Python* API Reference for Intel® Data Analytics Acceleration Library 2020 Update 1

Public Member Functions | List of all members
Distributed Class Reference

Computes the result of the first step of the moments of low order algorithm in the distributed processing mode. More...

Public Member Functions

def __init__
 
def clone
 
def compute
 
def finalizeCompute
 
- Public Member Functions inherited from Online
def __init__
 
def getMethod
 
def getResult
 
def setResult
 
def getPartialResult
 
def setPartialResult
 
def clone
 
def compute
 
def finalizeCompute
 

Additional Inherited Members

- Static Public Attributes inherited from Online
 input = ...
 
 parameter = ...
 

Detailed Description

Parameters
fptypeData type to use in intermediate computations of the low order moments, double or float
methodComputation method, daal.algorithms.low_order_moments.Method
Enumerations
  • Method Computation methods for the low order moments algorithm
  • InputId Identifiers of input objects for the low order moments algorithm
  • PartialResultId Identifiers of partial results of the low order moments algorithm
  • ResultId Identifiers of the results of the low order moments algorithm
Aliases
  • Distributed_Step1LocalFloat64DefaultDense is an alias of Distributed(step=daal.step1Local, fptype=float64, method=daal.algorithms.low_order_moments.defaultDense)
  • Distributed_Step1LocalFloat64SinglePassDense is an alias of Distributed(step=daal.step1Local, fptype=float64, method=daal.algorithms.low_order_moments.singlePassDense)
  • Distributed_Step1LocalFloat64SumDense is an alias of Distributed(step=daal.step1Local, fptype=float64, method=daal.algorithms.low_order_moments.sumDense)
  • Distributed_Step1LocalFloat64FastCSR is an alias of Distributed(step=daal.step1Local, fptype=float64, method=daal.algorithms.low_order_moments.fastCSR)
  • Distributed_Step1LocalFloat64SinglePassCSR is an alias of Distributed(step=daal.step1Local, fptype=float64, method=daal.algorithms.low_order_moments.singlePassCSR)
  • Distributed_Step1LocalFloat64SumCSR is an alias of Distributed(step=daal.step1Local, fptype=float64, method=daal.algorithms.low_order_moments.sumCSR)
  • Distributed_Step1LocalFloat32DefaultDense is an alias of Distributed(step=daal.step1Local, fptype=float32, method=daal.algorithms.low_order_moments.defaultDense)
  • Distributed_Step1LocalFloat32SinglePassDense is an alias of Distributed(step=daal.step1Local, fptype=float32, method=daal.algorithms.low_order_moments.singlePassDense)
  • Distributed_Step1LocalFloat32SumDense is an alias of Distributed(step=daal.step1Local, fptype=float32, method=daal.algorithms.low_order_moments.sumDense)
  • Distributed_Step1LocalFloat32FastCSR is an alias of Distributed(step=daal.step1Local, fptype=float32, method=daal.algorithms.low_order_moments.fastCSR)
  • Distributed_Step1LocalFloat32SinglePassCSR is an alias of Distributed(step=daal.step1Local, fptype=float32, method=daal.algorithms.low_order_moments.singlePassCSR)
  • Distributed_Step1LocalFloat32SumCSR is an alias of Distributed(step=daal.step1Local, fptype=float32, method=daal.algorithms.low_order_moments.sumCSR)
  • Distributed_Step2MasterFloat64DefaultDense is an alias of Distributed(step=daal.step2Master, fptype=float64, method=daal.algorithms.low_order_moments.defaultDense)
  • Distributed_Step2MasterFloat64SinglePassDense is an alias of Distributed(step=daal.step2Master, fptype=float64, method=daal.algorithms.low_order_moments.singlePassDense)
  • Distributed_Step2MasterFloat64SumDense is an alias of Distributed(step=daal.step2Master, fptype=float64, method=daal.algorithms.low_order_moments.sumDense)
  • Distributed_Step2MasterFloat64FastCSR is an alias of Distributed(step=daal.step2Master, fptype=float64, method=daal.algorithms.low_order_moments.fastCSR)
  • Distributed_Step2MasterFloat64SinglePassCSR is an alias of Distributed(step=daal.step2Master, fptype=float64, method=daal.algorithms.low_order_moments.singlePassCSR)
  • Distributed_Step2MasterFloat64SumCSR is an alias of Distributed(step=daal.step2Master, fptype=float64, method=daal.algorithms.low_order_moments.sumCSR)
  • Distributed_Step2MasterFloat32DefaultDense is an alias of Distributed(step=daal.step2Master, fptype=float32, method=daal.algorithms.low_order_moments.defaultDense)
  • Distributed_Step2MasterFloat32SinglePassDense is an alias of Distributed(step=daal.step2Master, fptype=float32, method=daal.algorithms.low_order_moments.singlePassDense)
  • Distributed_Step2MasterFloat32SumDense is an alias of Distributed(step=daal.step2Master, fptype=float32, method=daal.algorithms.low_order_moments.sumDense)
  • Distributed_Step2MasterFloat32FastCSR is an alias of Distributed(step=daal.step2Master, fptype=float32, method=daal.algorithms.low_order_moments.fastCSR)
  • Distributed_Step2MasterFloat32SinglePassCSR is an alias of Distributed(step=daal.step2Master, fptype=float32, method=daal.algorithms.low_order_moments.singlePassCSR)
  • Distributed_Step2MasterFloat32SumCSR is an alias of Distributed(step=daal.step2Master, fptype=float32, method=daal.algorithms.low_order_moments.sumCSR)

Constructor & Destructor Documentation

def __init__ (   self,
  args 
)

Variant 1
Default constructor

Variant 2

Constructs an algorithm that computes moments of low order by copying input objects of another algorithm that computes moments of low order

Parameters
otherAn algorithm to be used as the source to initialize the input objects and parameters of the algorithm

Member Function Documentation

def clone (   self)

Returns a pointer to the newly allocated algorithm that computes moments of low order with a copy of input objects of this algorithm

Returns
Pointer to the newly allocated algorithm
def compute (   self)

Invokes computations and returns partial result

def finalizeCompute (   self)

Finalizes computations and returns (final) result


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

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