I have the following interface and uvm_monitor (run_phase shown below).
The DUT signals are "x" for sometime. When I print the signals, in my monitor, they are captured as "x". Great.
Next, DUT signals show a valid value (the first time). When I print the signals, in my monitor, they are captured as with valid values. Great.
Next, DUT updates the all the three signals to the next value, and at time stamp 134, mirror_byte_wr_en remains to be 0 but expected to be at 0xffff..
Any idea, why? Appreciate your thoughts and inputs.
Example output from the log:
UVM_INFO snp_decomp_snpd_egress_monitor.sv(65) @ 122: uvm_test_top.m_snp_decomp_env.snpd_egress[0].m_monitor [snp_decomp_snpd_egress_monitor] mirror_data = 0x00006c61776e694720616669617a7548
UVM_INFO snp_decomp_snpd_egress_monitor.sv(71) @ 122: uvm_test_top.m_snp_decomp_env.snpd_egress[0].m_monitor [snp_decomp_snpd_egress_monitor] mirror_byte_wr_en = 0xffff
UVM_INFO snp_decomp_snpd_egress_monitor.sv(76) @ 122: uvm_test_top.m_snp_decomp_env.snpd_egress[0].m_monitor [snp_decomp_snpd_egress_monitor] mirror_wr_addr = 0x00000
UVM_INFO snp_decomp_snpd_egress_monitor.sv(65) @ 134: uvm_test_top.m_snp_decomp_env.snpd_egress[0].m_monitor [snp_decomp_snpd_egress_monitor] mirror_data = 0x3c10xxxxxxxxxxxxxxxx616c00000000
UVM_INFO snp_decomp_snpd_egress_monitor.sv(71) @ 134: uvm_test_top.m_snp_decomp_env.snpd_egress[0].m_monitor [snp_decomp_snpd_egress_monitor] mirror_byte_wr_en = 0x0000
UVM_INFO snp_decomp_snpd_egress_monitor.sv(76) @ 134: uvm_test_top.m_snp_decomp_env.snpd_egress[0].m_monitor [snp_decomp_snpd_egress_monitor] mirror_wr_addr = 0x00010
enter code here
task run_phase(uvm_phase phase);
snp_decomp_snpd_egress_transaction tr;
tr = snp_decomp_snpd_egress_transaction ::type_id::create("tr");
forever begin
@(vif.egress.egress_cb);
fork
begin
// @ (vif.egress.egress_cb);
tr.mirror_data = vif.egress.egress_cb.mirror_wr_data;
`uvm_info(get_type_name(),$sformatf("mirror_data = 0x%x\n", vif.egress.egress_cb.mirror_wr_data),UVM_LOW);
end
begin
// @ (vif.egress.egress_cb);
tr.mirror_wr_byte_en = vif.egress.egress_cb.mirror_byte_wr_en;
`uvm_info(get_type_name(),$sformatf("mirror_byte_wr_en = 0x%x\n", vif.egress.egress_cb.mirror_byte_wr_en),UVM_LOW);
end
begin
// @ (vif.egress.egress_cb);
tr.mirror_wr_addr = vif.egress.egress_cb.mirror_wr_addr;
`uvm_info(get_type_name(),$sformatf("mirror_wr_addr = 0x%x\n", vif.egress.egress_cb.mirror_wr_addr),UVM_LOW);
end
join
end
endtask : run_phase
interface snp_decomp_snpd_egress_intf(input logic clock, input logic reset);
logic [127:0] mirror_wr_data;
logic [15:0] mirror_byte_wr_en;
logic [18:0] mirror_wr_addr;
modport DUT (
input clock,
input reset,
output mirror_wr_data,
output mirror_byte_wr_en,
output mirror_wr_addr
); // modport DUT
clocking egress_cb @(posedge clock);
input mirror_wr_data;
input mirror_byte_wr_en;
input mirror_wr_addr;
endclocking: egress_cb
modport egress(clocking egress_cb);
endinterface : snp_decomp_snpd_egress_intf