Python ADP.from_jsonの例

コード例 #1

def exec_adp(args):
    board =  board = runtime_util \
                     .get_device(args.model_number,layout=True)

    with open(args.adp, 'r') as fh:
        adp = ADP.from_json(board, \
                            json.loads(fh.read()))

    model_number = adp.metadata[ADPMetadata.Keys.RUNTIME_PHYS_DB]
    board.model_number = model_number

    prog_name = adp.metadata.get(ADPMetadata.Keys.DSNAME)
    program = dsproglib.DSProgDB.get_prog(prog_name)
    sim = dsproglib.DSProgDB.get_sim(prog_name)
    if not args.osc:
        osc = None
    else:
        osc = osclib.Sigilent1020XEOscilloscope(configlib.OSC_IP, \
                                                configlib.OSC_PORT)
        osc.setup()

    sim_time = sim.sim_time
    if args.runtime:
        assert (args.runtime <= program.max_time)
        sim_time = args.runtime

    runtime = grendel_runner_lib.GrendelRunner()
    runtime.initialize()
    for conn in adp.conns:
        sblk = board.get_block(conn.source_inst.block)
        dblk = board.get_block(conn.dest_inst.block)
        llcmd.set_conn(runtime,sblk,conn.source_inst.loc, \
                       conn.source_port, \
                       dblk,conn.dest_inst.loc, \
                       conn.dest_port)

    for cfg in adp.configs:
        blk = board.get_block(cfg.inst.block)
        resp = llcmd.set_state(runtime, \
                               board,
                               blk, \
                               cfg.inst.loc, \
                               adp)

        if blk.name == 'lut':
            llcmd.write_lut(runtime, \
                            board, \
                            blk, \
                            cfg.inst.loc, \
                            adp)

    llcmd.execute_simulation(runtime,board, \
                             program, adp,\
                             sim_time=sim_time, \
                             osc=osc, \
                             manual=False)
    runtime.close()

コード例 #2

ファイル: legno_util.py プロジェクト: sendyne/legno-compiler

def exec_lemul(args):
    from compiler import lsim

    path_handler = paths.PathHandler(args.subset, args.program)
    program = DSProgDB.get_prog(args.program)
    timer = util.Timer('emul', path_handler)

    if args.unscaled:
        direc = path_handler.lgraph_adp_dir()
    else:
        direc = path_handler.lscale_adp_dir()

    board = get_device(None)
    for dirname, subdirlist, filelist in \
        os.walk(direc):
        for adp_file in filelist:
            if adp_file.endswith('.adp'):
                with open(dirname + "/" + adp_file, 'r') as fh:
                    print("===== %s =====" % (adp_file))
                    adp = ADP.from_json(board, \
                                        json.loads(fh.read()))

                    if args.unscaled:
                        for cfg in adp.configs:
                            cfg.modes = [cfg.modes[0]]
                        plot_file = path_handler.adp_sim_plot(
                            paths.PlotType.SIMULATION, \
                            adp.metadata[ADPMetadata.Keys.DSNAME],
                            adp.metadata[ADPMetadata.Keys.LGRAPH_ID],
                            'na',
                            'na',
                            'na', \
                            per_variable=args.separate_figures)

                    else:
                        plot_file = path_handler.adp_sim_plot(
                            paths.PlotType.SIMULATION, \
                            adp.metadata[ADPMetadata.Keys.DSNAME],
                            adp.metadata[ADPMetadata.Keys.LGRAPH_ID],
                            adp.metadata[ADPMetadata.Keys.LSCALE_ID],
                            adp.metadata[ADPMetadata.Keys.LSCALE_SCALE_METHOD],
                            adp.metadata[ADPMetadata.Keys.LSCALE_OBJECTIVE], \
                            per_variable=args.separate_figures)

                    print(plot_file)

                    board = get_device(
                        adp.metadata[ADPMetadata.Keys.RUNTIME_PHYS_DB])
                    lsim.simulate_adp(board,adp,plot_file, \
                                      enable_quantization=not args.no_quantize, \
                                      enable_intervals=not args.no_operating_range, \
                                      enable_physical_model= not args.no_physdb, \
                                      enable_model_error =not args.no_model_error, \
                                      separate_figures=args.separate_figures)

コード例 #3

def test_osc(args):
    board = runtime_util \
            .get_device(args.model_number,layout=False)

    with open(args.adp, 'r') as fh:
        adp = ADP.from_json(board, \
                            json.loads(fh.read()))

    prog_name = adp.metadata.get(ADPMetadata.Keys.DSNAME)
    program = dsproglib.DSProgDB.get_prog(prog_name)
    if not args.osc:
        osc = osclib.DummySigilent1020XEOscilloscope()
    else:
        osc = osclib.Sigilent1020XEOscilloscope(configlib.OSC_IP, \
                                                configlib.OSC_PORT)
        osc.setup()

    sim_time = program.max_time
    if args.runtime:
        sim_time = args.runtime

    llcmd.test_oscilloscope(board, osc, program, adp, sim_time)

コード例 #4

ファイル: legno_util.py プロジェクト: sendyne/legno-compiler

def exec_lexec(args):
    EXEC_CMD = "python3 grendel.py exec {adp_path} --model-number {model_number}"
    if args.scope:
        EXEC_CMD += " --osc"

    board = get_device(None)
    path_handler = paths.PathHandler(args.subset, args.program)
    program = DSProgDB.get_prog(args.program)
    timer = util.Timer('lexec', path_handler)
    for dirname, subdirlist, filelist in \
        os.walk(path_handler.lscale_adp_dir()):
        for adp_file in filelist:
            if adp_file.endswith('.adp'):
                adp_path = dirname + "/" + adp_file
                print(adp_path)
                with open(adp_path, 'r') as fh:
                    print("===== %s =====" % (adp_file))
                    adp = ADP.from_json(board, \
                                        json.loads(fh.read()))
                    kwargs = {
                        'adp_path':
                        adp_path,
                        'model_number':
                        adp.metadata[ADPMetadata.Keys.RUNTIME_PHYS_DB]
                    }
                    if not _lexec_already_ran(path_handler,board,adp,trial=0, \
                                              scope=args.scope) or \
                       args.force:
                        timer.start()
                        cmd = EXEC_CMD.format(**kwargs)
                        code = os.system(cmd)
                        timer.end()
                        #input("continue")
                        if code == signal.SIGINT or code != 0:
                            raise Exception("User terminated process")

        print(timer)
        timer.save()

コード例 #5

ファイル: legno_util.py プロジェクト: sendyne/legno-compiler

def exec_wav(args, trials=1):
    import compiler.lwav_pass.waveform as wavelib
    import compiler.lwav_pass.analyze as analyzelib

    path_handler = paths.PathHandler(args.subset, \
                                     args.program)
    program = DSProgDB.get_prog(args.program)

    # bin summary plots
    summary = {}
    summary_key = lambda adp : (
        adp.metadata[ADPMetadata.Keys.RUNTIME_CALIB_OBJ], \
        adp.metadata[ADPMetadata.Keys.LSCALE_SCALE_METHOD], \
        adp.metadata[ADPMetadata.Keys.LSCALE_OBJECTIVE], \
        adp.metadata[ADPMetadata.Keys.RUNTIME_PHYS_DB], \
        adp.metadata[ADPMetadata.Keys.LSCALE_NO_SCALE], \
        adp.metadata[ADPMetadata.Keys.LSCALE_ONE_MODE])

    def update_summary(adp, var, wave, has_scope=False):
        key = (summary_key(adp), var, has_scope)
        if not key in summary:
            summary[key] = []

        summary[key].append((adp, wave))

    assert (not args.scope_only or not args.adc_only)
    if args.scope_only:
        scope_options = [True]
    elif args.adc_only:
        scope_options = [False]
    else:
        scope_options = [True, False]

    for dirname, subdirlist, filelist in \
        os.walk(path_handler.lscale_adp_dir()):
        for adp_file in filelist:
            if adp_file.endswith('.adp'):
                with open(dirname + "/" + adp_file, 'r') as fh:
                    print("===== %s =====" % (adp_file))
                    adp_obj = json.loads(fh.read())
                    metadata = ADPMetadata.from_json(adp_obj['metadata'])
                    if not metadata.has(ADPMetadata.Keys.RUNTIME_PHYS_DB) or \
                       not metadata.has(ADPMetadata.Keys.RUNTIME_CALIB_OBJ):
                        continue

                    board = get_device(
                        metadata.get(ADPMetadata.Keys.RUNTIME_PHYS_DB))
                    adp = ADP.from_json(board, adp_obj)
                    calib_obj = llenums.CalibrateObjective(
                        adp.metadata[ADPMetadata.Keys.RUNTIME_CALIB_OBJ])
                    for trial in range(trials):
                        for var, _, _ in adp.observable_ports(board):
                            for has_scope in scope_options:
                                print("------- %s [has_scope=%s] ----" %
                                      (adp_file, has_scope))
                                waveform_file = path_handler.measured_waveform_file( \
                                                                                     graph_index=adp.metadata[ADPMetadata.Keys.LGRAPH_ID],
                                                                                     scale_index=adp.metadata[ADPMetadata.Keys.LSCALE_ID],
                                                                                     model=adp.metadata[ADPMetadata.Keys.LSCALE_SCALE_METHOD],
                                                                                     calib_obj=calib_obj, \
                                                                                     opt=adp.metadata[ADPMetadata.Keys.LSCALE_OBJECTIVE], \
                                                                                     phys_db=adp.metadata[ADPMetadata.Keys.RUNTIME_PHYS_DB] , \
                                                                                     no_scale=adp.metadata[ADPMetadata.Keys.LSCALE_NO_SCALE], \
                                                                                     one_mode=adp.metadata[ADPMetadata.Keys.LSCALE_ONE_MODE], \
                                                                                     variable=var, \
                                                                                     trial=trial, \
                                                                                     oscilloscope=has_scope)

                                if os.path.exists(waveform_file):
                                    with open(waveform_file, 'r') as fh:
                                        obj = util.decompress_json(fh.read())
                                        wave = wavelib.Waveform.from_json(obj)
                                        adp = ADP.from_json(board, adp_obj)
                                        update_summary(adp,
                                                       var,
                                                       wave,
                                                       has_scope=has_scope)
                                        for vis in analyzelib.plot_waveform(board,adp,wave, \
                                                                            emulate=args.emulate, \
                                                                            measured=args.measured):
                                            plot_file = path_handler.waveform_plot_file( \
                                                                                         graph_index=adp.metadata[ADPMetadata.Keys.LGRAPH_ID],
                                                                                         scale_index=adp.metadata[ADPMetadata.Keys.LSCALE_ID],
                                                                                         model=adp.metadata[ADPMetadata.Keys.LSCALE_SCALE_METHOD],
                                                                                         calib_obj=calib_obj, \
                                                                                         opt=adp.metadata[ADPMetadata.Keys.LSCALE_OBJECTIVE], \
                                                                                         phys_db=adp.metadata[ADPMetadata.Keys.RUNTIME_PHYS_DB],  \
                                                                                         no_scale=adp.metadata[ADPMetadata.Keys.LSCALE_NO_SCALE], \
                                                                                         one_mode=adp.metadata[ADPMetadata.Keys.LSCALE_ONE_MODE], \
                                                                                         variable=var, \
                                                                                         trial=trial, \
                                                                                         plot=vis.name, \
                                                                                         oscilloscope=has_scope)

                                            vis.plot(plot_file)

        if args.summary_plots:
            for (fields, var, has_scope), data in summary.items():
                adps = list(map(lambda d: d[0], data))
                waveforms = list(map(lambda d: d[1], data))
                board = get_device(adps[0].metadata.get(
                    ADPMetadata.Keys.RUNTIME_PHYS_DB))
                for vis in analyzelib.plot_waveform_summaries(
                        board, adps, waveforms):
                    adp = data[0][0]
                    calib_obj = llenums.CalibrateObjective(
                        adp.metadata[ADPMetadata.Keys.RUNTIME_CALIB_OBJ])
                    plot_file = path_handler.summary_plot_file( \
                                                                model=adp.metadata[ADPMetadata.Keys.LSCALE_SCALE_METHOD],
                                                                calib_obj=calib_obj, \
                                                                opt=adp.metadata[ADPMetadata.Keys.LSCALE_OBJECTIVE], \
                                                                phys_db=adp.metadata[ADPMetadata.Keys.RUNTIME_PHYS_DB], \
                                                                variable=var, \
                                                                plot=vis.name, \
                                                                oscilloscope=has_scope, \
                                                                no_scale=adp.metadata[ADPMetadata.Keys.LSCALE_NO_SCALE], \
                                                                one_mode=adp.metadata[ADPMetadata.Keys.LSCALE_ONE_MODE])
                    vis.plot(plot_file)

コード例 #6

ファイル: legno_util.py プロジェクト: sendyne/legno-compiler

def exec_stats(args, trials=1):
    import compiler.lwav_pass.waveform as wavelib
    import compiler.lwav_pass.analyze as analyzelib

    error_key = lambda adp : (
        adp.metadata[ADPMetadata.Keys.RUNTIME_CALIB_OBJ], \
        adp.metadata[ADPMetadata.Keys.LSCALE_SCALE_METHOD], \
        adp.metadata[ADPMetadata.Keys.LSCALE_OBJECTIVE], \
        adp.metadata[ADPMetadata.Keys.RUNTIME_PHYS_DB], \
        adp.metadata[ADPMetadata.Keys.LSCALE_NO_SCALE], \
        adp.metadata[ADPMetadata.Keys.LSCALE_ONE_MODE])

    error_summary = {}

    def update_error(adp, error):
        key = error_key(adp)
        if not key in error_summary:
            error_summary[key] = []

        error_summary[key].append(error)


    path_handler = paths.PathHandler(args.subset, \
                                     args.program)
    program = DSProgDB.get_prog(args.program)
    scope_options = [True, False]

    if args.runtimes_only:
        print("------------ runtime ----------------")
        print_runtime_stats(path_handler)
        return

    error = None
    best_adp = None
    best_adp_name = None


    for dirname, subdirlist, filelist in \
        os.walk(path_handler.lscale_adp_dir()):
        for adp_file in filelist:
            if adp_file.endswith('.adp'):
                with open(dirname + "/" + adp_file, 'r') as fh:
                    print("===== %s =====" % (adp_file))
                    adp_obj = json.loads(fh.read())
                    metadata = ADPMetadata.from_json(adp_obj['metadata'])
                    if not metadata.has(ADPMetadata.Keys.RUNTIME_PHYS_DB) or \
                       not metadata.has(ADPMetadata.Keys.RUNTIME_CALIB_OBJ):
                        continue

                    board = get_device(
                        metadata.get(ADPMetadata.Keys.RUNTIME_PHYS_DB))
                    adp = ADP.from_json(board, adp_obj)
                    calib_obj = llenums.CalibrateObjective(
                        adp.metadata[ADPMetadata.Keys.RUNTIME_CALIB_OBJ])
                    for trial in range(trials):
                        for var, _, _ in adp.observable_ports(board):
                            for has_scope in scope_options:
                                print("------- %s [has_scope=%s] ----" %
                                      (adp_file, has_scope))
                                waveform_file = path_handler.measured_waveform_file( \
                                                                                     graph_index=adp.metadata[ADPMetadata.Keys.LGRAPH_ID],
                                                                                     scale_index=adp.metadata[ADPMetadata.Keys.LSCALE_ID],
                                                                                     model=adp.metadata[ADPMetadata.Keys.LSCALE_SCALE_METHOD],
                                                                                     calib_obj=calib_obj, \
                                                                                     opt=adp.metadata[ADPMetadata.Keys.LSCALE_OBJECTIVE], \
                                                                                     phys_db=adp.metadata[ADPMetadata.Keys.RUNTIME_PHYS_DB] , \
                                                                                     no_scale=adp.metadata[ADPMetadata.Keys.LSCALE_NO_SCALE], \
                                                                                     one_mode=adp.metadata[ADPMetadata.Keys.LSCALE_ONE_MODE], \
                                                                                     variable=var, \
                                                                                     trial=trial, \
                                                                                     oscilloscope=has_scope)

                                if os.path.exists(waveform_file):
                                    with open(waveform_file, 'r') as fh:
                                        obj = util.decompress_json(fh.read())
                                        wave = wavelib.Waveform.from_json(obj)
                                        this_error = analyzelib.get_waveform_error(
                                            board, adp, wave)
                                        if this_error is None:
                                            continue

                                        update_error(adp, this_error)
                                        if error is None or this_error < error:
                                            error = this_error
                                            best_adp = adp
                                            best_adp_name = adp_file

    print("============ BEST EXECUTION SUMMARY ========")
    print(best_adp_name)
    print(
        "----------------------------------------------------------------------------"
    )
    analyzelib.print_summary(board, best_adp, error)
    print("------------ runtime ----------------")
    print_runtime_stats(path_handler)

    print("============ AVERAGE EXECUTION SUMMARY ========")
    for key, errors in error_summary.items():
        median = np.median(errors)
        q1 = np.percentile(errors, 25)
        med = np.percentile(errors, 50)
        q3 = np.percentile(errors, 75)
        min_err = min(errors)
        max_err = max(errors)

        print("%s min=%f q1=%f med=%f q3=%f max=%f n=%d" %
              (key, min_err, q1, med, q3, max_err, len(errors)))

コード例 #7

ファイル: legno_util.py プロジェクト: sendyne/legno-compiler

def exec_lscale(args):
    from compiler import lscale
    import compiler.lscale_pass.lscale_ops as scalelib

    board = get_device(args.model_number)
    path_handler = paths.PathHandler(args.subset, args.program)
    program = DSProgDB.get_prog(args.program)
    timer = util.Timer('lscale', path_handler)
    for dirname, subdirlist, filelist in \
        os.walk(path_handler.lgraph_adp_dir()):
        for lgraph_adp_file in filelist:
            if lgraph_adp_file.endswith('.adp'):
                with open(dirname + "/" + lgraph_adp_file, 'r') as fh:
                    print("===== %s =====" % (lgraph_adp_file))
                    adp = ADP.from_json(board, \
                                        json.loads(fh.read()))

                obj = scalelib.ObjectiveFun(args.objective)
                scale_method = scalelib.ScaleMethod(args.scale_method)
                calib_obj = get_calibrate_objective(args.calib_obj)

                if args.no_scale and not scale_method is scalelib.ScaleMethod.IDEAL:
                    raise Exception(
                        "cannot disable scaling transform if you're using the delta model database"
                    )

                timer.start()
                for idx,scale_adp in enumerate(lscale.scale(board, \
                                                            program, \
                                                            adp, \
                                                            objective=obj, \
                                                            scale_method=scale_method, \
                                                            calib_obj=calib_obj, \
                                                            no_scale=args.no_scale, \
                                                            one_mode=args.one_mode)):
                    timer.end()

                    print("<<< writing scaled circuit %d/%d>>>" %
                          (idx, args.scale_adps))
                    scale_adp.metadata.set(ADPMetadata.Keys.LSCALE_ID, idx)

                    calib_obj = llenums.CalibrateObjective(scale_adp \
                                                       .metadata[ADPMetadata.Keys.RUNTIME_CALIB_OBJ])
                    filename = path_handler.lscale_adp_file(
                        scale_adp.metadata[ADPMetadata.Keys.LGRAPH_ID],
                        scale_adp.metadata[ADPMetadata.Keys.LSCALE_ID],
                        scale_adp.metadata[ADPMetadata.Keys.LSCALE_SCALE_METHOD],
                        scale_adp.metadata[ADPMetadata.Keys.LSCALE_OBJECTIVE],
                        calib_obj,
                        scale_adp.metadata[ADPMetadata.Keys.RUNTIME_PHYS_DB], \
                        no_scale=scale_adp.metadata[ADPMetadata.Keys.LSCALE_NO_SCALE], \
                        one_mode=scale_adp.metadata[ADPMetadata.Keys.LSCALE_ONE_MODE] \
                    )

                    with open(filename, 'w') as fh:
                        jsondata = scale_adp.to_json()
                        fh.write(json.dumps(jsondata, indent=4))

                    print("<<< writing graph >>>")
                    filename = path_handler.lscale_adp_diagram_file(
                        scale_adp.metadata[ADPMetadata.Keys.LGRAPH_ID],
                        scale_adp.metadata[ADPMetadata.Keys.LSCALE_ID],
                        scale_adp.metadata[ADPMetadata.Keys.LSCALE_SCALE_METHOD],
                        scale_adp.metadata[ADPMetadata.Keys.LSCALE_OBJECTIVE],
                        calib_obj,
                        scale_adp.metadata[ADPMetadata.Keys.RUNTIME_PHYS_DB], \
                        no_scale=scale_adp.metadata[ADPMetadata.Keys.LSCALE_NO_SCALE], \
                        one_mode=scale_adp.metadata[ADPMetadata.Keys.LSCALE_ONE_MODE] \
                    )

                    adprender.render(board, scale_adp, filename)
                    if idx >= args.scale_adps:
                        break
                    timer.start()

    print("<<< done >>>")
    timer.kill()
    print(timer)
    timer.save()