Unified Coverage Report :: Module

Line Coverage for Module : prim_arbiter_tree ( parameter N=2,DW=32,EnDataPort=0,IdxW=1,gen_normal_case.gen_tree[0].gen_level[0].Pa=0,gen_normal_case.gen_tree[0].gen_level[0].C0=1,gen_normal_case.gen_tree[0].gen_level[0].C1=2,gen_normal_case.gen_tree[1].gen_level[0].Pa=1,gen_normal_case.gen_tree[1].gen_level[0].C0=3,gen_normal_case.gen_tree[1].gen_level[0].C1=4,gen_normal_case.gen_tree[1].gen_level[1].Pa=2,gen_normal_case.gen_tree[1].gen_level[1].C0=5,gen_normal_case.gen_tree[1].gen_level[1].C1=6 )
Line Coverage for Module self-instances :

SCORE	LINE
87.74	92.31

tb.dut.u_edn_arb

	Line No.	Total	Covered	Percent
TOTAL		26	24	92.31
CONT_ASSIGN	62	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	122	1	0	0.00
CONT_ASSIGN	122	1	0	0.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	163	0	0
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	174	1	1	100.00
CONT_ASSIGN	180	1	1	100.00
CONT_ASSIGN	182	1	1	100.00
CONT_ASSIGN	183	1	1	100.00
ALWAYS	191	3	3	100.00



61                        logic unused_req_chk;
62         1/1            assign unused_req_chk = req_chk_i;
           Tests:       T1 T2 T3 
63                      
64                        `ASSERT_INIT(CheckNGreaterZero_A, N > 0)
65                      
66                        // this case is basically just a bypass
67                        if (N == 1) begin : gen_degenerate_case
68                      
69                          assign valid_o  = req_i[0];
70                          assign data_o   = data_i[0];
71                          assign gnt_o[0] = valid_o & ready_i;
72                          assign idx_o    = '0;
73                      
74                        end else begin : gen_normal_case
75                      
76                          // align to powers of 2 for simplicity
77                          // a full binary tree with N levels has 2**N + 2**N-1 nodes
78                          logic [2**(IdxW+1)-2:0]           req_tree;
79                          logic [2**(IdxW+1)-2:0]           prio_tree;
80                          logic [2**(IdxW+1)-2:0]           sel_tree;
81                          logic [2**(IdxW+1)-2:0]           mask_tree;
82                          logic [2**(IdxW+1)-2:0][IdxW-1:0] idx_tree;
83                          logic [2**(IdxW+1)-2:0][DW-1:0]   data_tree;
84                          logic [N-1:0]                     prio_mask_d, prio_mask_q;
85                      
86                          for (genvar level = 0; level < IdxW+1; level++) begin : gen_tree
87                            //
88                            // level+1   C0   C1   <- "Base1" points to the first node on "level+1",
89                            //            \  /         these nodes are the children of the nodes one level below
90                            // level       Pa      <- "Base0", points to the first node on "level",
91                            //                         these nodes are the parents of the nodes one level above
92                            //
93                            // hence we have the following indices for the Pa, C0, C1 nodes:
94                            // Pa = 2**level     - 1 + offset       = Base0 + offset
95                            // C0 = 2**(level+1) - 1 + 2*offset     = Base1 + 2*offset
96                            // C1 = 2**(level+1) - 1 + 2*offset + 1 = Base1 + 2*offset + 1
97                            //
98                            localparam int Base0 = (2**level)-1;
99                            localparam int Base1 = (2**(level+1))-1;
100                     
101                           for (genvar offset = 0; offset < 2**level; offset++) begin : gen_level
102                             localparam int Pa = Base0 + offset;
103                             localparam int C0 = Base1 + 2*offset;
104                             localparam int C1 = Base1 + 2*offset + 1;
105                     
106                             // this assigns the gated interrupt source signals, their
107                             // corresponding IDs and priorities to the tree leafs
108                             if (level == IdxW) begin : gen_leafs
109                               if (offset < N) begin : gen_assign
110                                 // forward path (requests and data)
111                                 // all requests inputs are assigned to the request tree
112        2/2                      assign req_tree[Pa]      = req_i[offset];
           Tests:       T1 T2 T3  | T1 T2 T3 
113                                 // we basically split the incoming request vector into two halves with the following
114                                 // priority assignment. the prio_mask_q register contains a prefix sum that has been
115                                 // computed using the last winning index, and hence masks out all requests at offsets
116                                 // lower or equal the previously granted index. hence, all higher indices are considered
117                                 // first in the arbitration tree nodes below, before considering the lower indices.
118        2/2                      assign prio_tree[Pa]     = req_i[offset] & prio_mask_q[offset];
           Tests:       T1 T2 T3  | T1 T2 T3 
119                                 // input for the index muxes (used to compute the winner index)
120                                 assign idx_tree[Pa]      = offset;
121                                 // input for the data muxes
122        0/2     ==>              assign data_tree[Pa]     = data_i[offset];
123                     
124                                 // backward path (grants and prefix sum)
125                                 // grant if selected, ready and request asserted
126        2/2                      assign gnt_o[offset]       = req_i[offset] & sel_tree[Pa] & ready_i;
           Tests:       T1 T2 T3  | T1 T2 T3 
127                                 // only update mask if there is a valid request
128        2/2                      assign prio_mask_d[offset] = (|req_i) ?
           Tests:       T1 T2 T3  | T1 T2 T3 
129                                                              mask_tree[Pa] | sel_tree[Pa] & ~ready_i :
130                                                              prio_mask_q[offset];
131                               end else begin : gen_tie_off
132                                 // forward path
133                                 assign req_tree[Pa]  = '0;
134                                 assign prio_tree[Pa] = '0;
135                                 assign idx_tree[Pa]  = '0;
136                                 assign data_tree[Pa] = '0;
137                                 logic unused_sigs;
138                                 assign unused_sigs = ^{mask_tree[Pa],
139                                                        sel_tree[Pa]};
140                               end
141                             // this creates the node assignments
142                             end else begin : gen_nodes
143                               // local helper variable
144                               logic sel;
145                     
146                               // forward path (requests and data)
147                               // each node looks at its two children, and selects the one with higher priority
148        1/1                    assign sel = ~req_tree[C0] | ~prio_tree[C0] & prio_tree[C1];
           Tests:       T1 T2 T3 
149                               // propagate requests
150        1/1                    assign req_tree[Pa]  = req_tree[C0] | req_tree[C1];
           Tests:       T1 T2 T3 
151        1/1                    assign prio_tree[Pa] = prio_tree[C1] | prio_tree[C0];
           Tests:       T1 T2 T3 
152                               // data and index muxes
153                               // Note: these ternaries have triggered a synthesis bug in Vivado versions older
154                               // than 2020.2. If the problem resurfaces again, have a look at issue #1408.
155        1/1                    assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
           Tests:       T1 T2 T3 
156        1/1                    assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
           Tests:       T1 T2 T3 
157                     
158                               // backward path (grants and prefix sum)
159                               // this propagates the selction index back and computes a hot one mask
160        1/1                    assign sel_tree[C0] = sel_tree[Pa] & ~sel;
           Tests:       T1 T2 T3 
161        1/1                    assign sel_tree[C1] = sel_tree[Pa] &  sel;
           Tests:       T1 T2 T3 
162                               // this performs a prefix sum for masking the input requests in the next cycle
163        unreachable            assign mask_tree[C0] = mask_tree[Pa];
164        1/1                    assign mask_tree[C1] = mask_tree[Pa] | sel_tree[C0];
           Tests:       T1 T2 T3 
165                             end
166                           end : gen_level
167                         end : gen_tree
168                     
169                         // the results can be found at the tree root
170                         if (EnDataPort) begin : gen_data_port
171                           assign data_o      = data_tree[0];
172                         end else begin : gen_no_dataport
173                           logic [DW-1:0] unused_data;
174        1/1                assign unused_data = data_tree[0];
           Tests:       T1 T2 T3 
175                           assign data_o = '1;
176                         end
177                     
178                         // This index is unused.
179                         logic unused_prio_tree;
180        1/1              assign unused_prio_tree = prio_tree[0];
           Tests:       T1 T2 T3 
181                     
182        1/1              assign idx_o       = idx_tree[0];
           Tests:       T1 T2 T3 
183        1/1              assign valid_o     = req_tree[0];
           Tests:       T1 T2 T3 
184                     
185                         // the select tree computes a hot one signal that indicates which request is currently selected
186                         assign sel_tree[0] = 1'b1;
187                         // the mask tree is basically a prefix sum of the hot one select signal computed above
188                         assign mask_tree[0] = 1'b0;
189                     
190                         always_ff @(posedge clk_i or negedge rst_ni) begin : p_mask_reg
191        1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
192        1/1                  prio_mask_q <= '0;
           Tests:       T1 T2 T3 
193                           end else begin
194        1/1                  prio_mask_q <= prio_mask_d;
           Tests:       T1 T2 T3

SCORE	LINE
97.25	98.07

tb.dut.u_otp_arb

SCORE	LINE
79.48	75.00

tb.dut.u_scrmbl_mtx

	Line No.	Total	Covered	Percent
TOTAL		207	205	99.03
CONT_ASSIGN	62	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	138	1	1	100.00
CONT_ASSIGN	138	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	0	0
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	0	0
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	0	0
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	0	0.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	0	0.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	0	0
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	163	0	0
CONT_ASSIGN	163	0	0
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	0	0
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	0	0
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	171	1	1	100.00
CONT_ASSIGN	180	1	1	100.00
CONT_ASSIGN	182	1	1	100.00
CONT_ASSIGN	183	1	1	100.00
ALWAYS	191	3	3	100.00



61                        logic unused_req_chk;
62         1/1            assign unused_req_chk = req_chk_i;
           Tests:       T1 T2 T3 
63                      
64                        `ASSERT_INIT(CheckNGreaterZero_A, N > 0)
65                      
66                        // this case is basically just a bypass
67                        if (N == 1) begin : gen_degenerate_case
68                      
69                          assign valid_o  = req_i[0];
70                          assign data_o   = data_i[0];
71                          assign gnt_o[0] = valid_o & ready_i;
72                          assign idx_o    = '0;
73                      
74                        end else begin : gen_normal_case
75                      
76                          // align to powers of 2 for simplicity
77                          // a full binary tree with N levels has 2**N + 2**N-1 nodes
78                          logic [2**(IdxW+1)-2:0]           req_tree;
79                          logic [2**(IdxW+1)-2:0]           prio_tree;
80                          logic [2**(IdxW+1)-2:0]           sel_tree;
81                          logic [2**(IdxW+1)-2:0]           mask_tree;
82                          logic [2**(IdxW+1)-2:0][IdxW-1:0] idx_tree;
83                          logic [2**(IdxW+1)-2:0][DW-1:0]   data_tree;
84                          logic [N-1:0]                     prio_mask_d, prio_mask_q;
85                      
86                          for (genvar level = 0; level < IdxW+1; level++) begin : gen_tree
87                            //
88                            // level+1   C0   C1   <- "Base1" points to the first node on "level+1",
89                            //            \  /         these nodes are the children of the nodes one level below
90                            // level       Pa      <- "Base0", points to the first node on "level",
91                            //                         these nodes are the parents of the nodes one level above
92                            //
93                            // hence we have the following indices for the Pa, C0, C1 nodes:
94                            // Pa = 2**level     - 1 + offset       = Base0 + offset
95                            // C0 = 2**(level+1) - 1 + 2*offset     = Base1 + 2*offset
96                            // C1 = 2**(level+1) - 1 + 2*offset + 1 = Base1 + 2*offset + 1
97                            //
98                            localparam int Base0 = (2**level)-1;
99                            localparam int Base1 = (2**(level+1))-1;
100                     
101                           for (genvar offset = 0; offset < 2**level; offset++) begin : gen_level
102                             localparam int Pa = Base0 + offset;
103                             localparam int C0 = Base1 + 2*offset;
104                             localparam int C1 = Base1 + 2*offset + 1;
105                     
106                             // this assigns the gated interrupt source signals, their
107                             // corresponding IDs and priorities to the tree leafs
108                             if (level == IdxW) begin : gen_leafs
109                               if (offset < N) begin : gen_assign
110                                 // forward path (requests and data)
111                                 // all requests inputs are assigned to the request tree
112        14/14                    assign req_tree[Pa]      = req_i[offset];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
113                                 // we basically split the incoming request vector into two halves with the following
114                                 // priority assignment. the prio_mask_q register contains a prefix sum that has been
115                                 // computed using the last winning index, and hence masks out all requests at offsets
116                                 // lower or equal the previously granted index. hence, all higher indices are considered
117                                 // first in the arbitration tree nodes below, before considering the lower indices.
118        14/14                    assign prio_tree[Pa]     = req_i[offset] & prio_mask_q[offset];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
119                                 // input for the index muxes (used to compute the winner index)
120                                 assign idx_tree[Pa]      = offset;
121                                 // input for the data muxes
122        14/14                    assign data_tree[Pa]     = data_i[offset];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
123                     
124                                 // backward path (grants and prefix sum)
125                                 // grant if selected, ready and request asserted
126        14/14                    assign gnt_o[offset]       = req_i[offset] & sel_tree[Pa] & ready_i;
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
127                                 // only update mask if there is a valid request
128        14/14                    assign prio_mask_d[offset] = (|req_i) ?
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
129                                                              mask_tree[Pa] | sel_tree[Pa] & ~ready_i :
130                                                              prio_mask_q[offset];
131                               end else begin : gen_tie_off
132                                 // forward path
133                                 assign req_tree[Pa]  = '0;
134                                 assign prio_tree[Pa] = '0;
135                                 assign idx_tree[Pa]  = '0;
136                                 assign data_tree[Pa] = '0;
137                                 logic unused_sigs;
138        2/2                      assign unused_sigs = ^{mask_tree[Pa],
           Tests:       T1 T2 T3  | T1 T2 T3 
139                                                        sel_tree[Pa]};
140                               end
141                             // this creates the node assignments
142                             end else begin : gen_nodes
143                               // local helper variable
144                               logic sel;
145                     
146                               // forward path (requests and data)
147                               // each node looks at its two children, and selects the one with higher priority
148        14/14(1 unreachable)            assign sel = ~req_tree[C0] | ~prio_tree[C0] & prio_tree[C1];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
149                               // propagate requests
150        14/14(1 unreachable)            assign req_tree[Pa]  = req_tree[C0] | req_tree[C1];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
151        14/14(1 unreachable)            assign prio_tree[Pa] = prio_tree[C1] | prio_tree[C0];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
152                               // data and index muxes
153                               // Note: these ternaries have triggered a synthesis bug in Vivado versions older
154                               // than 2020.2. If the problem resurfaces again, have a look at issue #1408.
155        14/15   ==>            assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
156        14/15   ==>            assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
157                     
158                               // backward path (grants and prefix sum)
159                               // this propagates the selction index back and computes a hot one mask
160        14/14(1 unreachable)            assign sel_tree[C0] = sel_tree[Pa] & ~sel;
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
161        15/15                  assign sel_tree[C1] = sel_tree[Pa] &  sel;
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
162                               // this performs a prefix sum for masking the input requests in the next cycle
163        11/11(4 unreachable)            assign mask_tree[C0] = mask_tree[Pa];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
164        15/15                  assign mask_tree[C1] = mask_tree[Pa] | sel_tree[C0];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
165                             end
166                           end : gen_level
167                         end : gen_tree
168                     
169                         // the results can be found at the tree root
170                         if (EnDataPort) begin : gen_data_port
171        1/1                assign data_o      = data_tree[0];
           Tests:       T1 T2 T3 
172                         end else begin : gen_no_dataport
173                           logic [DW-1:0] unused_data;
174                           assign unused_data = data_tree[0];
175                           assign data_o = '1;
176                         end
177                     
178                         // This index is unused.
179                         logic unused_prio_tree;
180        1/1              assign unused_prio_tree = prio_tree[0];
           Tests:       T1 T2 T3 
181                     
182        1/1              assign idx_o       = idx_tree[0];
           Tests:       T1 T2 T3 
183        1/1              assign valid_o     = req_tree[0];
           Tests:       T1 T2 T3 
184                     
185                         // the select tree computes a hot one signal that indicates which request is currently selected
186                         assign sel_tree[0] = 1'b1;
187                         // the mask tree is basically a prefix sum of the hot one select signal computed above
188                         assign mask_tree[0] = 1'b0;
189                     
190                         always_ff @(posedge clk_i or negedge rst_ni) begin : p_mask_reg
191        1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
192        1/1                  prio_mask_q <= '0;
           Tests:       T1 T2 T3 
193                           end else begin
194        1/1                  prio_mask_q <= prio_mask_d;
           Tests:       T1 T2 T3

SCORE	LINE
98.34	100.00

tb.dut.u_otp_ctrl_kdi.u_req_arb

	Line No.	Total	Covered	Percent
TOTAL		103	103	100.00
CONT_ASSIGN	62	0	0
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	112	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	118	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	122	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	126	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	128	1	1	100.00
CONT_ASSIGN	138	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	148	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	150	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	151	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	155	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	156	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	160	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	161	1	1	100.00
CONT_ASSIGN	163	0	0
CONT_ASSIGN	163	0	0
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	0	0
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	163	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	164	1	1	100.00
CONT_ASSIGN	171	1	1	100.00
CONT_ASSIGN	180	1	1	100.00
CONT_ASSIGN	182	1	1	100.00
CONT_ASSIGN	183	1	1	100.00
ALWAYS	191	3	3	100.00



61                        logic unused_req_chk;
62         unreachable    assign unused_req_chk = req_chk_i;
63                      
64                        `ASSERT_INIT(CheckNGreaterZero_A, N > 0)
65                      
66                        // this case is basically just a bypass
67                        if (N == 1) begin : gen_degenerate_case
68                      
69                          assign valid_o  = req_i[0];
70                          assign data_o   = data_i[0];
71                          assign gnt_o[0] = valid_o & ready_i;
72                          assign idx_o    = '0;
73                      
74                        end else begin : gen_normal_case
75                      
76                          // align to powers of 2 for simplicity
77                          // a full binary tree with N levels has 2**N + 2**N-1 nodes
78                          logic [2**(IdxW+1)-2:0]           req_tree;
79                          logic [2**(IdxW+1)-2:0]           prio_tree;
80                          logic [2**(IdxW+1)-2:0]           sel_tree;
81                          logic [2**(IdxW+1)-2:0]           mask_tree;
82                          logic [2**(IdxW+1)-2:0][IdxW-1:0] idx_tree;
83                          logic [2**(IdxW+1)-2:0][DW-1:0]   data_tree;
84                          logic [N-1:0]                     prio_mask_d, prio_mask_q;
85                      
86                          for (genvar level = 0; level < IdxW+1; level++) begin : gen_tree
87                            //
88                            // level+1   C0   C1   <- "Base1" points to the first node on "level+1",
89                            //            \  /         these nodes are the children of the nodes one level below
90                            // level       Pa      <- "Base0", points to the first node on "level",
91                            //                         these nodes are the parents of the nodes one level above
92                            //
93                            // hence we have the following indices for the Pa, C0, C1 nodes:
94                            // Pa = 2**level     - 1 + offset       = Base0 + offset
95                            // C0 = 2**(level+1) - 1 + 2*offset     = Base1 + 2*offset
96                            // C1 = 2**(level+1) - 1 + 2*offset + 1 = Base1 + 2*offset + 1
97                            //
98                            localparam int Base0 = (2**level)-1;
99                            localparam int Base1 = (2**(level+1))-1;
100                     
101                           for (genvar offset = 0; offset < 2**level; offset++) begin : gen_level
102                             localparam int Pa = Base0 + offset;
103                             localparam int C0 = Base1 + 2*offset;
104                             localparam int C1 = Base1 + 2*offset + 1;
105                     
106                             // this assigns the gated interrupt source signals, their
107                             // corresponding IDs and priorities to the tree leafs
108                             if (level == IdxW) begin : gen_leafs
109                               if (offset < N) begin : gen_assign
110                                 // forward path (requests and data)
111                                 // all requests inputs are assigned to the request tree
112        7/7                      assign req_tree[Pa]      = req_i[offset];
           Tests:       T3 T5 T6  | T3 T5 T6  | T3 T4 T5  | T3 T5 T6  | T3 T5 T6  | T3 T5 T6  | T3 T5 T6 
113                                 // we basically split the incoming request vector into two halves with the following
114                                 // priority assignment. the prio_mask_q register contains a prefix sum that has been
115                                 // computed using the last winning index, and hence masks out all requests at offsets
116                                 // lower or equal the previously granted index. hence, all higher indices are considered
117                                 // first in the arbitration tree nodes below, before considering the lower indices.
118        7/7                      assign prio_tree[Pa]     = req_i[offset] & prio_mask_q[offset];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
119                                 // input for the index muxes (used to compute the winner index)
120                                 assign idx_tree[Pa]      = offset;
121                                 // input for the data muxes
122        7/7                      assign data_tree[Pa]     = data_i[offset];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
123                     
124                                 // backward path (grants and prefix sum)
125                                 // grant if selected, ready and request asserted
126        7/7                      assign gnt_o[offset]       = req_i[offset] & sel_tree[Pa] & ready_i;
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
127                                 // only update mask if there is a valid request
128        7/7                      assign prio_mask_d[offset] = (|req_i) ?
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
129                                                              mask_tree[Pa] | sel_tree[Pa] & ~ready_i :
130                                                              prio_mask_q[offset];
131                               end else begin : gen_tie_off
132                                 // forward path
133                                 assign req_tree[Pa]  = '0;
134                                 assign prio_tree[Pa] = '0;
135                                 assign idx_tree[Pa]  = '0;
136                                 assign data_tree[Pa] = '0;
137                                 logic unused_sigs;
138        1/1                      assign unused_sigs = ^{mask_tree[Pa],
           Tests:       T3 T4 T5 
139                                                        sel_tree[Pa]};
140                               end
141                             // this creates the node assignments
142                             end else begin : gen_nodes
143                               // local helper variable
144                               logic sel;
145                     
146                               // forward path (requests and data)
147                               // each node looks at its two children, and selects the one with higher priority
148        7/7                    assign sel = ~req_tree[C0] | ~prio_tree[C0] & prio_tree[C1];
           Tests:       T3 T4 T5  | T3 T4 T5  | T3 T5 T6  | T3 T5 T6  | T3 T4 T5  | T3 T5 T6  | T3 T5 T6 
149                               // propagate requests
150        7/7                    assign req_tree[Pa]  = req_tree[C0] | req_tree[C1];
           Tests:       T3 T4 T5  | T3 T4 T5  | T3 T5 T6  | T3 T5 T6  | T3 T4 T5  | T3 T5 T6  | T3 T5 T6 
151        7/7                    assign prio_tree[Pa] = prio_tree[C1] | prio_tree[C0];
           Tests:       T3 T4 T5  | T3 T4 T5  | T3 T5 T6  | T3 T5 T6  | T3 T4 T5  | T3 T5 T6  | T3 T5 T6 
152                               // data and index muxes
153                               // Note: these ternaries have triggered a synthesis bug in Vivado versions older
154                               // than 2020.2. If the problem resurfaces again, have a look at issue #1408.
155        7/7                    assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
           Tests:       T3 T4 T5  | T3 T4 T5  | T3 T5 T6  | T3 T5 T6  | T3 T4 T5  | T3 T5 T6  | T3 T5 T6 
156        7/7                    assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
           Tests:       T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3  | T1 T2 T3 
157                     
158                               // backward path (grants and prefix sum)
159                               // this propagates the selction index back and computes a hot one mask
160        7/7                    assign sel_tree[C0] = sel_tree[Pa] & ~sel;
           Tests:       T3 T4 T5  | T3 T4 T5  | T3 T4 T5  | T3 T5 T6  | T3 T4 T5  | T3 T5 T6  | T3 T4 T5 
161        7/7                    assign sel_tree[C1] = sel_tree[Pa] &  sel;
           Tests:       T3 T4 T5  | T3 T4 T5  | T3 T4 T5  | T3 T5 T6  | T3 T4 T5  | T3 T5 T6  | T3 T4 T5 
162                               // this performs a prefix sum for masking the input requests in the next cycle
163        4/4(3 unreachable)            assign mask_tree[C0] = mask_tree[Pa];
           Tests:       T3 T4 T5  | T3 T5 T6  | T3 T4 T5  | T3 T4 T5 
164        7/7                    assign mask_tree[C1] = mask_tree[Pa] | sel_tree[C0];
           Tests:       T3 T4 T5  | T3 T5 T6  | T3 T4 T5  | T3 T5 T6  | T3 T4 T5  | T3 T4 T5  | T3 T4 T5 
165                             end
166                           end : gen_level
167                         end : gen_tree
168                     
169                         // the results can be found at the tree root
170                         if (EnDataPort) begin : gen_data_port
171        1/1                assign data_o      = data_tree[0];
           Tests:       T3 T4 T5 
172                         end else begin : gen_no_dataport
173                           logic [DW-1:0] unused_data;
174                           assign unused_data = data_tree[0];
175                           assign data_o = '1;
176                         end
177                     
178                         // This index is unused.
179                         logic unused_prio_tree;
180        1/1              assign unused_prio_tree = prio_tree[0];
           Tests:       T3 T4 T5 
181                     
182        1/1              assign idx_o       = idx_tree[0];
           Tests:       T3 T4 T5 
183        1/1              assign valid_o     = req_tree[0];
           Tests:       T3 T4 T5 
184                     
185                         // the select tree computes a hot one signal that indicates which request is currently selected
186                         assign sel_tree[0] = 1'b1;
187                         // the mask tree is basically a prefix sum of the hot one select signal computed above
188                         assign mask_tree[0] = 1'b0;
189                     
190                         always_ff @(posedge clk_i or negedge rst_ni) begin : p_mask_reg
191        1/1                if (!rst_ni) begin
           Tests:       T1 T2 T3 
192        1/1                  prio_mask_q <= '0;
           Tests:       T1 T2 T3 
193                           end else begin
194        1/1                  prio_mask_q <= prio_mask_d;
           Tests:       T1 T2 T3

Cond Coverage for Module : prim_arbiter_tree ( parameter N=2,DW=32,EnDataPort=0,IdxW=1,gen_normal_case.gen_tree[0].gen_level[0].Pa=0,gen_normal_case.gen_tree[0].gen_level[0].C0=1,gen_normal_case.gen_tree[0].gen_level[0].C1=2,gen_normal_case.gen_tree[1].gen_level[0].Pa=1,gen_normal_case.gen_tree[1].gen_level[0].C0=3,gen_normal_case.gen_tree[1].gen_level[0].C1=4,gen_normal_case.gen_tree[1].gen_level[1].Pa=2,gen_normal_case.gen_tree[1].gen_level[1].C0=5,gen_normal_case.gen_tree[1].gen_level[1].C1=6 )
Cond Coverage for Module self-instances :

SCORE	COND
87.74	65.31

tb.dut.u_edn_arb

	Total	Covered	Percent
Conditions	51	32	62.75
Logical	51	32	62.75
Non-Logical	0	0
Event	0	0

 LINE       118
 EXPRESSION (req_i[0] & gen_normal_case.prio_mask_q[0])
             ----1---   ---------------2--------------

-1-	-2-	Status	Tests
0	1	Not Covered
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       118
 EXPRESSION (req_i[1] & gen_normal_case.prio_mask_q[1])
             ----1---   ---------------2--------------

-1-	-2-	Status	Tests
0	1	Covered	T3,T5,T6
1	0	Not Covered
1	1	Not Covered

 LINE       126
 EXPRESSION (req_i[0] & gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[0].Pa] & ready_i)
             ----1---   ----------------------------------2----------------------------------   ---3---

-1-	-2-	-3-	Status	Tests
0	1	1	Not Covered
1	0	1	Not Covered
1	1	0	Covered	T3,T5,T6
1	1	1	Covered	T3,T5,T6

 LINE       126
 EXPRESSION (req_i[1] & gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[1].Pa] & ready_i)
             ----1---   ----------------------------------2----------------------------------   ---3---

-1-	-2-	-3-	Status
0	1	1	Not Covered
1	0	1	Not Covered
1	1	0	Not Covered
1	1	1	Not Covered

 LINE       128
 EXPRESSION 
 Number  Term
      1  ((|req_i)) ? (gen_normal_case.mask_tree[gen_normal_case.gen_tree[1].gen_level[0].Pa] | (gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[0].Pa] & ((~ready_i)))) : gen_normal_case.prio_mask_q[0])

-1-	Status	Tests
0	Covered	T1,T2,T3
1	Covered	T3,T5,T6

 LINE       128
 SUB-EXPRESSION 
 Number  Term
      1  gen_normal_case.mask_tree[gen_normal_case.gen_tree[1].gen_level[0].Pa] | 
      2  (gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[0].Pa] & ((~ready_i))))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Covered	T3,T5,T6
1	0	Unreachable

 LINE       128
 SUB-EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[0].Pa] & ((~ready_i)))
                 ----------------------------------1----------------------------------   ------2-----

-1-	-2-	Status	Tests
0	1	Not Covered
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       128
 EXPRESSION 
 Number  Term
      1  ((|req_i)) ? (gen_normal_case.mask_tree[gen_normal_case.gen_tree[1].gen_level[1].Pa] | (gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[1].Pa] & ((~ready_i)))) : gen_normal_case.prio_mask_q[1])

-1-	Status	Tests
0	Covered	T1,T2,T3
1	Covered	T3,T5,T6

 LINE       128
 SUB-EXPRESSION 
 Number  Term
      1  gen_normal_case.mask_tree[gen_normal_case.gen_tree[1].gen_level[1].Pa] | 
      2  (gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[1].Pa] & ((~ready_i))))

-1-	-2-	Status	Tests
0	0	Not Covered
0	1	Not Covered
1	0	Covered	T3,T5,T6

 LINE       128
 SUB-EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[1].Pa] & ((~ready_i)))
                 ----------------------------------1----------------------------------   ------2-----

-1-	-2-	Status	Tests
0	1	Covered	T3,T5,T6
1	0	Not Covered
1	1	Not Covered

 LINE       148
 EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.req_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])) | 
      2  (((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])) & gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C1]))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Not Covered
1	0	Covered	T1,T2,T3

 LINE       148
 SUB-EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])) & 
      2  gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C1])

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

 LINE       150
 EXPRESSION (gen_normal_case.req_tree[gen_normal_case.gen_tree[0].gen_level[0].C0] | gen_normal_case.req_tree[gen_normal_case.gen_tree[0].gen_level[0].C1])
             ----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Not Covered
1	0	Covered	T3,T5,T6

 LINE       151
 EXPRESSION (gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C1] | gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])
             -----------------------------------1----------------------------------   -----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Not Covered

 LINE       155
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[0].gen_level[0].gen_nodes.sel ? gen_normal_case.idx_tree[gen_normal_case.gen_tree[0].gen_level[0].C1] : gen_normal_case.idx_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       156
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[0].gen_level[0].gen_nodes.sel ? gen_normal_case.data_tree[gen_normal_case.gen_tree[0].gen_level[0].C1] : gen_normal_case.data_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       160
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[0].gen_level[0].Pa] & ((~gen_normal_case.gen_tree[0].gen_level[0].gen_nodes.sel)))
             ----------------------------------1----------------------------------   -----------------------------2-----------------------------

-1-	-2-	Status	Tests
0	1	Unreachable
1	0	Covered	T1,T2,T3
1	1	Covered	T3,T5,T6

 LINE       161
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[0].gen_level[0].Pa] & gen_normal_case.gen_tree[0].gen_level[0].gen_nodes.sel)
             ----------------------------------1----------------------------------   ---------------------------2--------------------------

-1-	-2-	Status	Tests
0	1	Unreachable
1	0	Covered	T3,T5,T6
1	1	Covered	T1,T2,T3

 LINE       164
 EXPRESSION (gen_normal_case.mask_tree[gen_normal_case.gen_tree[0].gen_level[0].Pa] | gen_normal_case.sel_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])
             -----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Unreachable

SCORE	COND
97.25	97.16

tb.dut.u_otp_arb

	Total	Covered	Percent
Conditions	559	514	91.95
Logical	559	514	91.95
Non-Logical	0	0
Event	0	0

This module contains a very large number of conditions, so the report has been split into multiple pages, by source line number. Click on the line number range in the table below to see the condition coverage for that section of the module.

Line numbers	Percent
118-150	88.38
150-164	96.98

SCORE	COND
79.48	99.17

tb.dut.u_scrmbl_mtx

	Total	Covered	Percent
Conditions	503	359	71.37
Logical	503	359	71.37
Non-Logical	0	0
Event	0	0

Line numbers	Percent
118-155	71.18
155-164	71.78

SCORE	COND
98.34	99.62

tb.dut.u_otp_ctrl_kdi.u_req_arb

	Total	Covered	Percent
Conditions	269	261	97.03
Logical	269	261	97.03
Non-Logical	0	0
Event	0	0

 LINE       118
 EXPRESSION (req_i[0] & gen_normal_case.prio_mask_q[0])
             ----1---   ---------------2--------------

-1-	-2-	Status	Tests
0	1	Not Covered
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       118
 EXPRESSION (req_i[1] & gen_normal_case.prio_mask_q[1])
             ----1---   ---------------2--------------

-1-	-2-	Status	Tests
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       118
 EXPRESSION (req_i[2] & gen_normal_case.prio_mask_q[2])
             ----1---   ---------------2--------------

-1-	-2-	Status	Tests
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T4,T5
1	1	Covered	T3,T4,T5

 LINE       118
 EXPRESSION (req_i[3] & gen_normal_case.prio_mask_q[3])
             ----1---   ---------------2--------------

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       118
 EXPRESSION (req_i[4] & gen_normal_case.prio_mask_q[4])
             ----1---   ---------------2--------------

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       118
 EXPRESSION (req_i[5] & gen_normal_case.prio_mask_q[5])
             ----1---   ---------------2--------------

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       118
 EXPRESSION (req_i[6] & gen_normal_case.prio_mask_q[6])
             ----1---   ---------------2--------------

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       126
 EXPRESSION (req_i[0] & gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[0].Pa] & ready_i)
             ----1---   ----------------------------------2----------------------------------   ---3---

-1-	-2-	-3-	Status	Tests
0	1	1	Not Covered
1	0	1	Covered	T6,T92,T119
1	1	0	Covered	T3,T5,T6
1	1	1	Covered	T3,T5,T6

 LINE       126
 EXPRESSION (req_i[1] & gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[1].Pa] & ready_i)
             ----1---   ----------------------------------2----------------------------------   ---3---

-1-	-2-	-3-	Status	Tests
0	1	1	Not Covered
1	0	1	Covered	T6,T92,T119
1	1	0	Covered	T3,T5,T6
1	1	1	Covered	T3,T5,T6

 LINE       126
 EXPRESSION (req_i[2] & gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[2].Pa] & ready_i)
             ----1---   ----------------------------------2----------------------------------   ---3---

-1-	-2-	-3-	Status	Tests
0	1	1	Not Covered
1	0	1	Covered	T6,T92,T119
1	1	0	Covered	T3,T4,T5
1	1	1	Covered	T3,T5,T6

 LINE       126
 EXPRESSION (req_i[3] & gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[3].Pa] & ready_i)
             ----1---   ----------------------------------2----------------------------------   ---3---

-1-	-2-	-3-	Status	Tests
0	1	1	Not Covered
1	0	1	Covered	T6,T92,T119
1	1	0	Covered	T3,T5,T6
1	1	1	Covered	T3,T5,T6

 LINE       126
 EXPRESSION (req_i[4] & gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[4].Pa] & ready_i)
             ----1---   ----------------------------------2----------------------------------   ---3---

-1-	-2-	-3-	Status	Tests
0	1	1	Not Covered
1	0	1	Covered	T92,T119,T271
1	1	0	Covered	T3,T5,T6
1	1	1	Covered	T3,T5,T6

 LINE       126
 EXPRESSION (req_i[5] & gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[5].Pa] & ready_i)
             ----1---   ----------------------------------2----------------------------------   ---3---

-1-	-2-	-3-	Status	Tests
0	1	1	Not Covered
1	0	1	Covered	T199,T272,T24
1	1	0	Covered	T3,T5,T6
1	1	1	Covered	T3,T5,T6

 LINE       126
 EXPRESSION (req_i[6] & gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[6].Pa] & ready_i)
             ----1---   ----------------------------------2----------------------------------   ---3---

-1-	-2-	-3-	Status	Tests
0	1	1	Not Covered
1	0	1	Covered	T92,T271,T273
1	1	0	Covered	T3,T5,T6
1	1	1	Covered	T3,T5,T6

 LINE       128
 EXPRESSION 
 Number  Term
      1  ((|req_i)) ? (gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[0].Pa] | (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[0].Pa] & ((~ready_i)))) : gen_normal_case.prio_mask_q[0])

-1-	Status	Tests
0	Covered	T1,T2,T3
1	Covered	T3,T4,T5

 LINE       128
 SUB-EXPRESSION 
 Number  Term
      1  gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[0].Pa] | 
      2  (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[0].Pa] & ((~ready_i))))

-1-	-2-	Status	Tests
0	0	Covered	T3,T4,T5
0	1	Covered	T3,T5,T6
1	0	Unreachable

 LINE       128
 SUB-EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[0].Pa] & ((~ready_i)))
                 ----------------------------------1----------------------------------   ------2-----

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       128
 EXPRESSION 
 Number  Term
      1  ((|req_i)) ? (gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[1].Pa] | (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[1].Pa] & ((~ready_i)))) : gen_normal_case.prio_mask_q[1])

-1-	Status	Tests
0	Covered	T1,T2,T3
1	Covered	T3,T4,T5

 LINE       128
 SUB-EXPRESSION 
 Number  Term
      1  gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[1].Pa] | 
      2  (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[1].Pa] & ((~ready_i))))

-1-	-2-	Status	Tests
0	0	Covered	T3,T4,T5
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T5,T6

 LINE       128
 SUB-EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[1].Pa] & ((~ready_i)))
                 ----------------------------------1----------------------------------   ------2-----

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       128
 EXPRESSION 
 Number  Term
      1  ((|req_i)) ? (gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[2].Pa] | (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[2].Pa] & ((~ready_i)))) : gen_normal_case.prio_mask_q[2])

-1-	Status	Tests
0	Covered	T1,T2,T3
1	Covered	T3,T4,T5

 LINE       128
 SUB-EXPRESSION 
 Number  Term
      1  gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[2].Pa] | 
      2  (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[2].Pa] & ((~ready_i))))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6

 LINE       128
 SUB-EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[2].Pa] & ((~ready_i)))
                 ----------------------------------1----------------------------------   ------2-----

-1-	-2-	Status	Tests
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T4,T5

 LINE       128
 EXPRESSION 
 Number  Term
      1  ((|req_i)) ? (gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[3].Pa] | (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[3].Pa] & ((~ready_i)))) : gen_normal_case.prio_mask_q[3])

-1-	Status	Tests
0	Covered	T1,T2,T3
1	Covered	T3,T4,T5

 LINE       128
 SUB-EXPRESSION 
 Number  Term
      1  gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[3].Pa] | 
      2  (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[3].Pa] & ((~ready_i))))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T4,T5

 LINE       128
 SUB-EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[3].Pa] & ((~ready_i)))
                 ----------------------------------1----------------------------------   ------2-----

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       128
 EXPRESSION 
 Number  Term
      1  ((|req_i)) ? (gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[4].Pa] | (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[4].Pa] & ((~ready_i)))) : gen_normal_case.prio_mask_q[4])

-1-	Status	Tests
0	Covered	T1,T2,T3
1	Covered	T3,T4,T5

 LINE       128
 SUB-EXPRESSION 
 Number  Term
      1  gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[4].Pa] | 
      2  (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[4].Pa] & ((~ready_i))))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T4,T5

 LINE       128
 SUB-EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[4].Pa] & ((~ready_i)))
                 ----------------------------------1----------------------------------   ------2-----

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       128
 EXPRESSION 
 Number  Term
      1  ((|req_i)) ? (gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[5].Pa] | (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[5].Pa] & ((~ready_i)))) : gen_normal_case.prio_mask_q[5])

-1-	Status	Tests
0	Covered	T1,T2,T3
1	Covered	T3,T4,T5

 LINE       128
 SUB-EXPRESSION 
 Number  Term
      1  gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[5].Pa] | 
      2  (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[5].Pa] & ((~ready_i))))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T4,T5

 LINE       128
 SUB-EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[5].Pa] & ((~ready_i)))
                 ----------------------------------1----------------------------------   ------2-----

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       128
 EXPRESSION 
 Number  Term
      1  ((|req_i)) ? (gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[6].Pa] | (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[6].Pa] & ((~ready_i)))) : gen_normal_case.prio_mask_q[6])

-1-	Status	Tests
0	Covered	T1,T2,T3
1	Covered	T3,T4,T5

 LINE       128
 SUB-EXPRESSION 
 Number  Term
      1  gen_normal_case.mask_tree[gen_normal_case.gen_tree[3].gen_level[6].Pa] | 
      2  (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[6].Pa] & ((~ready_i))))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T4,T5

 LINE       128
 SUB-EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[3].gen_level[6].Pa] & ((~ready_i)))
                 ----------------------------------1----------------------------------   ------2-----

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       148
 EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.req_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])) | 
      2  (((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])) & gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C1]))

-1-	-2-	Status	Tests
0	0	Covered	T3,T4,T5
0	1	Covered	T92,T271,T14
1	0	Covered	T1,T2,T3

 LINE       148
 SUB-EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])) & 
      2  gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C1])

-1-	-2-	Status	Tests
0	1	Covered	T92,T116,T119
1	0	Covered	T1,T2,T3
1	1	Covered	T3,T5,T6

 LINE       148
 EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.req_tree[gen_normal_case.gen_tree[1].gen_level[0].C0])) | 
      2  (((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[0].C0])) & gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[0].C1]))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Covered	T6,T92,T119
1	0	Covered	T1,T2,T3

 LINE       148
 SUB-EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[0].C0])) & 
      2  gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[0].C1])

-1-	-2-	Status	Tests
0	1	Covered	T6,T92,T119
1	0	Covered	T1,T2,T3
1	1	Covered	T3,T4,T5

 LINE       148
 EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.req_tree[gen_normal_case.gen_tree[1].gen_level[1].C0])) | 
      2  (((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[1].C0])) & gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[1].C1]))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Covered	T29,T274,T251
1	0	Covered	T1,T2,T3

 LINE       148
 SUB-EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[1].C0])) & 
      2  gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[1].C1])

-1-	-2-	Status	Tests
0	1	Covered	T116,T275,T27
1	0	Covered	T1,T2,T3
1	1	Covered	T3,T5,T6

 LINE       148
 EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[0].C0])) | 
      2  (((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[0].C0])) & gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[0].C1]))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Covered	T6,T92,T119
1	0	Covered	T1,T2,T3

 LINE       148
 SUB-EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[0].C0])) & 
      2  gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[0].C1])

-1-	-2-	Status	Tests
0	1	Covered	T6,T92,T119
1	0	Covered	T1,T2,T3
1	1	Covered	T3,T5,T6

 LINE       148
 EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[1].C0])) | 
      2  (((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[1].C0])) & gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[1].C1]))

-1-	-2-	Status	Tests
0	0	Covered	T3,T4,T5
0	1	Covered	T6,T92,T119
1	0	Covered	T1,T2,T3

 LINE       148
 SUB-EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[1].C0])) & 
      2  gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[1].C1])

-1-	-2-	Status	Tests
0	1	Covered	T6,T92,T119
1	0	Covered	T1,T2,T3
1	1	Covered	T3,T5,T6

 LINE       148
 EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[2].C0])) | 
      2  (((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[2].C0])) & gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[2].C1]))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Covered	T256,T264,T29
1	0	Covered	T1,T2,T3

 LINE       148
 SUB-EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[2].C0])) & 
      2  gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[2].C1])

-1-	-2-	Status	Tests
0	1	Covered	T116,T275,T27
1	0	Covered	T1,T2,T3
1	1	Covered	T3,T5,T6

 LINE       148
 EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[3].C0])) | 
      2  (((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[3].C0])) & gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[3].C1]))

-1-	-2-	Status	Tests
0	0	Covered	T3,T5,T6
0	1	Unreachable
1	0	Covered	T1,T2,T3

 LINE       148
 SUB-EXPRESSION 
 Number  Term
      1  ((~gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[3].C0])) & 
      2  gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[3].C1])

-1-	-2-	Status	Tests
0	1	Unreachable
1	0	Covered	T1,T2,T3
1	1	Unreachable

 LINE       150
 EXPRESSION (gen_normal_case.req_tree[gen_normal_case.gen_tree[0].gen_level[0].C0] | gen_normal_case.req_tree[gen_normal_case.gen_tree[0].gen_level[0].C1])
             ----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T4,T5

 LINE       150
 EXPRESSION (gen_normal_case.req_tree[gen_normal_case.gen_tree[1].gen_level[0].C0] | gen_normal_case.req_tree[gen_normal_case.gen_tree[1].gen_level[0].C1])
             ----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6

 LINE       150
 EXPRESSION (gen_normal_case.req_tree[gen_normal_case.gen_tree[1].gen_level[1].C0] | gen_normal_case.req_tree[gen_normal_case.gen_tree[1].gen_level[1].C1])
             ----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T5,T6

 LINE       150
 EXPRESSION (gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[0].C0] | gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[0].C1])
             ----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T5,T6

 LINE       150
 EXPRESSION (gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[1].C0] | gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[1].C1])
             ----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T4,T5

 LINE       150
 EXPRESSION (gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[2].C0] | gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[2].C1])
             ----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T5,T6

 LINE       150
 EXPRESSION (gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[3].C0] | gen_normal_case.req_tree[gen_normal_case.gen_tree[2].gen_level[3].C1])
             ----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Unreachable
1	0	Covered	T3,T5,T6

 LINE       151
 EXPRESSION (gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C1] | gen_normal_case.prio_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])
             -----------------------------------1----------------------------------   -----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6

 LINE       151
 EXPRESSION (gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[0].C1] | gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[0].C0])
             -----------------------------------1----------------------------------   -----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T4,T5

 LINE       151
 EXPRESSION (gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[1].C1] | gen_normal_case.prio_tree[gen_normal_case.gen_tree[1].gen_level[1].C0])
             -----------------------------------1----------------------------------   -----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T5,T6

 LINE       151
 EXPRESSION (gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[0].C1] | gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[0].C0])
             -----------------------------------1----------------------------------   -----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T5,T6

 LINE       151
 EXPRESSION (gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[1].C1] | gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[1].C0])
             -----------------------------------1----------------------------------   -----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6

 LINE       151
 EXPRESSION (gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[2].C1] | gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[2].C0])
             -----------------------------------1----------------------------------   -----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T5,T6

 LINE       151
 EXPRESSION (gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[3].C1] | gen_normal_case.prio_tree[gen_normal_case.gen_tree[2].gen_level[3].C0])
             -----------------------------------1----------------------------------   -----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Unreachable

 LINE       155
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[0].gen_level[0].gen_nodes.sel ? gen_normal_case.idx_tree[gen_normal_case.gen_tree[0].gen_level[0].C1] : gen_normal_case.idx_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])

-1-	Status	Tests
0	Covered	T3,T4,T5
1	Covered	T1,T2,T3

 LINE       155
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[1].gen_level[0].gen_nodes.sel ? gen_normal_case.idx_tree[gen_normal_case.gen_tree[1].gen_level[0].C1] : gen_normal_case.idx_tree[gen_normal_case.gen_tree[1].gen_level[0].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       155
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[1].gen_level[1].gen_nodes.sel ? gen_normal_case.idx_tree[gen_normal_case.gen_tree[1].gen_level[1].C1] : gen_normal_case.idx_tree[gen_normal_case.gen_tree[1].gen_level[1].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       155
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[2].gen_level[0].gen_nodes.sel ? gen_normal_case.idx_tree[gen_normal_case.gen_tree[2].gen_level[0].C1] : gen_normal_case.idx_tree[gen_normal_case.gen_tree[2].gen_level[0].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       155
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[2].gen_level[1].gen_nodes.sel ? gen_normal_case.idx_tree[gen_normal_case.gen_tree[2].gen_level[1].C1] : gen_normal_case.idx_tree[gen_normal_case.gen_tree[2].gen_level[1].C0])

-1-	Status	Tests
0	Covered	T3,T4,T5
1	Covered	T1,T2,T3

 LINE       155
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[2].gen_level[2].gen_nodes.sel ? gen_normal_case.idx_tree[gen_normal_case.gen_tree[2].gen_level[2].C1] : gen_normal_case.idx_tree[gen_normal_case.gen_tree[2].gen_level[2].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       155
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[2].gen_level[3].gen_nodes.sel ? gen_normal_case.idx_tree[gen_normal_case.gen_tree[2].gen_level[3].C1] : gen_normal_case.idx_tree[gen_normal_case.gen_tree[2].gen_level[3].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       156
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[0].gen_level[0].gen_nodes.sel ? gen_normal_case.data_tree[gen_normal_case.gen_tree[0].gen_level[0].C1] : gen_normal_case.data_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])

-1-	Status	Tests
0	Covered	T3,T4,T5
1	Covered	T1,T2,T3

 LINE       156
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[1].gen_level[0].gen_nodes.sel ? gen_normal_case.data_tree[gen_normal_case.gen_tree[1].gen_level[0].C1] : gen_normal_case.data_tree[gen_normal_case.gen_tree[1].gen_level[0].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       156
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[1].gen_level[1].gen_nodes.sel ? gen_normal_case.data_tree[gen_normal_case.gen_tree[1].gen_level[1].C1] : gen_normal_case.data_tree[gen_normal_case.gen_tree[1].gen_level[1].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       156
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[2].gen_level[0].gen_nodes.sel ? gen_normal_case.data_tree[gen_normal_case.gen_tree[2].gen_level[0].C1] : gen_normal_case.data_tree[gen_normal_case.gen_tree[2].gen_level[0].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       156
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[2].gen_level[1].gen_nodes.sel ? gen_normal_case.data_tree[gen_normal_case.gen_tree[2].gen_level[1].C1] : gen_normal_case.data_tree[gen_normal_case.gen_tree[2].gen_level[1].C0])

-1-	Status	Tests
0	Covered	T3,T4,T5
1	Covered	T1,T2,T3

 LINE       156
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[2].gen_level[2].gen_nodes.sel ? gen_normal_case.data_tree[gen_normal_case.gen_tree[2].gen_level[2].C1] : gen_normal_case.data_tree[gen_normal_case.gen_tree[2].gen_level[2].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       156
 EXPRESSION 
 Number  Term
      1  gen_normal_case.gen_tree[2].gen_level[3].gen_nodes.sel ? gen_normal_case.data_tree[gen_normal_case.gen_tree[2].gen_level[3].C1] : gen_normal_case.data_tree[gen_normal_case.gen_tree[2].gen_level[3].C0])

-1-	Status	Tests
0	Covered	T3,T5,T6
1	Covered	T1,T2,T3

 LINE       160
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[0].gen_level[0].Pa] & ((~gen_normal_case.gen_tree[0].gen_level[0].gen_nodes.sel)))
             ----------------------------------1----------------------------------   -----------------------------2-----------------------------

-1-	-2-	Status	Tests
0	1	Unreachable
1	0	Covered	T1,T2,T3
1	1	Covered	T3,T4,T5

 LINE       160
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[0].Pa] & ((~gen_normal_case.gen_tree[1].gen_level[0].gen_nodes.sel)))
             ----------------------------------1----------------------------------   -----------------------------2-----------------------------

-1-	-2-	Status	Tests
0	1	Covered	T92,T271,T14
1	0	Covered	T3,T4,T5
1	1	Covered	T3,T5,T6

 LINE       160
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[1].Pa] & ((~gen_normal_case.gen_tree[1].gen_level[1].gen_nodes.sel)))
             ----------------------------------1----------------------------------   -----------------------------2-----------------------------

-1-	-2-	Status	Tests
0	1	Covered	T92,T116,T119
1	0	Covered	T1,T2,T3
1	1	Covered	T3,T5,T6

 LINE       160
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[0].Pa] & ((~gen_normal_case.gen_tree[2].gen_level[0].gen_nodes.sel)))
             ----------------------------------1----------------------------------   -----------------------------2-----------------------------

-1-	-2-	Status	Tests
0	1	Covered	T6,T92,T119
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       160
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[1].Pa] & ((~gen_normal_case.gen_tree[2].gen_level[1].gen_nodes.sel)))
             ----------------------------------1----------------------------------   -----------------------------2-----------------------------

-1-	-2-	Status	Tests
0	1	Covered	T6,T92,T119
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T4,T5

 LINE       160
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[2].Pa] & ((~gen_normal_case.gen_tree[2].gen_level[2].gen_nodes.sel)))
             ----------------------------------1----------------------------------   -----------------------------2-----------------------------

-1-	-2-	Status	Tests
0	1	Covered	T92,T116,T119
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       160
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[3].Pa] & ((~gen_normal_case.gen_tree[2].gen_level[3].gen_nodes.sel)))
             ----------------------------------1----------------------------------   -----------------------------2-----------------------------

-1-	-2-	Status	Tests
0	1	Covered	T92,T116,T271
1	0	Covered	T1,T2,T3
1	1	Covered	T3,T5,T6

 LINE       161
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[0].gen_level[0].Pa] & gen_normal_case.gen_tree[0].gen_level[0].gen_nodes.sel)
             ----------------------------------1----------------------------------   ---------------------------2--------------------------

-1-	-2-	Status	Tests
0	1	Unreachable
1	0	Covered	T3,T4,T5
1	1	Covered	T1,T2,T3

 LINE       161
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[0].Pa] & gen_normal_case.gen_tree[1].gen_level[0].gen_nodes.sel)
             ----------------------------------1----------------------------------   ---------------------------2--------------------------

-1-	-2-	Status	Tests
0	1	Covered	T1,T2,T3
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T4,T5

 LINE       161
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[1].Pa] & gen_normal_case.gen_tree[1].gen_level[1].gen_nodes.sel)
             ----------------------------------1----------------------------------   ---------------------------2--------------------------

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T1,T2,T3

 LINE       161
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[0].Pa] & gen_normal_case.gen_tree[2].gen_level[0].gen_nodes.sel)
             ----------------------------------1----------------------------------   ---------------------------2--------------------------

-1-	-2-	Status	Tests
0	1	Covered	T1,T2,T3
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       161
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[1].Pa] & gen_normal_case.gen_tree[2].gen_level[1].gen_nodes.sel)
             ----------------------------------1----------------------------------   ---------------------------2--------------------------

-1-	-2-	Status	Tests
0	1	Covered	T1,T2,T3
1	0	Covered	T3,T4,T5
1	1	Covered	T3,T5,T6

 LINE       161
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[2].Pa] & gen_normal_case.gen_tree[2].gen_level[2].gen_nodes.sel)
             ----------------------------------1----------------------------------   ---------------------------2--------------------------

-1-	-2-	Status	Tests
0	1	Covered	T1,T2,T3
1	0	Covered	T3,T5,T6
1	1	Covered	T3,T5,T6

 LINE       161
 EXPRESSION (gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[3].Pa] & gen_normal_case.gen_tree[2].gen_level[3].gen_nodes.sel)
             ----------------------------------1----------------------------------   ---------------------------2--------------------------

-1-	-2-	Status	Tests
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6
1	1	Covered	T1,T2,T3

 LINE       164
 EXPRESSION (gen_normal_case.mask_tree[gen_normal_case.gen_tree[0].gen_level[0].Pa] | gen_normal_case.sel_tree[gen_normal_case.gen_tree[0].gen_level[0].C0])
             -----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T4,T5
1	0	Unreachable

 LINE       164
 EXPRESSION (gen_normal_case.mask_tree[gen_normal_case.gen_tree[1].gen_level[0].Pa] | gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[0].C0])
             -----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Unreachable

 LINE       164
 EXPRESSION (gen_normal_case.mask_tree[gen_normal_case.gen_tree[1].gen_level[1].Pa] | gen_normal_case.sel_tree[gen_normal_case.gen_tree[1].gen_level[1].C0])
             -----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T4,T5

 LINE       164
 EXPRESSION (gen_normal_case.mask_tree[gen_normal_case.gen_tree[2].gen_level[0].Pa] | gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[0].C0])
             -----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Unreachable

 LINE       164
 EXPRESSION (gen_normal_case.mask_tree[gen_normal_case.gen_tree[2].gen_level[1].Pa] | gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[1].C0])
             -----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T4,T5
1	0	Covered	T3,T5,T6

 LINE       164
 EXPRESSION (gen_normal_case.mask_tree[gen_normal_case.gen_tree[2].gen_level[2].Pa] | gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[2].C0])
             -----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T4,T5

 LINE       164
 EXPRESSION (gen_normal_case.mask_tree[gen_normal_case.gen_tree[2].gen_level[3].Pa] | gen_normal_case.sel_tree[gen_normal_case.gen_tree[2].gen_level[3].C0])
             -----------------------------------1----------------------------------   ----------------------------------2----------------------------------

-1-	-2-	Status	Tests
0	0	Covered	T1,T2,T3
0	1	Covered	T3,T5,T6
1	0	Covered	T3,T4,T5

SCORE	BRANCH
97.25	100.00

tb.dut.u_otp_arb

SCORE	BRANCH
79.48	100.00

tb.dut.u_scrmbl_mtx

	Line No.	Total	Covered	Percent
Branches		88	88	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	1	1	100.00
TERNARY	156	1	1	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
IF	191	2	2	100.00



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T4,T5



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T4,T5



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

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



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T5,T6,T12



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T5,T6,T12



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==> (Unreachable)

Branches:

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



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==> (Unreachable)

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

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



191              if (!rst_ni) begin
                 -1-  
192                prio_mask_q <= '0;
                   ==>
193              end else begin
194                prio_mask_q <= prio_mask_d;
                   ==>

Branches:

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

SCORE	BRANCH
87.74	100.00

tb.dut.u_edn_arb

	Line No.	Total	Covered	Percent
Branches		10	10	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
IF	191	2	2	100.00



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

-1-	Status	Tests
1	Covered	T3,T5,T6
0	Covered	T1,T2,T3



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

-1-	Status	Tests
1	Covered	T3,T5,T6
0	Covered	T1,T2,T3



191              if (!rst_ni) begin
                 -1-  
192                prio_mask_q <= '0;
                   ==>
193              end else begin
194                prio_mask_q <= prio_mask_d;
                   ==>

Branches:

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

SCORE	BRANCH
98.34	100.00

tb.dut.u_otp_ctrl_kdi.u_req_arb

	Line No.	Total	Covered	Percent
Branches		44	44	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	155	2	2	100.00
TERNARY	156	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
TERNARY	128	2	2	100.00
IF	191	2	2	100.00



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T4,T5



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T4,T5



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T4,T5



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T4,T5



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



155                  assign idx_tree[Pa]  = (sel) ? idx_tree[C1]  : idx_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



156                  assign data_tree[Pa] = (sel) ? data_tree[C1] : data_tree[C0];
                                                  -1-  
                                                  ==>  
                                                  ==>

Branches:

-1-	Status	Tests
1	Covered	T1,T2,T3
0	Covered	T3,T5,T6



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

-1-	Status	Tests
1	Covered	T3,T4,T5
0	Covered	T1,T2,T3



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

-1-	Status	Tests
1	Covered	T3,T4,T5
0	Covered	T1,T2,T3



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

-1-	Status	Tests
1	Covered	T3,T4,T5
0	Covered	T1,T2,T3



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

-1-	Status	Tests
1	Covered	T3,T4,T5
0	Covered	T1,T2,T3



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

-1-	Status	Tests
1	Covered	T3,T4,T5
0	Covered	T1,T2,T3



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

-1-	Status	Tests
1	Covered	T3,T4,T5
0	Covered	T1,T2,T3



128                    assign prio_mask_d[offset] = (|req_i) ?
                                                             -1-  
                                                             ==>  
                                                             ==>

Branches:

-1-	Status	Tests
1	Covered	T3,T4,T5
0	Covered	T1,T2,T3



191              if (!rst_ni) begin
                 -1-  
192                prio_mask_q <= '0;
                   ==>
193              end else begin
194                prio_mask_q <= prio_mask_d;
                   ==>

Branches:

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

Assert Coverage for Module : prim_arbiter_tree

	Total	Attempted	Percent	Succeeded/Matched	Percent
Assertions	16	16	100.00	15	93.75
Cover properties	0	0		0
Cover sequences	0	0		0
Total	16	16	100.00	15	93.75

Assertion Details

Name	Attempts	Real Successes	Failures	Incomplete
CheckHotOne_A	402083644	398715772	0	0
CheckNGreaterZero_A	4488	4488	0	0
GntImpliesReady_A	402083644	1902941	0	0
GntImpliesValid_A	402083644	1902941	0	0
GrantKnown_A	402083644	398715772	0	0
IdxKnown_A	402083644	398715772	0	0
IndexIsCorrect_A	402083644	1902941	0	0
LockArbDecision_A	402083644	71690569	0	0
NoReadyValidNoGrant_A	402083644	197218385	0	0
ReadyAndValidImplyGrant_A	402083644	1902941	0	0
ReqAndReadyImplyGrant_A	402083644	1902941	0	0
ReqImpliesValid_A	402083644	119052711	0	0
ReqStaysHighUntilGranted0_M	402083644	71690569	0	0
RoundRobin_A	402083644	0	0	4444
ValidKnown_A	402083644	398715772	0	0
gen_data_port_assertion.DataFlow_A	301562733	1709722	0	0

CheckHotOne_A

Name	Attempts	Real Successes
Total	402083644	398715772
T1	18776	18536
T2	49580	48648
T3	55676	54632
T4	58796	57796
T5	95624	94128
T6	95040	94072
T10	16528	16228
T11	61020	59936
T12	98884	97956
T13	140876	138656

CheckNGreaterZero_A

Name	Attempts	Real Successes
Total	4488	4488
T1	4	4
T2	4	4
T3	4	4
T4	4	4
T5	4	4
T6	4	4
T10	4	4
T11	4	4
T12	4	4
T13	4	4

GntImpliesReady_A

Name	Attempts	Real Successes
Total	402083644	1902941
T1	4694	111
T2	12395	130
T3	41757	194
T4	44097	172
T5	71718	528
T6	71280	440
T10	12396	55
T11	45765	223
T12	74163	230
T13	105657	602
T36	143198	369
T92	0	345
T93	0	336
T94	0	266
T97	0	109
T126	0	183
T129	76870	0

GntImpliesValid_A

Name	Attempts	Real Successes
Total	402083644	1902941
T1	4694	111
T2	12395	130
T3	41757	194
T4	44097	172
T5	71718	528
T6	71280	440
T10	12396	55
T11	45765	223
T12	74163	230
T13	105657	602
T36	143198	369
T92	0	345
T93	0	336
T94	0	266
T97	0	109
T126	0	183
T129	76870	0

GrantKnown_A

Name	Attempts	Real Successes
Total	402083644	398715772
T1	18776	18536
T2	49580	48648
T3	55676	54632
T4	58796	57796
T5	95624	94128
T6	95040	94072
T10	16528	16228
T11	61020	59936
T12	98884	97956
T13	140876	138656

IdxKnown_A

Name	Attempts	Real Successes
Total	402083644	398715772
T1	18776	18536
T2	49580	48648
T3	55676	54632
T4	58796	57796
T5	95624	94128
T6	95040	94072
T10	16528	16228
T11	61020	59936
T12	98884	97956
T13	140876	138656

IndexIsCorrect_A

Name	Attempts	Real Successes
Total	402083644	1902941
T1	4694	111
T2	12395	130
T3	41757	194
T4	44097	172
T5	71718	528
T6	71280	440
T10	12396	55
T11	45765	223
T12	74163	230
T13	105657	602
T36	143198	369
T92	0	345
T93	0	336
T94	0	266
T97	0	109
T126	0	183
T129	76870	0

LockArbDecision_A

Name	Attempts	Real Successes
Total	402083644	71690569
T1	4694	624
T2	12395	676
T3	41757	4623
T4	44097	7799
T5	71718	7113
T6	71280	34013
T10	12396	624
T11	45765	1532
T12	74163	1399
T13	105657	22820
T36	143198	45457
T92	0	17060
T93	0	3471
T94	0	9386
T97	0	4673
T102	0	13063
T126	0	12430
T129	76870	0

NoReadyValidNoGrant_A

Name	Attempts	Real Successes
Total	402083644	197218385
T1	18776	11074
T2	49580	34663
T3	55676	31895
T4	58796	32387
T5	95624	54287
T6	95040	22424
T10	16528	10098
T11	61020	41861
T12	98884	69665
T13	140876	67015

ReadyAndValidImplyGrant_A

Name	Attempts	Real Successes
Total	402083644	1902941
T1	4694	111
T2	12395	130
T3	41757	194
T4	44097	172
T5	71718	528
T6	71280	440
T10	12396	55
T11	45765	223
T12	74163	230
T13	105657	602
T36	143198	369
T92	0	345
T93	0	336
T94	0	266
T97	0	109
T126	0	183
T129	76870	0

ReqAndReadyImplyGrant_A

Name	Attempts	Real Successes
Total	402083644	1902941
T1	4694	111
T2	12395	130
T3	41757	194
T4	44097	172
T5	71718	528
T6	71280	440
T10	12396	55
T11	45765	223
T12	74163	230
T13	105657	602
T36	143198	369
T92	0	345
T93	0	336
T94	0	266
T97	0	109
T126	0	183
T129	76870	0

ReqImpliesValid_A

Name	Attempts	Real Successes
Total	402083644	119052711
T1	9388	4331
T2	24790	3618
T3	55676	11279
T4	58796	13778
T5	95624	22508
T6	95040	51990
T10	16528	2994
T11	61020	6505
T12	98884	6649
T13	140876	43605
T36	143198	45826
T92	0	17408
T93	0	3765
T94	0	9652
T97	0	4782
T102	0	13064
T126	0	12586
T129	76870	0

ReqStaysHighUntilGranted0_M

Name	Attempts	Real Successes
Total	402083644	71690569
T1	4694	624
T2	12395	676
T3	41757	4623
T4	44097	7799
T5	71718	7113
T6	71280	34013
T10	12396	624
T11	45765	1532
T12	74163	1399
T13	105657	22820
T36	143198	45457
T92	0	17060
T93	0	3471
T94	0	9386
T97	0	4673
T102	0	13063
T126	0	12430
T129	76870	0

RoundRobin_A

Name	Attempts	Real Successes	Failures	Incomplete
Total	402083644	0	0	4444

ValidKnown_A

Name	Attempts	Real Successes
Total	402083644	398715772
T1	18776	18536
T2	49580	48648
T3	55676	54632
T4	58796	57796
T5	95624	94128
T6	95040	94072
T10	16528	16228
T11	61020	59936
T12	98884	97956
T13	140876	138656

gen_data_port_assertion.DataFlow_A

Name	Attempts	Real Successes
Total	301562733	1709722
T1	4694	111
T2	12395	130
T3	27838	147
T4	29398	172
T5	47812	433
T6	47520	299
T10	8264	55
T11	30510	223
T12	49442	230
T13	70438	483
T36	71599	56
T92	0	42
T93	0	42
T94	0	35
T97	0	14
T126	0	28
T129	38435	0

SCORE	LINE	COND	TOGGLE	FSM	BRANCH	ASSERT
92.91	97.11	80.77			100.00	93.75