def test_shift_ts(): no = 2 io = 0 ni = 4 test_vals = [[0, 1, 2, 3], [4, 5, 6, 7]] shifted_test_vals = [[int_to_ignore, int_to_ignore, 0, 1], [2, 3, 4, 5]] shift_amount = 2 in_type = ST_TSeq(no, io, ST_SSeq(ni, ST_Int())) rshift = DefineShift_TS(no, io, ni, shift_amount, in_type.t.t, has_valid=True) tester = fault.Tester(rshift, rshift.CLK) tester.circuit.valid_up = 1 for clk in range(len(test_vals)): tester.print("clk: {}".format(clk)) set_nested_port(tester, tester.circuit.I, test_vals[clk], 1, 0) print_nested_port(tester, tester.circuit.I, 1) tester.print("\n") tester.eval() #for i, val in enumerate(test_vals[i*ni+shift_amount:(i+1)*ni+shift_amount]): print_nested_port(tester, tester.circuit.O, 1) tester.print("\n") expect_nested_port(tester, tester.circuit.O, shifted_test_vals[clk], 1, 0) tester.circuit.valid_down.expect(1) tester.step(2) compile_and_run(tester)
fault_helpers.print_nested_port( tester, tester.circuit.fst_conv_in, num_nested_space_layers( ST_TSeq(32, 32, ST_SSeq(2, ST_SSeq(3, ST_TSeq(3, 0, ST_Int())))))) tester.print("\n") tester.print("first down in: ") fault_helpers.print_nested_port( tester, tester.circuit.fst_down_in, num_nested_space_layers( ST_TSeq(32, 32, ST_SSeq(2, ST_SSeq(1, ST_TSeq(1, 2, ST_Int())))))) tester.print("\n") tester.print("first down out: ") fault_helpers.print_nested_port( tester, tester.circuit.fst_down_out, num_nested_space_layers( ST_TSeq(32, 32, ST_SSeq(1, ST_SSeq(1, ST_TSeq(1, 2, ST_Int())))))) tester.print("\n") if f_clk >= 118: tester.circuit.valid_down.expect(1) if f_clk >= 118 and fault_output_valid[output_counter]: fault_helpers.expect_nested_port( tester, tester.circuit.O, fault_output[output_counter], num_nested_space_layers( ST_TSeq(4, 60, ST_SSeq(1, ST_TSeq(1, 2, ST_Int())))), 0) tester.step(2) tester.circuit.valid_down.expect(0) fault_helpers.compile_and_run(tester)