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481 lines
17 KiB
C++
481 lines
17 KiB
C++
#include "test_common.hpp"
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#include "test_perf.hpp"
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void PERF_TEST::Test_Abs(aclCxt *acl_context)
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{
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int val, n;
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int valmax = 8192;
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int cycle_index = 10;
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double begin, end, time, acltime;
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Common_Test test;
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//vector<int> type{CV_32FC1};
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vector<int> type{CV_32FC1,CV_32SC1};
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for (size_t i = 0; i < type.size(); ++i)
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{
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test.PrintLog("Perf test : Function: Abs()", type[i]);
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for (val = 8; val <= valmax; val *= 2)
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{
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n = cycle_index;
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Mat mat_src(val, val, type[i], Scalar{-2});
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Mat mat_dest(val, val, type[i], Scalar{-4});
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Mat mat_dest1(val, val, type[i], Scalar{-6});
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aclMat aclmat_src(val, val, type[i], mat_src.data, acl_context);
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aclMat aclmat_dest(val, val, type[i], mat_dest.data, acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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mat_dest = abs(mat_src);
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end = static_cast<double>(getTickCount());
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time = (end - begin) / getTickFrequency() / cycle_index;
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n = (cycle_index - 1);
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aclmat_dest = abs(aclmat_src, 0);
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wait_stream(acl_context, 0);
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begin = static_cast<double>(getTickCount());
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while (n--)
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aclmat_dest = abs(aclmat_src, 1);
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wait_stream(acl_context, 1);
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end = static_cast<double>(getTickCount());
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acltime = (end - begin) / getTickFrequency() / (cycle_index - 1);
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aclmat_dest.download(mat_dest1);
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bool ret = test.Test_Diff(mat_dest, mat_dest1);
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ASSERT_TRUE(ret);
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if (val < 128)
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cout << "Shape: " << val << " x " << val << "\t\t";
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else
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cout << "Shape: " << val << " x " << val << "\t";
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cout << "CpuTimes: " << time << "\tAclTimes: " << acltime << "\tRate: " << time / acltime << endl;
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}
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}
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}
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void PERF_TEST::Test_Pow(aclCxt *acl_context)
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{
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int val, n;
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int valmax = 8192;
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int cycle_index = 10;
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double begin, end, time, acltime;
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Common_Test test;
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//vector<int> type{CV_32FC1};
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vector<int> type{CV_8UC1, CV_32FC1,CV_32SC1};
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for (size_t i = 0; i < type.size(); ++i)
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{
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test.PrintLog("Perf test : Function: Pow()", type[i]);
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for (val = 8; val <= valmax; val *= 2)
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{
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n = cycle_index;
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int power = test.RandDom_(6);
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Mat mat_src(val, val, type[i]);
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Mat mat_dest(val, val, type[i]);
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Mat mat_dest1(val, val, type[i]);
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test.SetDataRange(mat_src, 32);
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aclMat aclmat_src(val, val, type[i], mat_src.data, acl_context);
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aclMat aclmat_dest(val, val, type[i], mat_dest.data, acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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pow(mat_src, power, mat_dest);
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end = static_cast<double>(getTickCount());
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time = (end - begin) / getTickFrequency() / cycle_index;
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n = (cycle_index - 1);
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pow(aclmat_src, power, aclmat_dest, 0);
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wait_stream(acl_context, 0);
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begin = static_cast<double>(getTickCount());
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while (n--)
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pow(aclmat_src, power, aclmat_dest, 1);
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wait_stream(acl_context, 1);
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end = static_cast<double>(getTickCount());
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acltime = (end - begin) / getTickFrequency() / (cycle_index - 1);
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aclmat_dest.download(mat_dest1);
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if (val < 128)
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cout << "Shape: " << val << " x " << val << "\t\t";
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else
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cout << "Shape: " << val << " x " << val << "\t";
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cout << "CpuTimes: " << time << "\tAclTimes: " << acltime << "\tRate: " << time / acltime << endl;
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}
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}
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}
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void PERF_TEST::Test_Sqrt(aclCxt *acl_context)
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{
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int val, n;
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int valmax = 8192;
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int cycle_index = 10;
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double begin, end, time, acltime;
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Common_Test test;
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//vector<int> type{CV_32FC1};
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vector<int> type{CV_32FC1,CV_64FC1};
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for (size_t i = 0; i < type.size(); ++i)
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{
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for (val = 8; val <= valmax; val *= 2)
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{
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n = cycle_index;
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Mat mat_src(val, val, type[i]);
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Mat mat_dest(val, val, type[i]);
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Mat mat_dest1(val, val, type[i]);
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test.SetDataRange(mat_src, 32);
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test.SetDataRange(mat_dest, 32);
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aclMat aclmat_src(val, val, type[i], mat_src.data, acl_context);
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aclMat aclmat_dest(val, val, type[i], mat_dest.data, acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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sqrt(mat_src, mat_dest);
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end = static_cast<double>(getTickCount());
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time = (end - begin) / getTickFrequency() / cycle_index;
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n = (cycle_index - 1);
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sqrt(aclmat_src, aclmat_dest);
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wait_stream(acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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sqrt(aclmat_src, aclmat_dest, 1);
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wait_stream(acl_context, 1);
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end = static_cast<double>(getTickCount());
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acltime = (end - begin) / getTickFrequency() / (cycle_index - 1);
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aclmat_dest.download(mat_dest1);
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if (val < 128)
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cout << "Shape: " << val << " x " << val << "\t\t";
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else
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cout << "Shape: " << val << " x " << val << "\t";
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cout << "CpuTimes: " << time << "\tAclTimes: " << acltime << "\tRate: " << time / acltime << endl;
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}
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}
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}
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void PERF_TEST::Test_Add(aclCxt *acl_context)
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{
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int val, n;
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int valmax = 8192;
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int cycle_index = 10;
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double begin, end, time, acltime;
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Common_Test test;
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//vector<int> type{CV_32FC1};
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vector<int> type{CV_8UC1,CV_32FC1, CV_32SC1, CV_64FC1};
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for (size_t i = 0; i < type.size(); ++i)
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{
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for (val = 8; val <= valmax; val *= 2)
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{
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n = cycle_index;
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Mat mat_src1(val, val, type[i]);
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Mat mat_src2(val, val, type[i]);
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Mat mat_dest(val, val, type[i]);
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Mat mat_dest1(val, val, type[i]);
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test.SetDataRange(mat_src1, 32);
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test.SetDataRange(mat_src2, 32);
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test.SetDataRange(mat_dest, 32);
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aclMat aclmat_src1(val, val, type[i], mat_src1.data, acl_context);
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aclMat aclmat_src2(val, val, type[i], mat_src2.data, acl_context);
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aclMat aclmat_dest(val, val, type[i], mat_dest.data, acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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add(mat_src1, mat_src2, mat_dest);
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end = static_cast<double>(getTickCount());
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time = (end - begin) / getTickFrequency() / cycle_index;
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n = (cycle_index - 1);
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add(aclmat_src1, aclmat_src2, aclmat_dest);
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wait_stream(acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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add(aclmat_src1, aclmat_src2, aclmat_dest, 1);
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wait_stream(acl_context, 1);
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end = static_cast<double>(getTickCount());
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acltime = (end - begin) / getTickFrequency() / (cycle_index - 1);
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aclmat_dest.download(mat_dest1);
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bool ret = test.Test_Diff(mat_dest, mat_dest1);
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ASSERT_TRUE(ret);
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if (val < 128)
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cout << "Shape: " << val << " x " << val << "\t\t";
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else
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cout << "Shape: " << val << " x " << val << "\t";
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cout << "CpuTimes: " << time << "\tAclTimes: " << acltime << "\tRate: " << time / acltime << endl;
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}
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}
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}
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void PERF_TEST::Test_Divide(aclCxt *acl_context)
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{
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int val, n;
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int valmax = 8192;
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int cycle_index = 10;
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double begin, end, time, acltime;
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Common_Test test;
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//vector<int> type{CV_32FC1};
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vector<int> type{CV_8UC1,CV_32FC1, CV_32SC1};
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for (size_t i = 0; i < type.size(); ++i)
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{
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for (val = 8; val <= valmax; val *= 2)
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{
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n = cycle_index;
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Mat mat_src1(val, val, type[i]);
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Mat mat_src2(val, val, type[i]);
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Mat mat_dest(val, val, type[i]);
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Mat mat_dest1(val, val, type[i]);
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test.SetDataRange(mat_src1, 32);
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test.SetDataRange(mat_src2, 4);
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test.SetDataRange(mat_dest, 32);
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aclMat aclmat_src1(val, val, type[i], mat_src1.data, acl_context);
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aclMat aclmat_src2(val, val, type[i], mat_src2.data, acl_context);
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aclMat aclmat_dest(val, val, type[i], mat_dest.data, acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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divide(mat_src1, mat_src2, mat_dest);
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end = static_cast<double>(getTickCount());
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time = (end - begin) / getTickFrequency() / cycle_index;
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n = (cycle_index - 1);
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divide(aclmat_src1, aclmat_src2, aclmat_dest);
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wait_stream(acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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divide(aclmat_src1, aclmat_src2, aclmat_dest, 1);
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wait_stream(acl_context, 1);
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end = static_cast<double>(getTickCount());
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acltime = (end - begin) / getTickFrequency() / (cycle_index - 1);
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aclmat_dest.download(mat_dest1);
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// bool ret = test.Test_Diff(mat_dest, mat_dest1);
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// ASSERT_TRUE(ret);
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if (val < 128)
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cout << "Shape: " << val << " x " << val << "\t\t";
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else
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cout << "Shape: " << val << " x " << val << "\t";
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cout << "CpuTimes: " << time << "\tAclTimes: " << acltime << "\tRate: " << time / acltime << endl;
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}
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}
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}
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void PERF_TEST::Test_Exp(aclCxt *acl_context)
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{
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int val, n;
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int valmax = 8192;
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int cycle_index = 10;
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double begin, end, time, acltime;
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Common_Test test;
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//vector<int> type{CV_32FC1};
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vector<int> type{CV_32FC1,CV_64FC1};
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for (size_t i = 0; i < type.size(); ++i)
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{
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for (val = 8; val <= valmax; val *= 2)
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{
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n = cycle_index;
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Mat mat_src(val, val, type[i]);
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Mat mat_dest(val, val, type[i]);
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Mat mat_dest1(val, val, type[i]);
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test.SetDataRange(mat_src, 32);
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test.SetDataRange(mat_dest, 2);
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aclMat aclmat_src(val, val, type[i], mat_src.data, acl_context);
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aclMat aclmat_dest(val, val, type[i], mat_dest.data, acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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exp(mat_src, mat_dest);
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end = static_cast<double>(getTickCount());
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time = (end - begin) / getTickFrequency() / cycle_index;
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n = (cycle_index - 1);
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exp(aclmat_src, aclmat_dest);
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wait_stream(acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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exp(aclmat_src, aclmat_dest, 1);
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wait_stream(acl_context, 1);
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end = static_cast<double>(getTickCount());
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acltime = (end - begin) / getTickFrequency() / (cycle_index - 1);
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aclmat_dest.download(mat_dest1);
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if (val < 128)
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cout << "Shape: " << val << " x " << val << "\t\t";
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else
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cout << "Shape: " << val << " x " << val << "\t";
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cout << "CpuTimes: " << time << "\tAclTimes: " << acltime << "\tRate: " << time / acltime << endl;
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}
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}
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}
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void PERF_TEST::Test_Log(aclCxt *acl_context)
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{
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int val, n;
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int valmax = 8192;
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int cycle_index = 10;
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double begin, end, time, acltime;
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Common_Test test;
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//vector<int> type{CV_32FC1};
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vector<int> type{CV_32FC1,CV_64FC1};
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for (size_t i = 0; i < type.size(); ++i)
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{
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for (val = 8; val <= valmax; val *= 2)
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{
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n = cycle_index;
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Mat mat_src(val, val, type[i]);
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Mat mat_dest(val, val, type[i]);
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Mat mat_dest1(val, val, type[i]);
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test.SetDataRange(mat_src, 32);
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test.SetDataRange(mat_dest, 32);
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aclMat aclmat_src(val, val, type[i], mat_src.data, acl_context);
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aclMat aclmat_dest(val, val, type[i], mat_dest.data, acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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log(mat_src, mat_dest);
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end = static_cast<double>(getTickCount());
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time = (end - begin) / getTickFrequency() / cycle_index;
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n = (cycle_index - 1);
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log(aclmat_src, aclmat_dest, 1);
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wait_stream(acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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log(aclmat_src, aclmat_dest, 1);
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wait_stream(acl_context, 1);
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end = static_cast<double>(getTickCount());
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acltime = (end - begin) / getTickFrequency() / (cycle_index - 1);
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aclmat_dest.download(mat_dest1);
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if (val < 128)
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cout << "Shape: " << val << " x " << val << "\t\t";
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else
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cout << "Shape: " << val << " x " << val << "\t";
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cout << "CpuTimes: " << time << "\tAclTimes: " << acltime << "\tRate: " << time / acltime << endl;
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}
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}
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}
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void PERF_TEST::Test_Max(aclCxt *acl_context)
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{
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int val, n;
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int valmax = 8192;
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int cycle_index = 10;
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double begin, end, time, acltime;
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Common_Test test;
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// vector<int> type{CV_32FC2};
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vector<int> type{CV_32FC2,CV_32SC2, CV_64FC2};
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for (size_t i = 0; i < type.size(); ++i)
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{
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for (val = 8; val <= valmax; val *= 2)
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{
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n = cycle_index;
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Mat mat_src1(val, val, type[i]);
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Mat mat_src2(val, val, type[i]);
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Mat mat_dest(val, val, type[i]);
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Mat mat_dest1(val, val, type[i]);
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test.SetDataRange(mat_src1, 32);
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test.SetDataRange(mat_src2, 32);
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test.SetDataRange(mat_dest, 32);
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aclMat aclmat_src1(val, val, type[i], mat_src2.data, acl_context);
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aclMat aclmat_src2(val, val, type[i], mat_src1.data, acl_context);
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aclMat aclmat_dest(val, val, type[i], mat_dest.data, acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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cv::max(mat_src1, mat_src2, mat_dest);
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end = static_cast<double>(getTickCount());
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time = (end - begin) / getTickFrequency() / cycle_index;
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n = (cycle_index - 1);
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cv::acl::max(aclmat_src1, aclmat_src2, aclmat_dest);
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wait_stream(acl_context);
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begin = static_cast<double>(getTickCount());
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while (n--)
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cv::acl::max(aclmat_src1, aclmat_src2, aclmat_dest, 1);
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wait_stream(acl_context, 1);
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end = static_cast<double>(getTickCount());
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acltime = (end - begin) / getTickFrequency() / (cycle_index - 1);
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aclmat_dest.download(mat_dest1);
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bool ret = test.Test_Diff(mat_dest, mat_dest1);
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ASSERT_TRUE(ret);
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if (val < 128)
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cout << "Shape: " << val << " x " << val << "\t\t";
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else
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cout << "Shape: " << val << " x " << val << "\t";
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cout << "CpuTimes: " << time << "\tAclTimes: " << acltime << "\tRate: " << time / acltime << endl;
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}
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}
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}
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void PERF_TEST::Test_Min(aclCxt *acl_context)
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{
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int val, n;
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int valmax = 8192;
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int cycle_index = 10;
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double begin, end, time, acltime;
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Common_Test test;
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//vector<int> type{CV_32FC3};
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vector<int> type{CV_32FC3,CV_32SC3, CV_64FC3};
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for (size_t i = 0; i < type.size(); ++i)
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{
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for (val = 8; val <= valmax; val *= 2)
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{
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n = cycle_index;
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Mat mat_src1(val, val, type[i]);
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Mat mat_src2(val, val, type[i]);
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Mat mat_dest(val, val, type[i]);
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Mat mat_dest1(val, val, type[i]);
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test.SetDataRange(mat_src1, 32);
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test.SetDataRange(mat_src2, 32);
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test.SetDataRange(mat_dest, 32);
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aclMat aclmat_src1(val, val, type[i], mat_src2.data, acl_context);
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aclMat aclmat_src2(val, val, type[i], mat_src1.data, acl_context);
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aclMat aclmat_dest(val, val, type[i], mat_dest.data, acl_context);
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|
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begin = static_cast<double>(getTickCount());
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while (n--)
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cv::min(mat_src1, mat_src2, mat_dest);
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end = static_cast<double>(getTickCount());
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time = (end - begin) / getTickFrequency() / cycle_index;
|
|
|
|
n = (cycle_index - 1);
|
|
cv::acl::min(aclmat_src1, aclmat_src2, aclmat_dest);
|
|
wait_stream(acl_context);
|
|
begin = static_cast<double>(getTickCount());
|
|
while (n--)
|
|
cv::acl::min(aclmat_src1, aclmat_src2, aclmat_dest, 1);
|
|
wait_stream(acl_context, 1);
|
|
end = static_cast<double>(getTickCount());
|
|
acltime = (end - begin) / getTickFrequency() / (cycle_index - 1);
|
|
|
|
aclmat_dest.download(mat_dest1);
|
|
bool ret = test.Test_Diff(mat_dest, mat_dest1);
|
|
ASSERT_TRUE(ret);
|
|
if (val < 128)
|
|
cout << "Shape: " << val << " x " << val << "\t\t";
|
|
else
|
|
cout << "Shape: " << val << " x " << val << "\t";
|
|
cout << "CpuTimes: " << time << "\tAclTimes: " << acltime << "\tRate: " << time / acltime << endl;
|
|
}
|
|
}
|
|
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} |