def getTimeHadamardSize(nbRepetition, nbElement):
    tabX = allocInitTable(nbElement)
    timeBegin = astericshpc.rdtsc()
    for i in range(0, nbRepetition):
        res = reductionpython.reduction(tabX)

    timeEnd = astericshpc.rdtsc()
    elapsedTime = float(timeEnd - timeBegin) / float(nbRepetition)
    elapsedTimePerElement = elapsedTime / float(nbElement)
    print("nbElement =", nbElement, ", elapsedTimePerElement =",
          elapsedTimePerElement, "cy/el", ", elapsedTime =", elapsedTime, "cy")
    print(str(nbElement) + "\t" + str(elapsedTimePerElement) + "\t" +
          str(elapsedTime),
          file=sys.stderr)
def getTimeFunctionSize(nbRepetition, nbElement):
	tabX = np.asarray(np.random.random(nbElement), dtype=np.float32)
	tabY = np.asarray(np.random.random(nbElement), dtype=np.float32)
	tabRes = np.zeros(nbElement, dtype=np.float32)
	scal = 42.0
	timeBegin = astericshpc.rdtsc()
	for i in range(0, nbRepetition):
		for j in range(0, nbElement):
			tabRes[j] =  scal*tabX[j] + tabY[j]
	
	timeEnd = astericshpc.rdtsc()
	elapsedTime = float(timeEnd - timeBegin)/float(nbRepetition)
	elapsedTimePerElement = elapsedTime/float(nbElement)
	print("nbElement =",nbElement,", elapsedTimePerElement =",elapsedTimePerElement,"cy/el",", elapsedTime =",elapsedTime,"cy")
	print(str(nbElement) + "\t" + str(elapsedTimePerElement) + "\t" + str(elapsedTime),file=sys.stderr)
Beispiel #3
0
def getTimeFunctionSize(nbRepetition, nbElement):
    tabX = np.asarray(np.random.random(nbElement), dtype=np.float32)

    timeBegin = astericshpc.rdtsc()
    for i in range(0, nbRepetition):
        res = tabX.sum()

    timeEnd = astericshpc.rdtsc()
    elapsedTime = float(timeEnd - timeBegin) / float(nbRepetition)
    elapsedTimePerElement = elapsedTime / float(nbElement)
    print("nbElement =", nbElement, ", elapsedTimePerElement =",
          elapsedTimePerElement, "cy/el", ", elapsedTime =", elapsedTime, "cy")
    print(str(nbElement) + "\t" + str(elapsedTimePerElement) + "\t" +
          str(elapsedTime),
          file=sys.stderr)
def getTimeFunctionSize(nbRepetition, nbElement):
    tabX = allocInitTable(nbElement)
    tabY = allocInitTable(nbElement)
    tabRes = astericshpc.allocTable(nbElement)
    scal = 42.0
    timeBegin = astericshpc.rdtsc()
    for i in range(0, nbRepetition):
        saxpypython.saxpy(tabRes, scal, tabX, tabY)

    timeEnd = astericshpc.rdtsc()
    elapsedTime = float(timeEnd - timeBegin) / float(nbRepetition)
    elapsedTimePerElement = elapsedTime / float(nbElement)
    print("nbElement =", nbElement, ", elapsedTimePerElement =",
          elapsedTimePerElement, "cy/el", ", elapsedTime =", elapsedTime, "cy")
    print(str(nbElement) + "\t" + str(elapsedTimePerElement) + "\t" +
          str(elapsedTime),
          file=sys.stderr)
def getTimeFunctionSize(nbRepetition, nbElement):
    tabX = allocInitTable(nbElement)
    tabY = allocInitTable(nbElement)
    tabA = allocInitTable(nbElement)

    timeBegin = astericshpc.rdtsc()
    for i in range(0, nbRepetition):
        g = barycentrepython.barycentre(tabX, tabY, tabA)

    timeEnd = astericshpc.rdtsc()
    elapsedTime = float(timeEnd - timeBegin) / float(nbRepetition)
    elapsedTimePerElement = elapsedTime / float(nbElement)
    print("nbElement =", nbElement, ", elapsedTimePerElement =",
          elapsedTimePerElement, "cy/el", ", elapsedTime =", elapsedTime, "cy")
    print(str(nbElement) + "\t" + str(elapsedTimePerElement) + "\t" +
          str(elapsedTime),
          file=sys.stderr)
def getTimeFunctionSize(nbRepetition, nbElement):
    matX = np.asarray(np.random.random((nbElement, nbElement)),
                      dtype=np.float32)
    matY = np.asarray(np.random.random((nbElement, nbElement)),
                      dtype=np.float32)
    matRes = np.zeros((nbElement, nbElement), dtype=np.float32)

    timeBegin = astericshpc.rdtsc()
    for i in range(0, nbRepetition):
        np.matmul(matX, matY, matRes)

    timeEnd = astericshpc.rdtsc()
    elapsedTime = float(timeEnd - timeBegin) / float(nbRepetition)
    elapsedTimePerElement = elapsedTime / float(nbElement * nbElement)
    print("nbElement =", nbElement, ", elapsedTimePerElement =",
          elapsedTimePerElement, "cy/el", ", elapsedTime =", elapsedTime, "cy")
    print(str(nbElement) + "\t" + str(elapsedTimePerElement) + "\t" +
          str(elapsedTime),
          file=sys.stderr)
def getTimeFunctionSize(nbRepetition, nbElement):
	tabX = np.asarray(np.random.random(nbElement), dtype=np.float32)
	tabY = np.asarray(np.random.random(nbElement), dtype=np.float32)
	tabRes = np.zeros(nbElement, dtype=np.float32)
	
	listX = []
	listY = []
	listRes = []
	for i in range(0,nbElement):
		listX.append(tabX[i])
		listY.append(tabY[i])
		listRes.append(tabRes[i]);
	
	timeBegin = astericshpc.rdtsc()
	for i in range(0, nbRepetition):
		for j in range(0, nbElement):
			listRes[j] = listX[j]*listY[j]
	
	timeEnd = astericshpc.rdtsc()
	elapsedTime = float(timeEnd - timeBegin)/float(nbRepetition)
	elapsedTimePerElement = elapsedTime/float(nbElement)
	print("nbElement =",nbElement,", elapsedTimePerElement =",elapsedTimePerElement,"cy/el",", elapsedTime =",elapsedTime,"cy")
	print(str(nbElement) + "\t" + str(elapsedTimePerElement) + "\t" + str(elapsedTime),file=sys.stderr)