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//
//----------------------------------------------------------------------
// Copyright 2007-2011 Mentor Graphics Corporation
// Copyright 2007-2010 Cadence Design Systems, Inc.
// Copyright 2010 Synopsys, Inc.
// All Rights Reserved Worldwide
//
// Licensed under the Apache License, Version 2.0 (the
// "License"); you may not use this file except in
// compliance with the License. You may obtain a copy of
// the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in
// writing, software distributed under the 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.
//----------------------------------------------------------------------
// Title: UVM Run-Time Phases
//
// The run-time schedule is the pre-defined phase schedule
// which runs concurrently to the <uvm_run_phase> global run phase.
// By default, all <uvm_component>s using the run-time schedule
// are synchronized with respect to the pre-defined phases in the schedule.
// It is possible for components to belong to different domains
// in which case their schedules can be unsynchronized.
//
// The names of the UVM phases (which will be returned by get_name() for a
// phase instance) match the class names specified below with the "uvm_"
// and "_phase" removed. For example, the main phase corresponds to the
// uvm_main_phase class below and has the name "main", which means that
// the following can be used to call foo() at the start of main phase:
//
// | function void phase_started(uvm_phase phase) ;
// | if (phase.get_name()=="main") foo() ;
// | endfunction
//
// The run-time phases are executed in the sequence they are specified below.
//
//
// Class: uvm_pre_reset_phase
//
// Before reset is asserted.
//
// <uvm_task_phase> that calls the
// <uvm_component::pre_reset_phase> method. This phase starts at the
// same time as the <uvm_run_phase> unless a user defined phase is inserted
// in front of this phase.
//
// Upon Entry:
// - Indicates that power has been applied but not necessarily valid or stable.
// - There should not have been any active clock edges
// before entry into this phase.
//
// Typical Uses:
// - Wait for power good.
// - Components connected to virtual interfaces should initialize
// their output to X's or Z's.
// - Initialize the clock signals to a valid value
// - Assign reset signals to X (power-on reset).
// - Wait for reset signal to be asserted
// if not driven by the verification environment.
//
// Exit Criteria:
// - Reset signal, if driven by the verification environment,
// is ready to be asserted.
// - Reset signal, if not driven by the verification environment, is asserted.
//
class uvm_pre_reset_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.pre_reset_phase(phase);
endtask
local static uvm_pre_reset_phase m_inst;
static const string type_name = "uvm_pre_reset_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_pre_reset_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="pre_reset");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass
//
// Class: uvm_reset_phase
//
// Reset is asserted.
//
// <uvm_task_phase> that calls the
// <uvm_component::reset_phase> method.
//
// Upon Entry:
// - Indicates that the hardware reset signal is ready to be asserted.
//
// Typical Uses:
// - Assert reset signals.
// - Components connected to virtual interfaces should drive their output
// to their specified reset or idle value.
// - Components and environments should initialize their state variables.
// - Clock generators start generating active edges.
// - De-assert the reset signal(s) just before exit.
// - Wait for the reset signal(s) to be de-asserted.
//
// Exit Criteria:
// - Reset signal has just been de-asserted.
// - Main or base clock is working and stable.
// - At least one active clock edge has occurred.
// - Output signals and state variables have been initialized.
//
class uvm_reset_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.reset_phase(phase);
endtask
local static uvm_reset_phase m_inst;
static const string type_name = "uvm_reset_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_reset_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="reset");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass
// Class: uvm_post_reset_phase
//
// After reset is de-asserted.
//
// <uvm_task_phase> that calls the
// <uvm_component::post_reset_phase> method.
//
// Upon Entry:
// - Indicates that the DUT reset signal has been de-asserted.
//
// Typical Uses:
// - Components should start behavior appropriate for reset being inactive.
// For example, components may start to transmit idle transactions
// or interface training and rate negotiation.
// This behavior typically continues beyond the end of this phase.
//
// Exit Criteria:
// - The testbench and the DUT are in a known, active state.
//
class uvm_post_reset_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.post_reset_phase(phase);
endtask
local static uvm_post_reset_phase m_inst;
static const string type_name = "uvm_post_reset_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_post_reset_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="post_reset");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass
// Class: uvm_pre_configure_phase
//
// Before the DUT is configured by the SW.
//
// <uvm_task_phase> that calls the
// <uvm_component::pre_configure_phase> method.
//
// Upon Entry:
// - Indicates that the DUT has been completed reset
// and is ready to be configured.
//
// Typical Uses:
// - Procedurally modify the DUT configuration information as described
// in the environment (and that will be eventually uploaded into the DUT).
// - Wait for components required for DUT configuration to complete
// training and rate negotiation.
//
// Exit Criteria:
// - DUT configuration information is defined.
//
class uvm_pre_configure_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.pre_configure_phase(phase);
endtask
local static uvm_pre_configure_phase m_inst;
static const string type_name = "uvm_pre_configure_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_pre_configure_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="pre_configure");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass
// Class: uvm_configure_phase
//
// The SW configures the DUT.
//
// <uvm_task_phase> that calls the
// <uvm_component::configure_phase> method.
//
// Upon Entry:
// - Indicates that the DUT is ready to be configured.
//
// Typical Uses:
// - Components required for DUT configuration execute transactions normally.
// - Set signals and program the DUT and memories
// (e.g. read/write operations and sequences)
// to match the desired configuration for the test and environment.
//
// Exit Criteria:
// - The DUT has been configured and is ready to operate normally.
//
class uvm_configure_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.configure_phase(phase);
endtask
local static uvm_configure_phase m_inst;
static const string type_name = "uvm_configure_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_configure_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="configure");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass
// Class: uvm_post_configure_phase
//
// After the SW has configured the DUT.
//
// <uvm_task_phase> that calls the
// <uvm_component::post_configure_phase> method.
//
// Upon Entry:
// - Indicates that the configuration information has been fully uploaded.
//
// Typical Uses:
// - Wait for configuration information to fully propagate and take effect.
// - Wait for components to complete training and rate negotiation.
// - Enable the DUT.
// - Sample DUT configuration coverage.
//
// Exit Criteria:
// - The DUT has been fully configured and enabled
// and is ready to start operating normally.
//
class uvm_post_configure_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.post_configure_phase(phase);
endtask
local static uvm_post_configure_phase m_inst;
static const string type_name = "uvm_post_configure_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_post_configure_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="post_configure");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass
// Class: uvm_pre_main_phase
//
// Before the primary test stimulus starts.
//
// <uvm_task_phase> that calls the
// <uvm_component::pre_main_phase> method.
//
// Upon Entry:
// - Indicates that the DUT has been fully configured.
//
// Typical Uses:
// - Wait for components to complete training and rate negotiation.
//
// Exit Criteria:
// - All components have completed training and rate negotiation.
// - All components are ready to generate and/or observe normal stimulus.
//
class uvm_pre_main_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.pre_main_phase(phase);
endtask
local static uvm_pre_main_phase m_inst;
static const string type_name = "uvm_pre_main_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_pre_main_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="pre_main");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass
// Class: uvm_main_phase
//
// Primary test stimulus.
//
// <uvm_task_phase> that calls the
// <uvm_component::main_phase> method.
//
// Upon Entry:
// - The stimulus associated with the test objectives is ready to be applied.
//
// Typical Uses:
// - Components execute transactions normally.
// - Data stimulus sequences are started.
// - Wait for a time-out or certain amount of time,
// or completion of stimulus sequences.
//
// Exit Criteria:
// - Enough stimulus has been applied to meet the primary
// stimulus objective of the test.
//
class uvm_main_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.main_phase(phase);
endtask
local static uvm_main_phase m_inst;
static const string type_name = "uvm_main_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_main_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="main");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass
// Class: uvm_post_main_phase
//
// After enough of the primary test stimulus.
//
// <uvm_task_phase> that calls the
// <uvm_component::post_main_phase> method.
//
// Upon Entry:
// - The primary stimulus objective of the test has been met.
//
// Typical Uses:
// - Included for symmetry.
//
// Exit Criteria:
// - None.
//
class uvm_post_main_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.post_main_phase(phase);
endtask
local static uvm_post_main_phase m_inst;
static const string type_name = "uvm_post_main_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_post_main_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="post_main");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass
// Class: uvm_pre_shutdown_phase
//
// Before things settle down.
//
// <uvm_task_phase> that calls the
// <uvm_component::pre_shutdown_phase> method.
//
// Upon Entry:
// - None.
//
// Typical Uses:
// - Included for symmetry.
//
// Exit Criteria:
// - None.
//
class uvm_pre_shutdown_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.pre_shutdown_phase(phase);
endtask
local static uvm_pre_shutdown_phase m_inst;
static const string type_name = "uvm_pre_shutdown_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_pre_shutdown_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="pre_shutdown");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass
// Class: uvm_shutdown_phase
//
// Letting things settle down.
//
// <uvm_task_phase> that calls the
// <uvm_component::shutdown_phase> method.
//
// Upon Entry:
// - None.
//
// Typical Uses:
// - Wait for all data to be drained out of the DUT.
// - Extract data still buffered in the DUT,
// usually through read/write operations or sequences.
//
// Exit Criteria:
// - All data has been drained or extracted from the DUT.
// - All interfaces are idle.
//
class uvm_shutdown_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.shutdown_phase(phase);
endtask
local static uvm_shutdown_phase m_inst;
static const string type_name = "uvm_shutdown_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_shutdown_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="shutdown");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass
// Class: uvm_post_shutdown_phase
//
// After things have settled down.
//
// <uvm_task_phase> that calls the
// <uvm_component::post_shutdown_phase> method. The end of this phase is
// synchronized to the end of the <uvm_run_phase> phase unless a user defined
// phase is added after this phase.
//
// Upon Entry:
// - No more "data" stimulus is applied to the DUT.
//
// Typical Uses:
// - Perform final checks that require run-time access to the DUT
// (e.g. read accounting registers or dump the content of memories).
//
// Exit Criteria:
// - All run-time checks have been satisfied.
// - The <uvm_run_phase> phase is ready to end.
//
class uvm_post_shutdown_phase extends uvm_task_phase;
virtual task exec_task(uvm_component comp, uvm_phase phase);
comp.post_shutdown_phase(phase);
endtask
local static uvm_post_shutdown_phase m_inst;
static const string type_name = "uvm_post_shutdown_phase";
// Function: get
// Returns the singleton phase handle
static function uvm_post_shutdown_phase get();
if(m_inst == null)
m_inst = new;
return m_inst;
endfunction
protected function new(string name="post_shutdown");
super.new(name);
endfunction
virtual function string get_type_name();
return type_name;
endfunction
endclass