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[/] [qaz_libs/] [trunk/] [BFM/] [src/] [tb/] [rand_delays_c.sv] - Rev 49
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class rand_delays_c extends uvm_object;
//----------------------------------------------------------------------------------------
// Group: Types
// enum: traffic_type_e
// Allows for a variety of delay types
typedef enum {
FAST_AS_YOU_CAN,
REGULAR,
BURSTY
} traffic_type_e;
typedef int unsigned delay_t;
`uvm_object_utils_begin(rand_delays_c)
`uvm_field_enum(traffic_type_e, traffic_type, UVM_DEFAULT)
`uvm_field_int(min_delay, UVM_DEFAULT | UVM_DEC)
`uvm_field_int(max_delay, UVM_DEFAULT | UVM_DEC)
`uvm_field_int(burst_on_min, UVM_DEFAULT | UVM_DEC)
`uvm_field_int(burst_on_max, UVM_DEFAULT | UVM_DEC)
`uvm_field_int(burst_off_min, UVM_DEFAULT | UVM_DEC)
`uvm_field_int(burst_off_max, UVM_DEFAULT | UVM_DEC)
`uvm_field_int(wait_timescale, UVM_DEFAULT | UVM_DEC)
`uvm_object_utils_end
//----------------------------------------------------------------------------------------
// Group: Random Fields
// var: traffic_type
rand traffic_type_e traffic_type;
// var: min_delay, max_delay
// Delays used for REGULAR traffic types
rand delay_t min_delay, max_delay;
// var: burst_on_min, burst_on_max
// Knobs that control the random length of bursty traffic
rand delay_t burst_on_min, burst_on_max;
// var: burst_off_min, burst_off_max
// Knobs that control how long a burst will be off
rand delay_t burst_off_min, burst_off_max;
// var: wait_timescale
// The timescale to use when wait_next_delay is called
time wait_timescale = 1ns;
//----------------------------------------------------------------------------------------
// Group: Local Fields
// var: burst_on_time
// When non-zero, currently burst mode is on for this many more calls
delay_t burst_on_time = 1;
//----------------------------------------------------------------------------------------
// Group: Constraints
// constraint: delay_L0_cnstr
// Keep min knobs <= max knobs
constraint delay_L0_cnstr {
traffic_type == REGULAR -> (min_delay <= max_delay);
traffic_type == BURSTY -> (burst_on_min <= burst_on_max) && (burst_off_min <= burst_off_max);
}
// constraint: delay_L1_cnstr
// Safe delays
constraint delay_L1_cnstr {
max_delay <= 500;
burst_on_max <= 500;
burst_off_max <= 500;
}
//----------------------------------------------------------------------------------------
// Group: Methods
////////////////////////////////////////////
// func: new
function new(string name="rand_delay");
super.new(name);
endfunction : new
////////////////////////////////////////////
// func: get_next_delay
// Return the length of the next delay
virtual function delay_t get_next_delay();
case(traffic_type)
FAST_AS_YOU_CAN: get_next_delay = 0;
REGULAR: begin
std::randomize(get_next_delay) with {
get_next_delay inside {[min_delay:max_delay]};
};
end
BURSTY: begin
if(burst_on_time) begin
burst_on_time -= 1;
get_next_delay = 0;
end else begin
std::randomize(get_next_delay) with {
get_next_delay inside {[burst_off_min:burst_off_max]};
};
std::randomize(burst_on_time) with {
burst_on_time inside {[burst_on_min:burst_on_max]};
};
end
end
endcase
endfunction : get_next_delay
////////////////////////////////////////////
// func: wait_next_delay
// Wait for the next random period of time, based on the timescale provided
virtual task wait_next_delay();
delay_t delay = get_next_delay();
#(delay * wait_timescale);
endtask : wait_next_delay
endclass : rand_delays_c
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