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scoreboard_tb.sv
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scoreboard_tb.sv
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// Copyright 2018 ETH Zurich and University of Bologna.
// Copyright and related rights are licensed under the Solderpad Hardware
// License, Version 0.51 (the "License"); you may not use this file except in
// compliance with the License. You may obtain a copy of the License at
// http://solderpad.org/licenses/SHL-0.51. Unless required by applicable law
// or agreed to in writing, software, hardware and materials distributed under
// this License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR
// CONDITIONS OF ANY KIND, either express or implied. See the License for the
// specific language governing permissions and limitations under the License.
//
// Author: Florian Zaruba, ETH Zurich
// Date: 10/04/2017
// Description: Top level testbench module. Instantiates the top level DUT, configures
// the virtual interfaces and starts the test passed by +UVM_TEST+
//
// TODO, test register read and clobber interface, make a proper TB out of it
import uvm_pkg::*;
import ariane_pkg::*;
module scoreboard_tb;
`include "models/scoreboard.sv"
logic rst_ni, clk;
scoreboard_if #(.NR_WB_PORTS(1) ) scoreboard_if (clk);
scoreboard #(
.NR_WB_PORTS ( 1 ),
.NR_ENTRIES ( NR_SB_ENTRIES ),
.NR_COMMIT_PORTS ( 1 )
)
dut
(
.clk_i ( clk ),
.rst_ni ( rst_ni ),
.flush_i ( scoreboard_if.flush ),
.rd_clobber_o ( scoreboard_if.rd_clobber ),
.rs1_i ( scoreboard_if.rs1_address ),
.rs1_o ( scoreboard_if.rs1 ),
.rs1_valid_o ( scoreboard_if.rs1_valid ),
.rs2_i ( scoreboard_if.rs2_address ),
.rs2_o ( scoreboard_if.rs2 ),
.rs2_valid_o ( scoreboard_if.rs2_valid ),
.commit_instr_o ( scoreboard_if.commit_instr ),
.commit_ack_i ( scoreboard_if.commit_ack ),
.decoded_instr_i ( scoreboard_if.decoded_instr ),
.decoded_instr_valid_i ( scoreboard_if.decoded_instr_valid ),
.decoded_instr_ack_o ( scoreboard_if.decoded_instr_ack ),
.issue_instr_o ( scoreboard_if.issue_instr ),
.issue_instr_valid_o ( scoreboard_if.issue_instr_valid ),
.issue_ack_i ( scoreboard_if.issue_ack ),
.trans_id_i ( scoreboard_if.trans_id ),
.wbdata_i ( scoreboard_if.wdata ),
.ex_i ( scoreboard_if.ex ),
.wb_valid_i ( scoreboard_if.wb_valid )
);
initial begin
clk = 1'b0;
rst_ni = 1'b0;
repeat(8)
#10ns clk = ~clk;
rst_ni = 1'b1;
forever
#10ns clk = ~clk;
end
// simulator stopper, this is suboptimal better go for coverage
initial begin
#10000000ns
$stop;
end
program testbench (scoreboard_if scoreboard_if);
// variable declarations
Scoreboard sb = new;
semaphore wb_lock = new(1);
logic[4:0] i = 0;
assign scoreboard_if.flush = 1'b0;
initial begin
// register the scoreboard interface
// uvm_config_db #(virtual scoreboard_if)::set(null, "uvm_test_top", "scoreboard_vif", scoreboard_if);
end
// push new decoded instructions
initial begin
scoreboard_if.mck.decoded_instr_valid <= 1'b0;
wait(rst_ni == 1'b1);
// load the scoreboard until it is full
forever begin
@(scoreboard_if.mck);
// if we are not full load another instruction
scoreboard_if.mck.decoded_instr <= Scoreboard::randomize_scoreboard();
scoreboard_if.mck.decoded_instr_valid <= 1'b1;
@(scoreboard_if.mck iff scoreboard_if.mck.decoded_instr_ack == 1'b1)
scoreboard_if.mck.decoded_instr_valid <= 1'b0;
end
end
scoreboard_entry_t issue_instruction;
// pull e.g. issue instructions
initial begin
// reset values
scoreboard_if.mck.trans_id <= 'b0;
scoreboard_if.mck.wdata <= 'b0;
scoreboard_if.mck.wb_valid <= 1'b0;
wait(rst_ni == 1'b1);
forever begin
@(scoreboard_if.mck);
if (scoreboard_if.issue_instr_valid == 1'b1) begin
scoreboard_if.mck.issue_ack <= 1'b1;
issue_instruction <= scoreboard_if.mck.issue_instr;
// $display("Time: %t, Issuing: %0h, Valid: %h", $time, scoreboard_if.mck.issue_instr.pc, scoreboard_if.issue_instr_valid);
@(scoreboard_if.mck)
scoreboard_if.mck.issue_ack <= 1'b0;
// generate a delay between 0 and 3 cycles for WB, write-back out of order
fork
write_back: begin
automatic logic [TRANS_ID_BITS-1:0] trans_id = issue_instruction.trans_id;
automatic logic [63:0] random_data = $urandom_range(0, 2**31);
wb_lock.get(1);
repeat ($urandom_range(1,20)) @(scoreboard_if.mck);
// $display("Time: %t, Writing Back: %0h", $time, thread_copy.pc);
scoreboard_if.mck.trans_id <= trans_id;
scoreboard_if.mck.wdata <= random_data;
scoreboard_if.mck.wb_valid <= 1'b1;
// so far no exception testing
scoreboard_if.mck.ex <= '{default: 0};
// $display("Write Back: %0h", random_data);
sb.write_back(trans_id, random_data);
@(scoreboard_if.mck);
scoreboard_if.mck.wb_valid <= 1'b0;
wb_lock.put(1);
end
join_none
end else begin
scoreboard_if.mck.issue_ack <= 1'b0;
end
end
end
// commit instructions
initial begin
wait(rst_ni == 1'b1);
forever begin
repeat ($urandom_range(1,3)) @(scoreboard_if.mck);
if (scoreboard_if.mck.commit_instr.valid == 1'b1) begin
// $display("Time: %t, Commiting: %0h", $time, scoreboard_if.mck.commit_instr.pc);
scoreboard_if.mck.commit_ack <= 1'b1;
@(scoreboard_if.mck);
scoreboard_if.mck.commit_ack <= 1'b0;
repeat ($urandom_range(0,3)) @(scoreboard_if.mck);
end else
scoreboard_if.mck.commit_ack <= 1'b0;
end
end
// ------------------
// Monitor + Checker
// ------------------
initial begin
wait(rst_ni == 1'b1);
forever begin
@(scoreboard_if.pck);
if (scoreboard_if.pck.decoded_instr_valid == 1'b1) begin
sb.submit_instruction(scoreboard_if.pck.decoded_instr);
end
end
end
scoreboard_entry_t tmp_sbe;
initial begin
wait(rst_ni == 1'b1);
forever begin
@(scoreboard_if.pck);
if (scoreboard_if.pck.issue_instr_valid == 1'b1 && scoreboard_if.pck.issue_ack) begin
tmp_sbe = sb.get_issue();
assert (tmp_sbe.trans_id == issue_instruction.trans_id) else $error("Issue instruction mismatch. Expected: %p Got: %p", tmp_sbe, issue_instruction);
end
end
end
// commit checker
scoreboard_entry_t comp;
initial begin
wait(rst_ni == 1'b1);
forever begin
@(scoreboard_if.pck);
if (scoreboard_if.pck.commit_ack == 1'b1) begin
comp = sb.commit();
assert (comp === scoreboard_if.pck.commit_instr) else $error($sformatf("Mismatch: \nExpected: %p \nGot: %p", comp, scoreboard_if.pck.commit_instr));
end
end
end
endprogram
testbench tb(scoreboard_if);
endmodule