
6299 |
3646 |
0 |
0 |
| T9 |
16638 |
2601 |
0 |
0 |
| T10 |
17899 |
12139 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_spi_host1.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_spi_host1.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
25205250 |
12828111 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
25205250 |
12828111 |
0 |
0 |
| T1 |
5870 |
3303 |
0 |
0 |
| T2 |
4064 |
1371 |
0 |
0 |
| T3 |
7236 |
3807 |
0 |
0 |
| T4 |
68683 |
44613 |
0 |
0 |
| T5 |
17733 |
14652 |
0 |
0 |
| T6 |
8747 |
6311 |
0 |
0 |
| T7 |
14498 |
1302 |
0 |
0 |
| T8 |
3149 |
1823 |
0 |
0 |
| T9 |
8319 |
1300 |
0 |
0 |
| T10 |
8949 |
6064 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_usb.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_usb.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
25205103 |
12796108 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
25205103 |
12796108 |
0 |
0 |
| T1 |
5868 |
3304 |
0 |
0 |
| T2 |
4064 |
1371 |
0 |
0 |
| T3 |
7236 |
3812 |
0 |
0 |
| T4 |
68689 |
44617 |
0 |
0 |
| T5 |
17733 |
14366 |
0 |
0 |
| T6 |
8748 |
6312 |
0 |
0 |
| T7 |
14495 |
1302 |
0 |
0 |
| T8 |
3150 |
1823 |
0 |
0 |
| T9 |
8319 |
1300 |
0 |
0 |
| T10 |
8949 |
6064 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_usb_aon.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_usb_aon.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
1591058 |
792406 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
1591058 |
792406 |
0 |
0 |
| T1 |
367 |
204 |
0 |
0 |
| T2 |
253 |
84 |
0 |
0 |
| T3 |
450 |
219 |
0 |
0 |
| T4 |
4353 |
2803 |
0 |
0 |
| T5 |
1108 |
827 |
0 |
0 |
| T6 |
545 |
387 |
0 |
0 |
| T7 |
908 |
67 |
0 |
0 |
| T8 |
196 |
113 |
0 |
0 |
| T9 |
518 |
79 |
0 |
0 |
| T10 |
557 |
368 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_i2c0.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_i2c0.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
12601978 |
6388074 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
12601978 |
6388074 |
0 |
0 |
| T1 |
2935 |
1650 |
0 |
0 |
| T2 |
2030 |
683 |
0 |
0 |
| T3 |
3617 |
1879 |
0 |
0 |
| T4 |
34342 |
22252 |
0 |
0 |
| T5 |
8866 |
6609 |
0 |
0 |
| T6 |
4374 |
3149 |
0 |
0 |
| T7 |
7244 |
636 |
0 |
0 |
| T8 |
1574 |
910 |
0 |
0 |
| T9 |
4158 |
647 |
0 |
0 |
| T10 |
4474 |
3016 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_i2c1.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_i2c1.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
12601978 |
6383156 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
12601978 |
6383156 |
0 |
0 |
| T1 |
2935 |
1671 |
0 |
0 |
| T2 |
2030 |
683 |
0 |
0 |
| T3 |
3617 |
1879 |
0 |
0 |
| T4 |
34342 |
22252 |
0 |
0 |
| T5 |
8866 |
7332 |
0 |
0 |
| T6 |
4374 |
3149 |
0 |
0 |
| T7 |
7244 |
636 |
0 |
0 |
| T8 |
1574 |
910 |
0 |
0 |
| T9 |
4158 |
647 |
0 |
0 |
| T10 |
4474 |
3016 |
0 |
0 |
Line Coverage for Instance : tb.dut.u_d0_i2c2.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.u_d0_i2c2.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
12601978 |
6390180 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
12601978 |
6390180 |
0 |
0 |
| T1 |
2935 |
1671 |
0 |
0 |
| T2 |
2030 |
683 |
0 |
0 |
| T3 |
3617 |
1879 |
0 |
0 |
| T4 |
34342 |
22252 |
0 |
0 |
| T5 |
8866 |
6880 |
0 |
0 |
| T6 |
4374 |
3149 |
0 |
0 |
| T7 |
7244 |
636 |
0 |
0 |
| T8 |
1574 |
910 |
0 |
0 |
| T9 |
4158 |
647 |
0 |
0 |
| T10 |
4474 |
3016 |
0 |
0 |
Line Coverage for Instance : tb.dut.gen_rst_por_aon[0].gen_rst_por_aon_normal.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.gen_rst_por_aon[0].gen_rst_por_aon_normal.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
1591058 |
963268 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
1591058 |
963268 |
0 |
0 |
| T1 |
367 |
247 |
0 |
0 |
| T2 |
253 |
108 |
0 |
0 |
| T3 |
450 |
371 |
0 |
0 |
| T4 |
4353 |
3196 |
0 |
0 |
| T5 |
1108 |
1029 |
0 |
0 |
| T6 |
545 |
425 |
0 |
0 |
| T7 |
908 |
107 |
0 |
0 |
| T8 |
196 |
117 |
0 |
0 |
| T9 |
518 |
107 |
0 |
0 |
| T10 |
557 |
478 |
0 |
0 |
Line Coverage for Instance : tb.dut.gen_rst_por_aon[1].gen_rst_por_domain.u_prim_mubi4_sender
| Line No. | Total | Covered | Percent |
|---|
| TOTAL | | 2 | 2 | 100.00 |
| CONT_ASSIGN | 34 | 0 | 0 | |
| CONT_ASSIGN | 82 | 1 | 1 | 100.00 |
| CONT_ASSIGN | 85 | 1 | 1 | 100.00 |
33 logic [MuBi4Width-1:0] mubi, mubi_int, mubi_out;
34 unreachable assign mubi = MuBi4Width'(mubi_i);
35
36 // first generation block decides whether a flop should be present
37 if (AsyncOn) begin : gen_flops
38 prim_flop #(
39 .Width(MuBi4Width),
40 .ResetValue(MuBi4Width'(ResetValue))
41 ) u_prim_flop (
42 .clk_i,
43 .rst_ni,
44 .d_i ( mubi ),
45 .q_o ( mubi_int )
46 );
47 end else begin : gen_no_flops
48 assign mubi_int = mubi;
49
50 // This unused companion logic helps remove lint errors
51 // for modules where clock and reset are used for assertions only
52 // This logic will be removed for sythesis since it is unloaded.
53 mubi4_t unused_logic;
54 always_ff @(posedge clk_i or negedge rst_ni) begin
55 if (!rst_ni) begin
56 unused_logic <= MuBi4False;
57 end else begin
58 unused_logic <= mubi_i;
59 end
60 end
61 end
62
63 // second generation block determines output buffer type
64 // 1. If EnSecBuf -> always leads to a sec buffer regardless of first block
65 // 2. If not EnSecBuf and not AsyncOn -> use normal buffer
66 // 3. If not EnSecBuf and AsyncOn -> feed through
67 if (EnSecBuf) begin : gen_sec_buf
68 prim_sec_anchor_buf #(
69 .Width(4)
70 ) u_prim_sec_buf (
71 .in_i(mubi_int),
72 .out_o(mubi_out)
73 );
74 end else if (!AsyncOn) begin : gen_prim_buf
75 prim_buf #(
76 .Width(4)
77 ) u_prim_buf (
78 .in_i(mubi_int),
79 .out_o(mubi_out)
80 );
81 end else begin : gen_feedthru
82 1/1 assign mubi_out = mubi_int;
Tests: T1 T2 T3
83 end
84
85 1/1 assign mubi_o = mubi4_t'(mubi_out);
Tests: T1 T2 T3
Assert Coverage for Instance : tb.dut.gen_rst_por_aon[1].gen_rst_por_domain.u_prim_mubi4_sender
Assertion Details
| Name | Attempts | Real Successes | Failures | Incomplete |
|
OutputsKnown_A |
1591058 |
945218 |
0 |
0 |
OutputsKnown_A
| Name | Attempts | Real Successes | Failures | Incomplete |
| Total |
1591058 |
945218 |
0 |
0 |
| T1 |
367 |
243 |
0 |
0 |
| T2 |
253 |
88 |
0 |
0 |
| T3 |
450 |
369 |
0 |
0 |
| T4 |
4353 |
3162 |
0 |
0 |
| T5 |
1108 |
1027 |
0 |
0 |
| T6 |
545 |
421 |
0 |
0 |
| T7 |
908 |
87 |
0 |
0 |
| T8 |
196 |
115 |
0 |
0 |
| T9 |
518 |
83 |
0 |
0 |
| T10 |
557 |
476 |
0 |
0 |