CPUCruncher Class Reference

A class that implements a search for prime numbers. More...

#include </builds/gaudi/Gaudi/GaudiHive/src/CPUCruncher.h>

Inheritance diagram for CPUCruncher:

Collaboration diagram for CPUCruncher:

Public Types
typedef tbb::concurrent_hash_map< std::string, unsigned int >	CHM
Public Types inherited from Gaudi::Algorithm
typedef Gaudi::PluginService::Factory< IAlgorithm *(const std::string &, ISvcLocator *)>	Factory
Public Types inherited from extends< PropertyHolder< CommonMessaging< implements< IAlgorithm, IDataHandleHolder, IProperty, IStateful > > >, IDataHandleHolder >
using	base_class
	Typedef to this class.
using	extend_interfaces_base
	Typedef to the base of this class.
Public Types inherited from PropertyHolder< CommonMessaging< implements< IAlgorithm, IDataHandleHolder, IProperty, IStateful > > >
using	PropertyHolderImpl
	Typedef used to refer to this class from derived classes, as in.
Public Types inherited from CommonMessaging< implements< IAlgorithm, IDataHandleHolder, IProperty, IStateful > >
using	base_class
Public Types inherited from extend_interfaces< Interfaces... >
using	ext_iids
	take union of the ext_iids of all Interfaces...

Public Member Functions
bool	isClonable () const override
StatusCode	execute () override
	the execution of the algorithm
StatusCode	initialize () override
	Its initialization.
StatusCode	finalize () override
	the finalization of the algorithm
double	get_runtime () const
	CPUCruncher (const std::string &name, ISvcLocator *pSvc)
virtual	~CPUCruncher ()
	virtual & protected desctrustor
Public Member Functions inherited from Algorithm
	LegacyAlgorithmAdapter (std::string name, ISvcLocator *svcloc, std::string version=PACKAGE_VERSION)
Public Member Functions inherited from Gaudi::details::LegacyAlgorithmAdapter
	LegacyAlgorithmAdapter (std::string name, ISvcLocator *svcloc, std::string version=PACKAGE_VERSION)
const EventContext &	getContext () const
bool	isExecuted () const
	Has this algorithm been executed since the last reset?
void	setExecuted (bool state) const
	Set the executed flag to the specified state.
bool	filterPassed () const
	Did this algorithm pass or fail its filter criterion for the last event?
void	setFilterPassed (bool state) const
	Set the filter passed flag to the specified state.
Public Member Functions inherited from Gaudi::Algorithm
	Algorithm (std::string name, ISvcLocator *svcloc, std::string version=PACKAGE_VERSION)
	Constructor.
StatusCode	sysStart () override
	Reinitialization method invoked by the framework.
StatusCode	sysInitialize () override
	Initialization method invoked by the framework.
StatusCode	sysReinitialize () override
	Reinitialization method invoked by the framework.
StatusCode	sysRestart () override
	Restart method invoked by the framework.
StatusCode	sysExecute (const EventContext &ctx) override
	The actions to be performed by the algorithm on an event.
StatusCode	sysStop () override
	System stop.
StatusCode	sysFinalize () override
	System finalization.
const std::string &	name () const override
	The identifying name of the algorithm object.
const Gaudi::StringKey &	nameKey () const override
const std::string &	type () const override
	The type of the algorithm object.
void	setType (std::string type) override
const std::string &	version () const override
unsigned int	index () const override
StatusCode	configure () override
	Dummy implementation of IStateful::configure() method.
StatusCode	terminate () override
	Dummy implementation of IStateful::terminate() method.
StatusCode	initialize () override
	the default (empty) implementation of IStateful::initialize() method
StatusCode	start () override
	the default (empty) implementation of IStateful::start() method
StatusCode	stop () override
	the default (empty) implementation of IStateful::stop() method
StatusCode	finalize () override
	the default (empty) implementation of IStateful::finalize() method
StatusCode	reinitialize () override
	the default (empty) implementation of IStateful::reinitialize() method
StatusCode	restart () override
	the default (empty) implementation of IStateful::restart() method
Gaudi::StateMachine::State	FSMState () const override
	returns the current state of the algorithm
Gaudi::StateMachine::State	targetFSMState () const override
	returns the state the algorithm will be in after the ongoing transition
bool	isEnabled () const override
	Is this algorithm enabled or disabled?
bool	isSequence () const override
	Are we a Sequence?
unsigned int	errorCount () const
	Get the number of failures of the algorithm.
SmartIF< IService >	service (std::string_view name, const bool createIf=true, const bool quiet=false) const
	Return a pointer to the service identified by name (or "type/name")
template<class T>
SmartIF< T >	service (std::string_view name, bool createIf=true, bool quiet=false) const
SmartIF< IAuditorSvc > &	auditorSvc () const
	The standard auditor service.May not be invoked before sysInitialize() has been invoked.
SmartIF< IChronoStatSvc > &	chronoSvc () const
	The standard Chrono & Stat service, Return a pointer to the service if present.
SmartIF< IDataProviderSvc > &	detSvc () const
	The standard detector data service.
SmartIF< IConversionSvc > &	detCnvSvc () const
	The standard detector data persistency conversion service.
SmartIF< IDataProviderSvc > &	eventSvc () const
	The standard event data service.
SmartIF< IDataProviderSvc > &	evtSvc () const
	shortcut for method eventSvc
SmartIF< IConversionSvc > &	eventCnvSvc () const
	The standard event data persistency conversion service.
SmartIF< IHistogramSvc > &	histoSvc () const
	The standard histogram service.
SmartIF< INTupleSvc > &	ntupleSvc () const
	The standard N tuple service.
SmartIF< IRndmGenSvc > &	randSvc () const
	The standard RandomGen service, Return a pointer to the service if present.
SmartIF< IToolSvc > &	toolSvc () const
	The standard ToolSvc service, Return a pointer to the service if present.
SmartIF< IExceptionSvc > &	exceptionSvc () const
	Get the exception Service.
SmartIF< IAlgContextSvc > &	contextSvc () const
	get Algorithm Context Service
SmartIF< ITimelineSvc > &	timelineSvc () const
SmartIF< ISvcLocator > &	serviceLocator () const override
	The standard service locator.
SmartIF< ISvcLocator > &	svcLoc () const
	shortcut for method serviceLocator
SmartIF< IHiveWhiteBoard > &	whiteboard () const
SmartIF< IAlgExecStateSvc > &	algExecStateSvc () const
bool	registerContext () const
	register for Algorithm Context Service?
template<class T>
Gaudi::Details::PropertyBase *	declareProperty (const std::string &name, ToolHandle< T > &hndl, const std::string &doc="none")
template<class T>
Gaudi::Details::PropertyBase *	declareProperty (const std::string &name, ToolHandleArray< T > &hndlArr, const std::string &doc="none")
SmartIF< IMonitorSvc > &	monitorSvc () const
	Access the monitor service.
template<class T>
void	declareInfo (const std::string &name, const T &var, const std::string &desc) const
	Declare monitoring information.
void	declareInfo (const std::string &name, const std::string &format, const void *var, int size, const std::string &desc) const
	Declare monitoring information (special case)
void	acceptDHVisitor (IDataHandleVisitor *) const override
void	registerTool (IAlgTool *tool) const
void	deregisterTool (IAlgTool *tool) const
template<class T>
StatusCode	declareTool (ToolHandle< T > &handle, bool createIf=true)
template<class T>
StatusCode	declareTool (ToolHandle< T > &handle, const std::string &toolTypeAndName, bool createIf=true)
template<class T>
void	addToolsArray (ToolHandleArray< T > &hndlArr)
const std::vector< IAlgTool * > &	tools () const
bool	isAsynchronous () const
void	setAsynchronous (bool value)
unsigned int	cardinality () const override
	Return the cardinality.
const std::vector< std::string > &	neededResources () const override
AlgExecStateRef	execState (const EventContext &ctx) const override
	get the AlgExecStateRef of current algorithm Actually a small wrapper around it, thus the plain object return type
std::ostream &	toControlFlowExpression (std::ostream &os) const override
	Produce string represention of the control flow expression.
Public Member Functions inherited from DataHandleHolderBase< PropertyHolder< CommonMessaging< implements< IAlgorithm, IDataHandleHolder, IProperty, IStateful > > > >
std::vector< Gaudi::DataHandle * >	inputHandles () const override
std::vector< Gaudi::DataHandle * >	outputHandles () const override
virtual const DataObjIDColl &	extraInputDeps () const override
virtual const DataObjIDColl &	extraOutputDeps () const override
void	declare (Gaudi::DataHandle &handle) override
void	renounce (Gaudi::DataHandle &handle) override
bool	renounceInput (const DataObjID &id) override
const DataObjIDColl &	inputDataObjs () const override
const DataObjIDColl &	outputDataObjs () const override
void	addDependency (const DataObjID &id, const Gaudi::DataHandle::Mode &mode) override
Public Member Functions inherited from extends< PropertyHolder< CommonMessaging< implements< IAlgorithm, IDataHandleHolder, IProperty, IStateful > > >, IDataHandleHolder >
void const *	i_cast (const InterfaceID &tid) const override
	Implementation of IInterface::i_cast.
StatusCode	queryInterface (const InterfaceID &ti, void **pp) override
	Implementation of IInterface::queryInterface.
std::vector< std::string >	getInterfaceNames () const override
	Implementation of IInterface::getInterfaceNames.
Public Member Functions inherited from PropertyHolder< CommonMessaging< implements< IAlgorithm, IDataHandleHolder, IProperty, IStateful > > >
StatusCode	setProperty (const Gaudi::Details::PropertyBase &p)
	Set the property from a property.
StatusCode	setProperty (const std::string &name, const char *v)
	Special case for string literals.
StatusCode	setProperty (const std::string &name, const std::string &v)
	Special case for std::string.
StatusCode	setProperty (const std::string &name, const TYPE &value)
	set the property form the value
	PropertyHolder ()=default
Gaudi::Details::PropertyBase &	declareProperty (Gaudi::Details::PropertyBase &prop)
	Declare a property.
Gaudi::Details::PropertyBase *	declareProperty (const std::string &name, TYPE &value, const std::string &doc="none")
	Helper to wrap a regular data member and use it as a regular property.
Gaudi::Details::PropertyBase *	declareProperty (const std::string &name, Gaudi::Property< TYPE, VERIFIER, HANDLERS > &prop, const std::string &doc="none")
	Declare a PropertyBase instance setting name and documentation.
Gaudi::Details::PropertyBase *	declareRemoteProperty (const std::string &name, IProperty *rsvc, const std::string &rname="")
	Declare a remote property.
StatusCode	setProperty (const std::string &name, const Gaudi::Details::PropertyBase &p) override
	set the property from another property with a different name
StatusCode	setProperty (const std::string &s) override
	set the property from the formatted string
StatusCode	setProperty (const Gaudi::Details::PropertyBase &p)
	Set the property from a property.
StatusCode	setProperty (const std::string &name, const char *v)
	Special case for string literals.
StatusCode	setProperty (const std::string &name, const std::string &v)
	Special case for std::string.
StatusCode	setProperty (const std::string &name, const TYPE &value)
	set the property form the value
StatusCode	setPropertyRepr (const std::string &n, const std::string &r) override
	set the property from name and value string representation
StatusCode	getProperty (Gaudi::Details::PropertyBase *p) const override
	get the property
const Gaudi::Details::PropertyBase &	getProperty (std::string_view name) const override
	get the property by name
StatusCode	getProperty (std::string_view n, std::string &v) const override
	convert the property to the string
const std::vector< Gaudi::Details::PropertyBase * > &	getProperties () const override
	get all properties
bool	hasProperty (std::string_view name) const override
	Return true if we have a property with the given name.
Gaudi::Details::PropertyBase *	property (std::string_view name) const
	\fixme property and bindPropertiesTo should be protected
void	bindPropertiesTo (Gaudi::Interfaces::IOptionsSvc &optsSvc)
	PropertyHolder (const PropertyHolder &)=delete
PropertyHolder &	operator= (const PropertyHolder &)=delete
Public Member Functions inherited from CommonMessaging< implements< IAlgorithm, IDataHandleHolder, IProperty, IStateful > >
MSG::Level	msgLevel () const
	get the cached level (originally extracted from the embedded MsgStream)
bool	msgLevel (MSG::Level lvl) const
	get the output level from the embedded MsgStream
Public Member Functions inherited from CommonMessagingBase
virtual	~CommonMessagingBase ()=default
	Virtual destructor.
const SmartIF< IMessageSvc > &	msgSvc () const
	The standard message service.
MsgStream &	msgStream () const
	Return an uninitialized MsgStream.
MsgStream &	msgStream (const MSG::Level level) const
	Predefined configurable message stream for the efficient printouts.
MsgStream &	always () const
	shortcut for the method msgStream(MSG::ALWAYS)
MsgStream &	fatal () const
	shortcut for the method msgStream(MSG::FATAL)
MsgStream &	err () const
	shortcut for the method msgStream(MSG::ERROR)
MsgStream &	error () const
	shortcut for the method msgStream(MSG::ERROR)
MsgStream &	warning () const
	shortcut for the method msgStream(MSG::WARNING)
MsgStream &	info () const
	shortcut for the method msgStream(MSG::INFO)
MsgStream &	debug () const
	shortcut for the method msgStream(MSG::DEBUG)
MsgStream &	verbose () const
	shortcut for the method msgStream(MSG::VERBOSE)
MsgStream &	msg () const
	shortcut for the method msgStream(MSG::INFO)

Private Member Functions
	CPUCruncher ()
	the default constructor is disabled
	CPUCruncher (const CPUCruncher &)
	the copy constructor is disabled
CPUCruncher &	operator= (const CPUCruncher &)
	the assignement operator is disabled
void	declareRuntimeRequestedOutputs ()
	The CPU intensive function.

Private Attributes
bool	m_declAugmented { false }
Gaudi::Property< bool >	m_loader { this, "Loader", false, "Declare the algorithm to be a data loader" }
Gaudi::Property< std::vector< std::string > >	m_inpKeys { this, "inpKeys", {}, "" }
Gaudi::Property< std::vector< std::string > >	m_outKeys { this, "outKeys", {}, "" }
Gaudi::Property< double >	m_avg_runtime { this, "avgRuntime", 1., "Average runtime of the module." }
Gaudi::Property< double >	m_var_runtime { this, "varRuntime", 0.01, "Variance of the runtime of the module." }
Gaudi::Property< bool >	m_local_rndm_gen
Gaudi::Property< unsigned int >	m_rwRepetitions { this, "RwRepetitions", 1, "Increase access to the WB" }
Gaudi::Property< double >	m_sleepFraction
Gaudi::Property< bool >	m_invertCFD { this, "InvertDecision", false, "Invert control flow decision." }
Gaudi::Property< unsigned int >	m_failNEvents { this, "FailNEvents", 0, "Return FAILURE on every Nth event" }
Gaudi::Property< int >	m_nParallel { this, "NParallel", -1, "Run N parallel crunching tasks" }
const uint	MAX_INPUTS = 40
const uint	MAX_OUTPUTS = 10
std::vector< DataObjectHandle< DataObject > * >	m_inputHandles
std::vector< DataObjectHandle< DataObject > * >	m_outputHandles
SmartIF< ICPUCrunchSvc >	m_crunchSvc

Static Private Attributes
static CHM	m_name_ncopies_map

Additional Inherited Members
Public Attributes inherited from Gaudi::Algorithm
friend	AlgorithmManager
Protected Member Functions inherited from Gaudi::details::LegacyAlgorithmAdapter
bool	isReEntrant () const override
Protected Member Functions inherited from Gaudi::Algorithm
std::vector< IAlgTool * > &	tools ()
bool	isInitialized () const override
	Has the Algorithm already been initialized?
bool	isFinalized () const override
	Has the Algorithm already been finalized?
void	setIndex (const unsigned int &idx) override
	set instantiation index of Alg
bool	isReEntrant () const override
Protected Member Functions inherited from DataHandleHolderBase< PropertyHolder< CommonMessaging< implements< IAlgorithm, IDataHandleHolder, IProperty, IStateful > > > >
void	initDataHandleHolder ()
	initializes all handles - called by the sysInitialize method of any descendant of this
Protected Member Functions inherited from CommonMessaging< implements< IAlgorithm, IDataHandleHolder, IProperty, IStateful > >
MSG::Level	setUpMessaging () const
	Set up local caches.
MSG::Level	resetMessaging ()
	Reinitialize internal states.
void	updateMsgStreamOutputLevel (int level)
	Update the output level of the cached MsgStream.
Protected Attributes inherited from Gaudi::Algorithm
std::unique_ptr< IDataHandleVisitor >	m_updateDataHandles
	Hook for for derived classes to provide a custom visitor for data handles.
Protected Attributes inherited from DataHandleHolderBase< PropertyHolder< CommonMessaging< implements< IAlgorithm, IDataHandleHolder, IProperty, IStateful > > > >
DataObjIDColl	m_inputDataObjs
DataObjIDColl	m_outputDataObjs

Detailed Description

A class that implements a search for prime numbers.

A lot of allocations are performed on purpose not to stress only the FP unit of the CPU.

Definition at line 30 of file CPUCruncher.h.

Member Typedef Documentation

CHM

typedef tbb::concurrent_hash_map<std::string, unsigned int> CPUCruncher::CHM

Definition at line 33 of file CPUCruncher.h.

Constructor & Destructor Documentation

CPUCruncher() [1/3]

CPUCruncher::CPUCruncher	(	const std::string &	name,
		ISvcLocator *	pSvc )

Definition at line 33 of file CPUCruncher.cpp.

    : Algorithm( name, pSvc ) {
 
  // Register the algo in the static concurrent hash map in order to
  // monitor the # of copies
  CHM::accessor name_ninstances;
  m_name_ncopies_map.insert( name_ninstances, name );
  name_ninstances->second += 1;
}

~CPUCruncher()

CPUCruncher::~CPUCruncher ( )

virtual

virtual & protected desctrustor

Definition at line 44 of file CPUCruncher.cpp.

                          {
  for ( uint i = 0; i < m_inputHandles.size(); ++i ) delete m_inputHandles[i];
 
  for ( uint i = 0; i < m_outputHandles.size(); ++i ) delete m_outputHandles[i];
}

CPUCruncher() [2/3]

CPUCruncher::CPUCruncher ( )

private

the default constructor is disabled

CPUCruncher() [3/3]

CPUCruncher::CPUCruncher ( const CPUCruncher & )

private

the copy constructor is disabled

Member Function Documentation

declareRuntimeRequestedOutputs()

void CPUCruncher::declareRuntimeRequestedOutputs ( )

private

The CPU intensive function.

Pick up late-attributed data outputs

Definition at line 86 of file CPUCruncher.cpp.

                                                 {
  //
  for ( const auto& k : outputDataObjs() ) {
    auto outputHandle = new DataObjectHandle<DataObject>( k, Gaudi::DataHandle::Writer, this );
    VERBOSE_MSG << "found late-attributed output: " << outputHandle->objKey() << endmsg;
    m_outputHandles.push_back( outputHandle );
    declareProperty( "dummy_out_" + outputHandle->objKey(), *( m_outputHandles.back() ) );
  }
 
  initDataHandleHolder();
 
  m_declAugmented = true;
}

execute()

StatusCode CPUCruncher::execute ( )

overridevirtual

the execution of the algorithm

Implements Algorithm.

Definition at line 102 of file CPUCruncher.cpp.

{
 
  if ( m_loader && !m_declAugmented ) declareRuntimeRequestedOutputs();
 
  double crunchtime;
 
  if ( m_local_rndm_gen ) {
    /* This will disappear with a thread safe random number generator service.
     * Use basic Box-Muller to generate Gaussian random numbers.
     * The quality is not good for in depth study given that the generator is a
     * linear congruent.
     * Throw away basically a free number: we are in a cpu cruncher after all.
     * The seed is taken from the clock, but we could assign a seed per module to
     * ensure reproducibility.
     *
     * This is not an overkill but rather an exercise towards a thread safe
     * random number generation.
     */
 
    auto getGausRandom = []( double mean, double sigma ) -> double {
      unsigned int seed = std::clock();
 
      auto getUnifRandom = []( unsigned int& seed ) -> double {
        // from "Numerical Recipes"
        constexpr unsigned int m = 232;
        constexpr unsigned int a = 1664525;
        constexpr unsigned int c = 1013904223;
        seed                     = ( a * seed + c ) % m;
        const double unif        = double( seed ) / m;
        return unif;
      };
 
      double unif1, unif2;
      do {
        unif1 = getUnifRandom( seed );
        unif2 = getUnifRandom( seed );
      } while ( unif1 < std::numeric_limits<double>::epsilon() );
 
      const double normal = sqrt( -2. * log( unif1 ) ) * cos( 2 * M_PI * unif2 );
 
      return normal * sigma + mean;
    };
 
    crunchtime = std::abs( getGausRandom( m_avg_runtime * ( 1. - m_sleepFraction ), m_var_runtime ) );
    // End Of temp block
  } else {
    // Should be a member.
    HiveRndm::HiveNumbers rndmgaus( randSvc(), Rndm::Gauss( m_avg_runtime * ( 1. - m_sleepFraction ), m_var_runtime ) );
    crunchtime = std::abs( rndmgaus() );
  }
  unsigned int crunchtime_ms = 1000 * crunchtime;
 
  // Prepare to sleep (even if we won't enter the following if clause for sleeping).
  // This is needed to distribute evenly among all algorithms the overhead (around sleeping) which is harmful when
  // trying to achieve uniform distribution of algorithm timings.
  const double                        dreamtime = m_avg_runtime * m_sleepFraction;
  const std::chrono::duration<double> dreamtime_duration( dreamtime );
 
  // Start to measure the total time here, together with the dreaming process straight ahead
  tbb::tick_count starttbb = tbb::tick_count::now();
 
  DEBUG_MSG << "Crunching time will be: " << crunchtime_ms << " ms" << endmsg;
  const EventContext& context = Gaudi::Hive::currentContext();
  DEBUG_MSG << "Start event " << context.evt() << " in slot " << context.slot() << " on pthreadID " << std::hex
            << pthread_self() << std::dec << endmsg;
 
  VERBOSE_MSG << "inputs number: " << m_inputHandles.size() << endmsg;
  for ( auto& inputHandle : m_inputHandles ) {
    if ( !inputHandle->isValid() ) continue;
 
    VERBOSE_MSG << "get from TS: " << inputHandle->objKey() << endmsg;
    const DataObject* obj = nullptr;
    for ( unsigned int i = 0; i < m_rwRepetitions; ++i ) { obj = inputHandle->get(); }
    if ( obj == nullptr ) error() << "A read object was a null pointer." << endmsg;
  }
 
  if ( m_nParallel > 1 ) {
    tbb::parallel_for( tbb::blocked_range<size_t>( 0, m_nParallel ), [&]( tbb::blocked_range<size_t> r ) {
      m_crunchSvc->crunch_for( std::chrono::milliseconds( crunchtime_ms ) );
      debug() << "CPUCrunch complete in TBB parallel for block " << r.begin() << " to " << r.end() << endmsg;
    } );
  } else {
    m_crunchSvc->crunch_for( std::chrono::milliseconds( crunchtime_ms ) );
  }
 
  // Return error on fraction of events if configured
  if ( m_failNEvents > 0 && context.evt() > 0 && ( context.evt() % m_failNEvents ) == 0 ) {
    return StatusCode::FAILURE;
  }
 
  VERBOSE_MSG << "outputs number: " << m_outputHandles.size() << endmsg;
  for ( auto& outputHandle : m_outputHandles ) {
    if ( !outputHandle->isValid() ) continue;
 
    VERBOSE_MSG << "put to TS: " << outputHandle->objKey() << endmsg;
    outputHandle->put( std::make_unique<DataObject>() );
  }
 
  tbb::tick_count endtbb        = tbb::tick_count::now();
  const double    actualRuntime = ( endtbb - starttbb ).seconds();
 
  DEBUG_MSG << "Finish event " << context.evt() << " in " << int( 1000 * actualRuntime ) << " ms" << endmsg;
 
  DEBUG_MSG << "Timing: ExpectedCrunchtime= " << crunchtime_ms << " ms. ExpectedDreamtime= " << int( 1000 * dreamtime )
            << " ms. ActualTotalRuntime= " << int( 1000 * actualRuntime )
            << " ms. Ratio= " << ( crunchtime + dreamtime ) / actualRuntime << endmsg;
 
  setFilterPassed( !m_invertCFD );
 
  return StatusCode::SUCCESS;
}

finalize()

StatusCode CPUCruncher::finalize ( )

override

the finalization of the algorithm

Definition at line 217 of file CPUCruncher.cpp.

{
  MsgStream log( msgSvc(), name() );
 
  unsigned int ninstances;
 
  {
    CHM::const_accessor const_name_ninstances;
    m_name_ncopies_map.find( const_name_ninstances, name() );
    ninstances = const_name_ninstances->second;
  }
 
  constexpr double s2ms = 1000.;
  // do not show repetitions
  if ( ninstances != 0 ) {
    info() << "Summary: name= " << name() << "\t avg_runtime= " << m_avg_runtime * s2ms << "\t n_clones= " << ninstances
           << endmsg;
 
    CHM::accessor name_ninstances;
    m_name_ncopies_map.find( name_ninstances, name() );
    name_ninstances->second = 0;
  }
 
  return Algorithm::finalize();
}

get_runtime()

double CPUCruncher::get_runtime ( ) const

inline

Definition at line 44 of file CPUCruncher.h.

{ return m_avg_runtime; }

initialize()

StatusCode CPUCruncher::initialize ( )

override

Its initialization.

Definition at line 50 of file CPUCruncher.cpp.

                                   {
  auto sc = Algorithm::initialize();
  if ( !sc ) return sc;
 
  m_crunchSvc = serviceLocator()->service( "CPUCrunchSvc" );
  if ( !m_crunchSvc.isValid() ) {
    fatal() << "unable to acquire CPUCruncSvc" << endmsg;
    return StatusCode::FAILURE;
  }
 
  // This is a bit ugly. There is no way to declare a vector of DataObjectHandles, so
  // we need to wait until initialize when we've read in the input and output key
  // properties, and know their size, and then turn them
  // into Handles and register them with the framework by calling declareProperty. We
  // could call declareInput/declareOutput on them too.
 
  int i = 0;
  for ( auto k : m_inpKeys ) {
    DEBUG_MSG << "adding input key " << k << endmsg;
    m_inputHandles.push_back( new DataObjectHandle<DataObject>( k, Gaudi::DataHandle::Reader, this ) );
    declareProperty( "dummy_in_" + std::to_string( i ), *( m_inputHandles.back() ) );
    i++;
  }
 
  i = 0;
  for ( auto k : m_outKeys ) {
    DEBUG_MSG << "adding output key " << k << endmsg;
    m_outputHandles.push_back( new DataObjectHandle<DataObject>( k, Gaudi::DataHandle::Writer, this ) );
    declareProperty( "dummy_out_" + std::to_string( i ), *( m_outputHandles.back() ) );
    i++;
  }
 
  return sc;
}

isClonable()

bool CPUCruncher::isClonable ( ) const

inlineoverride

Definition at line 35 of file CPUCruncher.h.

{ return true; }

operator=()

CPUCruncher & CPUCruncher::operator= ( const CPUCruncher & )

private

the assignement operator is disabled

Member Data Documentation

m_avg_runtime

Gaudi::Property<double> CPUCruncher::m_avg_runtime { this, "avgRuntime", 1., "Average runtime of the module." }

private

Definition at line 69 of file CPUCruncher.h.

{ this, "avgRuntime", 1., "Average runtime of the module." };

m_crunchSvc

SmartIF<ICPUCrunchSvc> CPUCruncher::m_crunchSvc

private

Definition at line 91 of file CPUCruncher.h.

m_declAugmented

bool CPUCruncher::m_declAugmented { false }

private

Definition at line 63 of file CPUCruncher.h.

{ false };

m_failNEvents

Gaudi::Property<unsigned int> CPUCruncher::m_failNEvents { this, "FailNEvents", 0, "Return FAILURE on every Nth event" }

private

Definition at line 78 of file CPUCruncher.h.

{ this, "FailNEvents", 0, "Return FAILURE on every Nth event" };

m_inpKeys

Gaudi::Property<std::vector<std::string> > CPUCruncher::m_inpKeys { this, "inpKeys", {}, "" }

private

Definition at line 66 of file CPUCruncher.h.

{ this, "inpKeys", {}, "" };

m_inputHandles

std::vector<DataObjectHandle<DataObject>*> CPUCruncher::m_inputHandles

private

Definition at line 85 of file CPUCruncher.h.

m_invertCFD

Gaudi::Property<bool> CPUCruncher::m_invertCFD { this, "InvertDecision", false, "Invert control flow decision." }

private

Definition at line 77 of file CPUCruncher.h.

{ this, "InvertDecision", false, "Invert control flow decision." };

m_loader

Gaudi::Property<bool> CPUCruncher::m_loader { this, "Loader", false, "Declare the algorithm to be a data loader" }

private

Definition at line 64 of file CPUCruncher.h.

{ this, "Loader", false, "Declare the algorithm to be a data loader" };

m_local_rndm_gen

Gaudi::Property<bool> CPUCruncher::m_local_rndm_gen

private

Initial value:

{ this, "localRndm", true,
                                          "Decide if the local random generator is to be used" }

Definition at line 71 of file CPUCruncher.h.

                                              { this, "localRndm", true,
                                          "Decide if the local random generator is to be used" };

m_name_ncopies_map

CPUCruncher::CHM CPUCruncher::m_name_ncopies_map

staticprivate

Definition at line 88 of file CPUCruncher.h.

m_nParallel

Gaudi::Property<int> CPUCruncher::m_nParallel { this, "NParallel", -1, "Run N parallel crunching tasks" }

private

Definition at line 79 of file CPUCruncher.h.

{ this, "NParallel", -1, "Run N parallel crunching tasks" };

m_outKeys

Gaudi::Property<std::vector<std::string> > CPUCruncher::m_outKeys { this, "outKeys", {}, "" }

private

Definition at line 67 of file CPUCruncher.h.

{ this, "outKeys", {}, "" };

m_outputHandles

std::vector<DataObjectHandle<DataObject>*> CPUCruncher::m_outputHandles

private

Definition at line 86 of file CPUCruncher.h.

m_rwRepetitions

Gaudi::Property<unsigned int> CPUCruncher::m_rwRepetitions { this, "RwRepetitions", 1, "Increase access to the WB" }

private

Definition at line 73 of file CPUCruncher.h.

{ this, "RwRepetitions", 1, "Increase access to the WB" };

m_sleepFraction

Gaudi::Property<double> CPUCruncher::m_sleepFraction

private

Initial value:

{
      this, "SleepFraction", 0.0,
      "Fraction of time, between 0 and 1, when an algorithm is actually sleeping instead of crunching" }

Definition at line 74 of file CPUCruncher.h.

                                             {
      this, "SleepFraction", 0.0,
      "Fraction of time, between 0 and 1, when an algorithm is actually sleeping instead of crunching" };

m_var_runtime

Gaudi::Property<double> CPUCruncher::m_var_runtime { this, "varRuntime", 0.01, "Variance of the runtime of the module." }

private

Definition at line 70 of file CPUCruncher.h.

{ this, "varRuntime", 0.01, "Variance of the runtime of the module." };

MAX_INPUTS

const uint CPUCruncher::MAX_INPUTS = 40

private

Definition at line 82 of file CPUCruncher.h.

MAX_OUTPUTS

const uint CPUCruncher::MAX_OUTPUTS = 10

private

Definition at line 83 of file CPUCruncher.h.

---

The documentation for this class was generated from the following files:

• GaudiHive/src/CPUCruncher.h
• GaudiHive/src/CPUCruncher.cpp