def __init__(self, width, module_name, module_mif_filename): print "Running vector test on module %s with mif file %s" % (module_name, module_mif_filename) self.test_reset = pycdl.wire() self.vector_input_0 = pycdl.wire(width) self.vector_input_1 = pycdl.wire(width) self.vector_output_0 = pycdl.wire(width) self.vector_output_1 = pycdl.wire(width) self.system_clock = pycdl.clock(0, 1, 1) self.dut_0 = pycdl.module(module_name, clocks={ "io_clock": self.system_clock }, inputs={ "io_reset": self.test_reset, "vector_input_0": self.vector_input_0, "vector_input_1": self.vector_input_1 }, outputs={ "vector_output_0": self.vector_output_0, "vector_output_1": self.vector_output_1 }) self.test_harness_0 = vector_test_harness(clocks={ "clock": self.system_clock }, inputs={ "vector_output_0": self.vector_output_0, "vector_output_1": self.vector_output_1 }, outputs={ "vector_input_0": self.vector_input_0, "vector_input_1": self.vector_input_1 }, vectors_filename=module_mif_filename) self.rst_seq = pycdl.timed_assign(self.test_reset, 1, 5, 0) pycdl.hw.__init__(self, self.dut_0, self.test_harness_0, self.system_clock, self.rst_seq)
def __init__(self, sram_mif=""): system_clock = pycdl.clock(0, 5, 5) reset_n = pycdl.wire() self.reset_driver = pycdl.timed_assign(signal=reset_n, init_value=0, wait=33, later_value=1) hw_forces = dict() hw_forces = { "imem.filename": sram_mif, "imem.verbose": 0, } self.tb_6502 = pycdl.module( "tb_6502", clocks={ "clk": system_clock, }, inputs={ "reset_n": reset_n, }, forces=hw_forces, ) self.th = cdl_test_th(clocks={"clk": system_clock}, inputs={}, outputs={}) pycdl.hw.__init__(self, self.tb_6502, self.th, system_clock, self.reset_driver) self.wave_hierarchies = [self.tb_6502] pass
def __init__(self, bits_per_enable, mif_filename, tv_filename): print "Regression batch arg mif:%s" % mif_filename print "Regression batch arg bits_per_enable:%d" % bits_per_enable print "Regression batch arg tv_file:%s" % tv_filename print "Running dual port SRAM test on 1024x16 %d bits per enable mrw sram mif file %s test vector file %s" % (bits_per_enable, mif_filename, tv_filename) if bits_per_enable == 8: self.byte_enables_0 = pycdl.wire(2) self.byte_enables_1 = pycdl.wire(2) else: self.byte_enables_0 = pycdl.wire(1) self.byte_enables_1 = pycdl.wire(1) self.test_reset = pycdl.wire() self.sram_rd_0 = pycdl.wire(16) self.address_0 = pycdl.wire(10) self.read_not_write_0 = pycdl.wire() self.write_data_0 = pycdl.wire(16) self.sram_rd_1 = pycdl.wire(16) self.address_1 = pycdl.wire(10) self.read_not_write_1 = pycdl.wire() self.write_data_1 = pycdl.wire(16) self.system_clock = pycdl.clock(0, 1, 1) sram_inputs={ "address_0": self.address_0, "read_not_write_0": self.read_not_write_0, "write_data_0": self.write_data_0, "address_1": self.address_1, "read_not_write_1": self.read_not_write_1, "write_data_1": self.write_data_1 } if bits_per_enable != 0: sram_inputs["write_enable_0"] = self.byte_enables_0 sram_inputs["write_enable_1"] = self.byte_enables_1 self.sram = pycdl.module("se_sram_mrw", options={ "filename": mif_filename, "num_ports": 2, "size": 1024, "width": 16, "bits_per_enable": bits_per_enable, "verbose": 0 }, clocks={ "sram_clock_0": self.system_clock, "sram_clock_1": self.system_clock }, inputs=sram_inputs, outputs={ "data_out_0": self.sram_rd_0, "data_out_1": self.sram_rd_1 }) self.test_harness_0 = dual_port_memory_th(clocks={ "clock": self.system_clock }, inputs={ "sram_rd_0": self.sram_rd_0, "sram_rd_1": self.sram_rd_1 }, outputs={ "address_0": self.address_0, "read_not_write_0": self.read_not_write_0, "byte_enables_0": self.byte_enables_0, "write_data_0": self.write_data_0, "address_1": self.address_1, "read_not_write_1": self.read_not_write_1, "byte_enables_1": self.byte_enables_1, "write_data_1": self.write_data_1 }, test_vector_mif=tv_filename) self.rst_seq = pycdl.timed_assign(self.test_reset, 1, 5, 0) pycdl.hw.__init__(self, self.sram, self.test_harness_0, self.system_clock, self.rst_seq)
def __init__(self, test): system_clock = pycdl.clock(0, 10, 10) # 50MHz reset_n = pycdl.wire() self.drivers = [ pycdl.timed_assign(signal=reset_n, init_value=0, wait=33, later_value=1), ] hw_forces = dict() hw_forces = { "th.clock": "clk", "th.inputs": ("user_inputs__temperature_alarm " + "user_inputs__touchpanel_irq " + "user_inputs__right_dial__direction_pulse " + "user_inputs__right_dial__direction " + "user_inputs__right_dial__pressed " + "user_inputs__left_dial__direction_pulse " + "user_inputs__left_dial__direction " + "user_inputs__left_dial__pressed " + "user_inputs__joystick__c " + "user_inputs__joystick__r " + "user_inputs__joystick__l " + "user_inputs__joystick__d " + "user_inputs__joystick__u " + "user_inputs__diamond__y " + "user_inputs__diamond__x " + "user_inputs__diamond__b " + "user_inputs__diamond__a " + "user_inputs__updated_switches " + "inputs_control__sr_shift " + "inputs_control__sr_clock " + ""), "th.outputs": ("inputs_status__right_rotary__transition_pin " + "inputs_status__right_rotary__direction_pin " + "inputs_status__left_rotary__transition_pin " + "inputs_status__left_rotary__direction_pin " + "inputs_status__sr_data " + "sr_divider[8] " + ""), "th.object": test, } self.dut = pycdl.module( "tb_de1_cl_controls", clocks={ "clk": system_clock, }, inputs={ "reset_n": reset_n, }, forces=hw_forces, ) pycdl.hw.__init__( self, thread_mapping=None, children=[ self.dut, system_clock, ] + self.drivers, ) self.wave_hierarchies = [self.dut] pass
def __init__(self, test): test.set_hw(self) self.test = test self.wave_file = self.__class__.__module__ + ".vcd" self.cdl_clocks = {} self.clock_periods = {} for clk_pin in self.clocks: (delay, low, high) = self.clocks[clk_pin] if low is None: low = self.system_clock_half_period if high is None: high = self.system_clock_half_period self.cdl_clocks[clk_pin] = pycdl.clock(delay, low, high) self.clock_periods[clk_pin] = low + high pass reset_n = pycdl.wire() self.drivers = [ pycdl.timed_assign(signal=reset_n, init_value=0, wait=33, later_value=1), ] hw_forces = dict(self.th_forces.items()) hw_forces["th.object"] = test self.dut = pycdl.module( self.module_name, clocks=self.cdl_clocks, inputs={"reset_n": reset_n}, forces=hw_forces, ) children = [self.dut] + self.drivers for clk_pin in self.cdl_clocks: children.append(self.cdl_clocks[clk_pin]) pass for l in self.loggers: log_module = pycdl.module("se_logger", options=self.loggers[l]) children.append(log_module) pass pycdl.hw.__init__( self, thread_mapping=None, children=children, ) self.wave_hierarchies = [self.dut] pass
def __init__(self, module_name, test_name, test_vectors, width): print "Regression batch arg",module_name print "Regression batch arg",test_name #print "Running vector test on module %s with mif file %s" % (module_name, module_mif_filename) system_clock = pycdl.clock(0, 1, 1) test_reset = pycdl.wire( 1 ) vector_input_0 = pycdl.wire( width ) vector_input_1 = pycdl.wire( width ) vector_output_0 = pycdl.wire( width ) vector_output_1 = pycdl.wire( width ) self.reset_driver = pycdl.timed_assign( signal=test_reset, init_value = 1, wait=5, later_value=0 ) self.th = vector_th( vectors = test_vectors, clocks = { "clk": system_clock, }, inputs = { "vector_output_0": vector_output_0, "vector_output_1": vector_output_1, }, outputs = { "vector_input_0": vector_input_0, "vector_input_1": vector_input_1, }, ) self.dut = pycdl.module( module_name, clocks = { "io_clock": system_clock, }, inputs = { "io_reset": test_reset, "vector_input_0": vector_input_0, "vector_input_1": vector_input_1, }, outputs = { "vector_output_0": vector_output_0, "vector_output_1": vector_output_1, }, ) pycdl.hw.__init__(self, system_clock, self.th, self.dut, self.reset_driver )
def __init__(self, os_rom_mif, basic_rom_mif, adfs_rom_mif, teletext_rom_mif, disk_mif="disks/elite.mif", ps2_kbd_mif=""): system_clock = pycdl.clock(0, 5, 5) video_clock = pycdl.clock(0, 7, 7) self.system_clock_div_2 = pycdl.clock(0, 10, 10) reset_n = pycdl.wire() hw_forces = dict() hw_forces = { "bbc.bbc.saa.character_rom.filename": teletext_rom_mif, "bbc.bbc.saa.character_rom.verbose": 0, "bbc.bbc.basic.filename": basic_rom_mif, "bbc.bbc.basic.verbose": 0, "bbc.bbc.adfs.filename": adfs_rom_mif, "bbc.bbc.adfs.verbose": 0, "bbc.bbc.ram_0.reset_type": 1, "bbc.bbc.ram_0.reset_value": 0, "bbc.bbc.os.filename": os_rom_mif, "bbc.bbc.os.verbose": 0, "bbc.io.bbc_ps2_kbd.kbd_map": ps2_kbd_mif, "bbc.floppy.filename": disk_mif, } lcd = pycdl.wirebundle({ "vsync_n": 1, "hsync_n": 1, "display_enable": 1, "red": 6, "green": 7, "blue": 6, "backlight": 1, }) switches = pycdl.wire(10) leds = pycdl.wire(10) keys = pycdl.wire(4) video_locked = pycdl.wire(1) led_data_pin = pycdl.wire(1) inputs_status = pycdl.wirebundle({ "right_rotary": { "transition_pin": 1, "direction_pin": 1 }, "left_rotary": { "transition_pin": 1, "direction_pin": 1 }, }) inputs_control = pycdl.wirebundle({ "sr_shift": 1, "sr_clock": 1, }) self.drivers = [ pycdl.timed_assign(signal=reset_n, init_value=0, wait=33, later_value=1), pycdl.timed_assign(signal=keys, init_value=7, wait=33, later_value=6), pycdl.timed_assign(signal=video_locked, init_value=0, wait=133, later_value=1), pycdl.timed_assign(signal=switches, init_value=0, wait=233, later_value=1), # remove cpu reset ] self.bbc_micro = pycdl.module( "bbc_micro_de1_cl", clocks={ "clk": system_clock, "video_clk": video_clock, }, inputs={ "reset_n": reset_n, "video_locked": video_locked, "keys": keys, "switches": switches, "inputs_status": inputs_status, }, outputs={ "lcd": lcd, "leds": leds, "inputs_control": inputs_control, "led_data_pin": led_data_pin }, forces=hw_forces, ) self.th = cdl_test_th(clocks={"clk": system_clock}, inputs={}, outputs={}) self.th.bbc_hier = "bbc_micro.bbc.bbc" self.log = pycdl.module( "se_logger", options={ "verbose": 1, "filename": "itrace.log", "modules": ( "bbc_micro.bbc.bbc.fdc " #"bbc_micro.main_cpu " ), }) thread_mapping = None pycdl.hw.__init__( self, thread_mapping=thread_mapping, children=[ self.bbc_micro, self.th, self.log, system_clock, self.system_clock_div_2, ] + self.drivers, ) #self.wave_hierarchies = [self.bbc_micro] #self.wave_hierarchies = [self.bbc_display_sram] #self.wave_hierarchies = [self.bbc_display, self.bbc_floppy_sram, self.bbc_floppy] self.wave_hierarchies = [self.bbc_micro] pass
def __init__(self): clk = pycdl.clock(0, 5, 5) reset_n = pycdl.wire() chip_select_n = pycdl.wire() read_n = pycdl.wire() write_n = pycdl.wire() address = pycdl.wire(2) data_in = pycdl.wire(8) data_out = pycdl.wire(8) data_ack_n = pycdl.wire() ready = pycdl.wire(2) track_0_n = pycdl.wire() write_protect_n = pycdl.wire() index_n = pycdl.wire() nmi = pycdl.wire() th_req_bus_to_drive = pycdl.wire() th_req_drive_to_bus = pycdl.wire() self.reset_driver = pycdl.timed_assign(signal=reset_n, init_value=0, wait=193, later_value=1) hw_forces = dict() hw_forces = {} bbc_drive_op = pycdl.wirebundle({ "sector_id": { "deleted_data": 1, "bad_data_crc": 1, "bad_crc": 1, "sector_length": 2, "sector_number": 6, "head": 1, "track": 7, }, "write_sector_id_enable": 1, "write_data": 32, "write_data_enable": 1, "read_data_enable": 1, "next_id": 1, "step_in": 1, "step_out": 1, }) bbc_drive_response = pycdl.wirebundle({ "sector_id": { "deleted_data": 1, "bad_data_crc": 1, "bad_crc": 1, "sector_length": 2, "sector_number": 6, "head": 1, "track": 7, }, "index": 1, "sector_id_valid": 1, "read_data_valid": 1, "read_data": 32, "track_zero": 1, "disk_ready": 1, "write_protect": 1, }) self.dut = pycdl.module( "fdc8271", clocks={ "clk": clk, }, inputs={ "reset_n": reset_n, "read_n": read_n, "write_n": write_n, "chip_select_n": chip_select_n, "address": address, "data_in": data_in, "data_ack_n": data_ack_n, "ready": ready, "track_0_n": track_0_n, "write_protect_n": write_protect_n, "index_n": index_n, "bbc_floppy_response": bbc_drive_response, }, outputs={ "data_out": data_out, "irq_n": nmi, "bbc_floppy_op": bbc_drive_op, }, forces=hw_forces, ) self.th_drive = pycdl.module( "bbc_floppy", clocks={ "clk": clk, }, inputs={ "floppy_op": bbc_drive_op, #"th_acknowledge":th_req_bus_to_drive, }, outputs={ "floppy_response": bbc_drive_response, # "th_request":th_req_drive_to_bus, }, ) self.th_bus = th_8271_bus( clocks={ "clk": clk, }, inputs={ "data_out": data_out, "nmi": nmi, }, outputs={ "read_n": read_n, "write_n": write_n, "chip_select_n": chip_select_n, "address": address, "data_in": data_in, "data_ack_n": data_ack_n, "ready": ready, "track_0_n": track_0_n, "write_protect_n": write_protect_n, "index_n": index_n, "th_request": th_req_bus_to_drive, }, ) self.th_bus.hw = self self.th_drive.hw = self thread_mapping = None pycdl.hw.__init__( self, thread_mapping=thread_mapping, children=[ self.dut, self.th_drive, self.th_bus, clk, self.reset_driver ], ) self.wave_hierarchies = [ self.dut, self.th_bus, self.th_drive, ] pass
def __init__(self): clk_2MHz = pycdl.clock(0, 5, 5) clk_1MHz_falling = pycdl.clock(0, 10, 10) reset_n = pycdl.wire() read_not_write = pycdl.wire() chip_select_n = pycdl.wire() address = pycdl.wire() data_in = pycdl.wire(8) lpstb_n = pycdl.wire() crtc_clock_enable = pycdl.wire() ma = pycdl.wire(14) ra = pycdl.wire(5) data_out = pycdl.wire(8) display_enable = pycdl.wire() cursor = pycdl.wire() hsync = pycdl.wire() vsync = pycdl.wire() th_req_bus_to_pixel = pycdl.wire() th_req_pixel_to_bus = pycdl.wire() self.reset_driver = pycdl.timed_assign(signal=reset_n, init_value=0, wait=193, later_value=1) hw_forces = dict() hw_forces = {} display = pycdl.wirebundle({ "clock_enable": 1, "hsync": 1, "vsync": 1, "pixels_per_clock": 3, "green": 8, "red": 8, "blue": 8 }) self.dut = pycdl.module( "crtc6845", clocks={ "clk_2MHz": clk_2MHz, "clk_1MHz": clk_1MHz_falling, }, inputs={ "reset_n": reset_n, "read_not_write": read_not_write, "chip_select_n": chip_select_n, "rs": address, "data_in": data_in, "lpstb_n": lpstb_n, "crtc_clock_enable": crtc_clock_enable, }, outputs={ "data_out": data_out, "ma": ma, "ra": ra, "de": display_enable, "cursor": cursor, "hsync": hsync, "vsync": vsync, }, forces=hw_forces, ) self.th_pixels = th_6845_pixels( clocks={"clk": clk_2MHz}, inputs={ "ma": ma, "ra": ra, "de": display_enable, "cursor": cursor, "hsync": hsync, "vsync": vsync, "th_acknowledge": th_req_bus_to_pixel, }, outputs={ "lpstb_n": lpstb_n, "crtc_clock_enable": crtc_clock_enable, "th_request": th_req_pixel_to_bus, }, ) self.th_bus = th_6845_bus( clocks={ "clk": clk_1MHz_falling, }, inputs={ "data_out": data_out, "th_acknowledge": th_req_pixel_to_bus, }, outputs={ "read_not_write": read_not_write, "chip_select_n": chip_select_n, "address": address, "data_in": data_in, "th_request": th_req_bus_to_pixel, }, ) self.th_bus.hw = self self.th_pixels.hw = self thread_mapping = None pycdl.hw.__init__( self, thread_mapping=thread_mapping, children=[ self.dut, self.th_pixels, self.th_bus, clk_2MHz, clk_1MHz_falling, self.reset_driver ], ) self.wave_hierarchies = [self.dut, self.th_bus, self.th_pixels] pass