首先是top_tb:
`timescale 1ns/1ps
`include "uvm_macros.svh"
import uvm_pkg::*;
`include "my_if.sv"
`include "my_transaction.sv"
`include "my_sequencer.sv"
`include "my_driver.sv"
`include "my_monitor.sv"
`include "my_agent.sv"
`include "my_model.sv"
`include "my_scoreboard.sv"
`include "my_env.sv"
`include "base_test.sv"
`include "my_case0.sv"
`include "my_case1.sv"
module top_tb;
reg clk;
reg rst_n;
reg[7:0] rxd;
reg rx_dv;
wire[7:0] txd;
wire tx_en;
my_if input_if(clk, rst_n);
my_if output_if(clk, rst_n);
dut my_dut(.clk(clk),
.rst_n(rst_n),
.rxd(input_if.data),
.rx_dv(input_if.valid),
.txd(output_if.data),
.tx_en(output_if.valid));
initial begin
clk = 0;
forever begin
#100 clk = ~clk;
end
end
initial begin
rst_n = 1'b0;
#1000;
rst_n = 1'b1;
end
initial begin
run_test();
end
initial begin
uvm_config_db#(virtual my_if)::set(null, "uvm_test_top.env.i_agt.drv", "vif", input_if);
uvm_config_db#(virtual my_if)::set(null, "uvm_test_top.env.i_agt.mon", "vif", input_if);
uvm_config_db#(virtual my_if)::set(null, "uvm_test_top.env.o_agt.mon", "vif", output_if);
end
endmodule
主要实例化了DUT,和输入输出inf,
定义了时钟频率,传递了接口以链接TB,
和一个run_test()。
然后是base_test:
`ifndef BASE_TEST__SV
`define BASE_TEST__SV
class base_test extends uvm_test;
my_env env;
function new(string name = "base_test", uvm_component parent = null);
super.new(name,parent);
endfunction
extern virtual function void build_phase(uvm_phase phase);
extern virtual function void report_phase(uvm_phase phase);
`uvm_component_utils(base_test)
endclass
function void base_test::build_phase(uvm_phase phase);
super.build_phase(phase);
env = my_env::type_id::create("env", this);
endfunction
function void base_test::report_phase(uvm_phase phase);
uvm_report_server server;
int err_num;
super.report_phase(phase);
server = get_report_server();
err_num = server.get_severity_count(UVM_ERROR);
if (err_num != 0) begin
$display("TEST CASE FAILED");
end
else begin
$display("TEST CASE PASSED");
end
endfunction
`endif
就算是build_phase中例化一个env,以及report_phase中进行get_severity_count(UVM_ERROR),
汇报测试结果
然后是env:
`ifndef MY_ENV__SV
`define MY_ENV__SV
class my_env extends uvm_env;
my_agent i_agt;
my_agent o_agt;
my_model mdl;
my_scoreboard scb;
uvm_tlm_analysis_fifo #(my_transaction) agt_scb_fifo;
uvm_tlm_analysis_fifo #(my_transaction) agt_mdl_fifo;
uvm_tlm_analysis_fifo #(my_transaction) mdl_scb_fifo;
function new(string name = "my_env", uvm_component parent);
super.new(name, parent);
endfunction
virtual function void build_phase(uvm_phase phase);
super.build_phase(phase);
i_agt = my_agent::type_id::create("i_agt", this);
o_agt = my_agent::type_id::create("o_agt", this);
i_agt.is_active = UVM_ACTIVE;
o_agt.is_active = UVM_PASSIVE;
mdl = my_model::type_id::create("mdl", this);
scb = my_scoreboard::type_id::create("scb", this);
agt_scb_fifo = new("agt_scb_fifo", this);
agt_mdl_fifo = new("agt_mdl_fifo", this);
mdl_scb_fifo = new("mdl_scb_fifo", this);
endfunction
extern virtual function void connect_phase(uvm_phase phase);
`uvm_component_utils(my_env)
endclass
function void my_env::connect_phase(uvm_phase phase);
super.connect_phase(phase);
i_agt.ap.connect(agt_mdl_fifo.analysis_export);
mdl.port.connect(agt_mdl_fifo.blocking_get_export);
mdl.ap.connect(mdl_scb_fifo.analysis_export);
scb.exp_port.connect(mdl_scb_fifo.blocking_get_export);
o_agt.ap.connect(agt_scb_fifo.analysis_export);
scb.act_port.connect(agt_scb_fifo.blocking_get_export);
endfunction
`endif
主要是哥哥模块,和三个tlm_analysis_fifo,
然后build_phase中type::create模块,配置i/o_agent,new三个fifo,
之后connect_phase中.connect analysis_export和blocking_get_export。
要传送的transcation:
`ifndef MY_TRANSACTION__SV
`define MY_TRANSACTION__SV
class my_transaction extends uvm_sequence_item;
rand bit[47:0] dmac;
rand bit[47:0] smac;
rand bit[15:0] ether_type;
rand byte pload[];
rand bit[31:0] crc;
constraint pload_cons{
pload.size >= 46;
pload.size <= 1500;
}
function bit[31:0] calc_crc();
return 32'h0;
endfunction
function void post_randomize();
crc = calc_crc;
endfunction
`uvm_object_utils_begin(my_transaction)
`uvm_field_int(dmac, UVM_ALL_ON)
`uvm_field_int(smac, UVM_ALL_ON)
`uvm_field_int(ether_type, UVM_ALL_ON)
`uvm_field_array_int(pload, UVM_ALL_ON)
`uvm_field_int(crc, UVM_ALL_ON)
`uvm_object_utils_end
function new(string name = "my_transaction");
super.new();
endfunction
endclass
`endif
主要各种内容及uvm_object_utils,uvm_field_int注册,
约数参数,和在post_randomize()中处理内容。
发送transaction的sequencer:
`ifndef MY_SEQUENCER__SV
`define MY_SEQUENCER__SV
class my_sequencer extends uvm_sequencer #(my_transaction);
function new(string name, uvm_component parent);
super.new(name, parent);
endfunction
`uvm_component_utils(my_sequencer)
endclass
`endif
很简单,就是一个注册和new()
比较复杂的Driver:
`ifndef MY_DRIVER__SV
`define MY_DRIVER__SV
class my_driver extends uvm_driver#(my_transaction);
virtual my_if vif;
`uvm_component_utils(my_driver)
function new(string name = "my_driver", uvm_component parent = null);
super.new(name, parent);
endfunction
virtual function void build_phase(uvm_phase phase);
super.build_phase(phase);
if(!uvm_config_db#(virtual my_if)::get(this, "", "vif", vif))
`uvm_fatal("my_driver", "virtual interface must be set for vif!!!")
endfunction
extern task main_phase(uvm_phase phase);
extern task drive_one_pkt(my_transaction tr);
endclass
task my_driver::main_phase(uvm_phase phase);
vif.data <= 8'b0;
vif.valid <= 1'b0;
while(!vif.rst_n)
@(posedge vif.clk);
while(1) begin
seq_item_port.get_next_item(req);
drive_one_pkt(req);
seq_item_port.item_done();
end
endtask
task my_driver::drive_one_pkt(my_transaction tr);
byte unsigned data_q[];
int data_size;
data_size = tr.pack_bytes(data_q) / 8;
`uvm_info("my_driver", "begin to drive one pkt", UVM_LOW);
repeat(3) @(posedge vif.clk);
for ( int i = 0; i < data_size; i++ ) begin
@(posedge vif.clk);
vif.valid <= 1'b1;
vif.data <= data_q[i];
end
@(posedge vif.clk);
vif.valid <= 1'b0;
`uvm_info("my_driver", "end drive one pkt", UVM_LOW);
endtask
`endif
首先是virtual inf和build_phase中接受接口,否则fatal,
然后main_phase中while(1)循环的get_next_item(req),调用发送函数发送req,返回item_done()。
而在monitor中:
`ifndef MY_MONITOR__SV
`define MY_MONITOR__SV
class my_monitor extends uvm_monitor;
virtual my_if vif;
uvm_analysis_port #(my_transaction) ap;
`uvm_component_utils(my_monitor)
function new(string name = "my_monitor", uvm_component parent = null);
super.new(name, parent);
endfunction
virtual function void build_phase(uvm_phase phase);
super.build_phase(phase);
if(!uvm_config_db#(virtual my_if)::get(this, "", "vif", vif))
`uvm_fatal("my_monitor", "virtual interface must be set for vif!!!")
ap = new("ap", this);
endfunction
extern task main_phase(uvm_phase phase);
extern task collect_one_pkt(my_transaction tr);
endclass
task my_monitor::main_phase(uvm_phase phase);
my_transaction tr;
while(1) begin
tr = new("tr");
collect_one_pkt(tr);
ap.write(tr);
end
endtask
task my_monitor::collect_one_pkt(my_transaction tr);
byte unsigned data_q[$];
byte unsigned data_array[];
logic [7:0] data;
logic valid = 0;
int data_size;
while(1) begin
@(posedge vif.clk);
if(vif.valid) break;
end
`uvm_info("my_monitor", "begin to collect one pkt", UVM_LOW);
while(vif.valid) begin
data_q.push_back(vif.data);
@(posedge vif.clk);
end
data_size = data_q.size();
data_array = new[data_size];
for ( int i = 0; i < data_size; i++ ) begin
data_array[i] = data_q[i];
end
tr.pload = new[data_size - 18]; //da sa, e_type, crc
data_size = tr.unpack_bytes(data_array) / 8;
`uvm_info("my_monitor", "end collect one pkt", UVM_LOW);
endtask
`endif
主要是virtual inf和analysis_port,在build_phase中接受接口,
mian_phase中while(1)的调用接受函数和和ap.write(tr)。
在agent中:
`ifndef MY_AGENT__SV
`define MY_AGENT__SV
class my_agent extends uvm_agent ;
my_sequencer sqr;
my_driver drv;
my_monitor mon;
uvm_analysis_port #(my_transaction) ap;
function new(string name, uvm_component parent);
super.new(name, parent);
endfunction
extern virtual function void build_phase(uvm_phase phase);
extern virtual function void connect_phase(uvm_phase phase);
`uvm_component_utils(my_agent)
endclass
function void my_agent::build_phase(uvm_phase phase);
super.build_phase(phase);
if (is_active == UVM_ACTIVE) begin
sqr = my_sequencer::type_id::create("sqr", this);
drv = my_driver::type_id::create("drv", this);
end
mon = my_monitor::type_id::create("mon", this);
endfunction
function void my_agent::connect_phase(uvm_phase phase);
super.connect_phase(phase);
if (is_active == UVM_ACTIVE) begin
drv.seq_item_port.connect(sqr.seq_item_export);
end
ap = mon.ap;
endfunction
`endif
含有driver和monitor,在build_phase中如果UVM_ACTIVE,就例化drv和sqr,但都例化mont,
在build_phase中如果UVM_ACTIVE就链接drv和sqr的接口。
而interface比较简单,就是接口就好:
`ifndef MY_IF__SV
`define MY_IF__SV
interface my_if(input clk, input rst_n);
logic [7:0] data;
logic valid;
endinterface
`endif
而reference_model中:
`ifndef MY_MODEL__SV
`define MY_MODEL__SV
class my_model extends uvm_component;
uvm_blocking_get_port #(my_transaction) port;
uvm_analysis_port #(my_transaction) ap;
extern function new(string name, uvm_component parent);
extern function void build_phase(uvm_phase phase);
extern virtual task main_phase(uvm_phase phase);
`uvm_component_utils(my_model)
endclass
function my_model::new(string name, uvm_component parent);
super.new(name, parent);
endfunction
function void my_model::build_phase(uvm_phase phase);
super.build_phase(phase);
port = new("port", this);
ap = new("ap", this);
endfunction
task my_model::main_phase(uvm_phase phase);
my_transaction tr;
my_transaction new_tr;
super.main_phase(phase);
while(1) begin
port.get(tr);
new_tr = new("new_tr");
new_tr.copy(tr);
`uvm_info("my_model", "get one transaction, copy and print it:", UVM_LOW)
new_tr.print();
ap.write(new_tr);
end
endtask
`endif
需要进的blocking_get_port和出的analysis_port两个,在build_phase中连接他们,
在main_phase中则while1的,如藕藕get_port.get()收到,就ana_port.write()这个tr,
之后的scroreboard中:
`ifndef MY_SCOREBOARD__SV
`define MY_SCOREBOARD__SV
class my_scoreboard extends uvm_scoreboard;
my_transaction expect_queue[$];
uvm_blocking_get_port #(my_transaction) exp_port;
uvm_blocking_get_port #(my_transaction) act_port;
`uvm_component_utils(my_scoreboard)
extern function new(string name, uvm_component parent = null);
extern virtual function void build_phase(uvm_phase phase);
extern virtual task main_phase(uvm_phase phase);
endclass
function my_scoreboard::new(string name, uvm_component parent = null);
super.new(name, parent);
endfunction
function void my_scoreboard::build_phase(uvm_phase phase);
super.build_phase(phase);
exp_port = new("exp_port", this);
act_port = new("act_port", this);
endfunction
task my_scoreboard::main_phase(uvm_phase phase);
my_transaction get_expect, get_actual, tmp_tran;
bit result;
super.main_phase(phase);
fork
while (1) begin
exp_port.get(get_expect);
expect_queue.push_back(get_expect);
end
while (1) begin
act_port.get(get_actual);
if(expect_queue.size() > 0) begin
tmp_tran = expect_queue.pop_front();
result = get_actual.compare(tmp_tran);
if(result) begin
`uvm_info("my_scoreboard", "Compare SUCCESSFULLY", UVM_LOW);
end
else begin
`uvm_error("my_scoreboard", "Compare FAILED");
$display("the expect pkt is");
tmp_tran.print();
$display("the actual pkt is");
get_actual.print();
end
end
else begin
`uvm_error("my_scoreboard", "Received from DUT, while Expect Queue is empty");
$display("the unexpected pkt is");
get_actual.print();
end
end
join
endtask
`endif
是两个get_port,在build_phase中new它们,
首先对于exp端,while(1)的,只要get一个tr,就要在tr_queue中push进去一个,
同时对于act端,while(1)的。只要get一个tr,就要从tr_queue中pop一个出来,进行比较。
这个两个是fork join的,互补影响。
case0中:
`ifndef MY_CASE0__SV
`define MY_CASE0__SV
class case0_sequence extends uvm_sequence #(my_transaction);
my_transaction m_trans;
function new(string name= "case0_sequence");
super.new(name);
endfunction
virtual task body();
if(starting_phase != null)
starting_phase.raise_objection(this);
repeat (10) begin
`uvm_do(m_trans)
end
#100;
if(starting_phase != null)
starting_phase.drop_objection(this);
endtask
`uvm_object_utils(case0_sequence)
endclass
class my_case0 extends base_test;
function new(string name = "my_case0", uvm_component parent = null);
super.new(name,parent);
endfunction
extern virtual function void build_phase(uvm_phase phase);
`uvm_component_utils(my_case0)
endclass
function void my_case0::build_phase(uvm_phase phase);
super.build_phase(phase);
uvm_config_db#(uvm_object_wrapper)::set(this,
"env.i_agt.sqr.main_phase",
"default_sequence",
case0_sequence::type_id::get());
endfunction
`endif
设定了sequece,task_body中uvm_do(my_trans),在之前和之后要starting_phase.raise_objection(this)和starting_phase.drop_objection(this);
在case0的build_phase中传递sequence。
case1也类似的:
`ifndef MY_CASE1__SV
`define MY_CASE1__SV
class case1_sequence extends uvm_sequence #(my_transaction);
my_transaction m_trans;
function new(string name= "case1_sequence");
super.new(name);
endfunction
virtual task body();
if(starting_phase != null)
starting_phase.raise_objection(this);
repeat (10) begin
`uvm_do_with(m_trans, { m_trans.pload.size() == 60;})
end
#100;
if(starting_phase != null)
starting_phase.drop_objection(this);
endtask
`uvm_object_utils(case1_sequence)
endclass
class my_case1 extends base_test;
function new(string name = "my_case1", uvm_component parent = null);
super.new(name,parent);
endfunction
extern virtual function void build_phase(uvm_phase phase);
`uvm_component_utils(my_case1)
endclass
function void my_case1::build_phase(uvm_phase phase);
super.build_phase(phase);
uvm_config_db#(uvm_object_wrapper)::set(this,
"env.i_agt.sqr.main_phase",
"default_sequence",
case1_sequence::type_id::get());
endfunction
`endif