Example #1
0
        def test_IdpyMethodCU(self):
            cu = CUDA()
            cu.SetDevice()
            tenet = cu.GetTenet()
            SwapArrays = self.M_SwapArrays(tenet)
            zeros = IdpyMemory.Const(self.n,
                                     dtype=np.int32,
                                     const=0,
                                     tenet=tenet)
            ones = IdpyMemory.Const(self.n,
                                    dtype=np.int32,
                                    const=1,
                                    tenet=tenet)
            mem_list = [zeros, ones]
            print()
            print("[0]: ", mem_list[0].D2H(), mem_list[0].dtype)
            print("[1]: ", mem_list[1].D2H(), mem_list[1].dtype)
            print("Swapping")
            SwapArrays.Deploy(mem_list)
            print("[0]: ", mem_list[0].D2H(), mem_list[0].dtype)
            print("[1]: ", mem_list[1].D2H(), mem_list[1].dtype)

            check_1 = np.zeros(self.n, dtype=np.int32)
            check_0 = np.zeros(self.n, dtype=np.int32)
            check_0.fill(1)

            checks = []
            checks += [AllTrue(mem_list[0].D2H() == check_0)]
            checks += [AllTrue(mem_list[1].D2H() == check_1)]

            tenet.End()
            self.assertTrue(AllTrue(checks))
Example #2
0
        def test_IdpyKernelCU(self):
            cu = CUDA()
            cu.SetDevice()
            tenet = cu.GetTenet()

            grid, block = ((self.n + self.block_size - 1) // self.block_size,
                           1, 1), (self.block_size, 1, 1)

            myTypes = CustomTypes({'SpinType': 'unsigned int'})
            np_c = NpTypes()
            SumOne = self.K_SumOne(custom_types=myTypes.Push(),
                                   constants={'DATA_N': self.n})
            SumOne_Idea = SumOne(tenet=tenet, grid=grid, block=block)

            A = IdpyMemory.Const(self.n,
                                 dtype=np_c.C[myTypes['SpinType']],
                                 const=0,
                                 tenet=tenet)
            print()
            print("A: ", A.D2H(), A.dtype)
            print("SumOne_Idea.Deploy([A])")
            SumOne_Idea.Deploy([A])
            print("A: ", A.D2H(), A.dtype)

            check_array = np.zeros(self.n, dtype=np_c.C[myTypes['SpinType']])
            check_array.fill(1)

            checks = [AllTrue(A.D2H() == check_array)]

            tenet.End()
            self.assertTrue(AllTrue(checks))
Example #3
0
        def test_IdpyMethodLoopCU(self):
            cu = CUDA()
            cu.SetDevice()
            tenet = cu.GetTenet()

            zeros = IdpyMemory.Const(self.n,
                                     dtype=np.int32,
                                     const=0,
                                     tenet=tenet)
            ones = IdpyMemory.Const(self.n,
                                    dtype=np.int32,
                                    const=1,
                                    tenet=tenet)
            mem_dict = {'zeros': zeros, 'ones': ones}
            SwapArraysLoop = IdpyLoop(
                [mem_dict], [[(self.M_SwapArrays(tenet), ['zeros', 'ones'])]])
            print()
            print("['zeros']: ", mem_dict['zeros'].D2H(),
                  mem_dict['zeros'].dtype)
            print("['ones']: ", mem_dict['ones'].D2H(), mem_dict['ones'].dtype)
            print("SwapArraysLoop(range(1))")
            SwapArraysLoop.Run(range(1))
            print("['zeros']: ", mem_dict['zeros'].D2H(),
                  mem_dict['zeros'].dtype)
            print("['ones']: ", mem_dict['ones'].D2H(), mem_dict['ones'].dtype)
            print("SwapArraysLoop(range(4))")
            SwapArraysLoop.Run(range(4))
            print("['zeros']: ", mem_dict['zeros'].D2H(),
                  mem_dict['zeros'].dtype)
            print("['ones']: ", mem_dict['ones'].D2H(), mem_dict['ones'].dtype)
            print("SwapArraysLoop(range(7))")
            SwapArraysLoop.Run(range(7))
            print("['zeros']: ", mem_dict['zeros'].D2H(),
                  mem_dict['zeros'].dtype)
            print("['ones']: ", mem_dict['ones'].D2H(), mem_dict['ones'].dtype)
            checks = []
            checks += [
                AllTrue(
                    list(mem_dict['zeros'].D2H() == np.zeros(self.n,
                                                             dtype=np.int32)))
            ]
            check_ones = np.zeros(self.n, dtype=np.int32)
            check_ones.fill(1)
            checks += [AllTrue(list(mem_dict['ones'].D2H() == check_ones))]

            tenet.End()
            self.assertTrue(AllTrue(checks))
Example #4
0
        def test_IdpyArray(self):
            ocl = OpenCL()
            ocl.SetDevice()
            tenet = ocl.GetTenet()
            rand_mem = IdpyMemory.Array(10, dtype=np.int32, tenet=tenet)
            on_dev_range = IdpyMemory.OnDevice(np.arange(10, dtype=np.int32),
                                               tenet=tenet)
            zeros = IdpyMemory.Zeros(10, dtype=np.float32, tenet=tenet)
            i_range = IdpyMemory.Range(10, tenet=tenet)
            const = IdpyMemory.Const(10,
                                     dtype=np.int32,
                                     const=self.constant,
                                     tenet=tenet)
            print()
            print("rand_mem:\t", rand_mem.D2H(), rand_mem.dtype)
            print("on_dev_range:\t", on_dev_range.D2H(), on_dev_range.dtype)
            print("zeros:\t", zeros.D2H(), zeros.dtype)
            print("i_range:\t", i_range.D2H(), i_range.dtype)
            print("const:\t", const.D2H(), const.dtype)
            int_buffer = np.zeros(10, dtype=np.int32)
            const.D2H(int_buffer)
            print("int_buffer: ", int_buffer, int_buffer.dtype)
            '''
            checks
            '''
            checks = []

            checks += [
                AllTrue(
                    list(on_dev_range.D2H() == np.arange(10, dtype=np.int32)))
            ]
            checks += [
                AllTrue(list(zeros.D2H() == np.zeros(10, dtype=np.float32)))
            ]
            checks += [
                AllTrue(list(i_range.D2H() == np.arange(10, dtype=np.int32)))
            ]

            chk_const = np.zeros(10, dtype=np.int32)
            chk_const.fill(self.constant)

            checks += [AllTrue(list(const.D2H() == chk_const))]

            tenet.End()
            self.assertTrue(AllTrue(checks))
Example #5
0
        def test_IdpyKernelLoopConstCL(self):
            ocl = OpenCL()
            ocl.SetDevice()
            tenet = ocl.GetTenet()

            grid, block = ((self.n + self.block_size - 1) // self.block_size,
                           1, 1), (self.block_size, 1, 1)

            myTypes = CustomTypes({'SpinType': 'unsigned int'})
            np_c = NpTypes()
            SumConst = self.K_SumConst(custom_types=myTypes.Push(),
                                       constants={'DATA_N': self.n})

            A = IdpyMemory.Const(self.n,
                                 dtype=np_c.C[myTypes['SpinType']],
                                 const=0,
                                 tenet=tenet)

            # https://stackoverflow.com/questions/5710690/pycuda-passing-variable-by-value-to-kernel
            mem_dict = {'A': A, 'const': np.int32(self.in_const)}
            SumOne_Loop = IdpyLoop([mem_dict], [[(SumConst(
                tenet=tenet, grid=grid, block=block), ['A', 'const'])]])

            print()
            print("A: ", A.D2H(), A.dtype)
            print("SumOne_Loop.Run(range(1))")
            SumOne_Loop.Run(range(1))
            print("A: ", A.D2H(), A.dtype)
            print("SumOne_Loop.Run(range(8))")
            SumOne_Loop.Run(range(8))
            print("A: ", A.D2H(), A.dtype)

            check_array = np.zeros(self.n, dtype=np_c.C[myTypes['SpinType']])
            check_array.fill(self.in_const * 9)

            checks = []
            checks += [AllTrue(A.D2H() == check_array)]

            tenet.End()
            self.assertTrue(AllTrue(checks))
Example #6
0
        def test_IdpyKernelLoopCU(self):
            cu = CUDA()
            cu.SetDevice()
            tenet = cu.GetTenet()

            grid, block = ((self.n + self.block_size - 1) // self.block_size,
                           1, 1), (self.block_size, 1, 1)

            myTypes = CustomTypes({'SpinType': 'unsigned int'})
            np_c = NpTypes()
            SumOne = self.K_SumOne(custom_types=myTypes.Push(),
                                   constants={'DATA_N': self.n})

            A = IdpyMemory.Const(self.n,
                                 dtype=np_c.C[myTypes['SpinType']],
                                 const=0,
                                 tenet=tenet)
            mem_dict = {'A': A}
            SumOne_Loop = IdpyLoop(
                [mem_dict],
                [[(SumOne(tenet=tenet, grid=grid, block=block), ['A'])]])

            print()
            print("A: ", A.D2H(), A.dtype)
            print("SumOne_Loop.Run(range(1))")
            SumOne_Loop.Run(range(1))
            print("A: ", A.D2H(), A.dtype)
            print("SumOne_Loop.Run(range(8))")
            SumOne_Loop.Run(range(8))
            print("A: ", A.D2H(), A.dtype)

            check_array = np.zeros(self.n, dtype=np_c.C[myTypes['SpinType']])
            check_array.fill(9)

            checks = []
            checks += [AllTrue(A.D2H() == check_array)]

            tenet.End()
            self.assertTrue(AllTrue(checks))
Example #7
0
        def test_IdpyKernelFuncLoopMultStreamCL(self):
            ocl = OpenCL()
            ocl.SetDevice()
            tenet = ocl.GetTenet()

            grid, block = ((self.n + self.block_size - 1) // self.block_size,
                           1, 1), (self.block_size, 1, 1)

            myTypes = CustomTypes({'SpinType': 'unsigned int'})
            np_c = NpTypes()
            SumTwoArrConst = self.K_SumTwoArrays(custom_types=myTypes.Push(),
                                                 constants={'DATA_N': self.n},
                                                 f_classes=[
                                                     self.F_SumTwoArraysPtr,
                                                     self.F_SumTwoArraysRet,
                                                     self.F_SumTwoArraysVal
                                                 ])

            SumConst = self.K_SumConst(custom_types=myTypes.Push(),
                                       constants={'DATA_N': self.n})

            A = IdpyMemory.Const(self.n,
                                 dtype=np_c.C[myTypes['SpinType']],
                                 const=0,
                                 tenet=tenet)

            B = IdpyMemory.Const(self.n,
                                 dtype=np_c.C[myTypes['SpinType']],
                                 const=1,
                                 tenet=tenet)

            C = IdpyMemory.Const(self.n,
                                 dtype=np_c.C[myTypes['SpinType']],
                                 const=2,
                                 tenet=tenet)

            D = IdpyMemory.Const(self.n,
                                 dtype=np_c.C[myTypes['SpinType']],
                                 const=3,
                                 tenet=tenet)

            print()
            print("A: ", A.D2H(), A.dtype)
            print("B: ", B.D2H(), B.dtype)
            print("C: ", C.D2H(), C.dtype)
            print("D: ", D.D2H(), D.dtype)
            '''
            Checking result
            '''
            a, b, c, cc = A.D2H()[0], B.D2H()[0], C.D2H()[0], self.in_const
            d = D.D2H()[0]

            for i in range(2):
                '''first stream'''
                c += cc
                c += a + b
                c += a + b
                c += a + b + cc
                a, c = c, a
                '''second stream'''
                d += cc

            # https://stackoverflow.com/questions/5710690/pycuda-passing-variable-by-value-to-kernel
            ##
            mem_dict_0 = {
                'A': A,
                'B': B,
                'C': C,
                'const': np_c.C[myTypes['SpinType']](self.in_const)
            }
            mem_dict_1 = {
                'D': D,
                'const': np_c.C[myTypes['SpinType']](self.in_const)
            }
            SumTwoArrConst_Loop = IdpyLoop(
                [mem_dict_0, mem_dict_1],
                [[(SumTwoArrConst(tenet=tenet, grid=grid,
                                  block=block), ['A', 'B', 'C', 'const']),
                  (self.M_SwapArrays(tenet), ['A', 'C'])],
                 [
                     (SumConst(tenet=tenet, grid=grid,
                               block=block), ['D', 'const']),
                 ]])

            print()
            print("SumTwoArrConst_Loop.Run(range(2))")
            SumTwoArrConst_Loop.Run(range(2))

            print("A: ", A.D2H(), A.dtype, a)
            print("B: ", B.D2H(), B.dtype, b)
            print("C: ", C.D2H(), C.dtype, c)
            print("D: ", D.D2H(), D.dtype, d)

            checks = []
            check_array = np.full(self.n, a, dtype=np_c.C[myTypes['SpinType']])
            checks += [AllTrue(A.D2H() == check_array)]
            check_array = np.full(self.n, b, dtype=np_c.C[myTypes['SpinType']])
            checks += [AllTrue(B.D2H() == check_array)]
            check_array = np.full(self.n, c, dtype=np_c.C[myTypes['SpinType']])
            checks += [AllTrue(C.D2H() == check_array)]
            check_array = np.full(self.n, d, dtype=np_c.C[myTypes['SpinType']])
            checks += [AllTrue(D.D2H() == check_array)]

            tenet.End()
            self.assertTrue(AllTrue(checks))