for j in range(len(list_nets_bp)):
if (
list_comp_bb[i][0] == list_comp_bp[j][0] and
list_comp_bb[i][1] == list_comp_bp[j][1]
):
row.append(list_nets_bb[i])
row.append("-".join(list_comp_bb[i]))
row.append(list_nets_bp[j])
mirror_bb_to_mirror_bp_map.append(row)
# THE ABOVE WORKS ALTHOUGH IT SAYS THAT SOME NETS GO TO GROUND WHEN THEY
# SHOULDN'T As of now, I know that the "..._2V5_SENSE_..." lines all go to GND
# when they actually don't These all go to "GND" because they have ""ClassName"
# "NetTie"" listed underneath their net names
#################
# Output to csv #
#################
# Mirror Custom Telemetry BB -> Mirror Backplane (short?) ######################
write_to_csv(
mirror_bb_to_bp_mapping_filename,
mirror_bb_to_mirror_bp_map,
["Mirror Telemetry BB net", "Telemetry BB connector",
"Mirror Backplane net"],
)
list_nets_inner_bb = list(
map(lambda x: x.replace(' ', ''), inner_bb_ref.values()))
list_comp_bp = list(mirror_bp_ref.keys())
list_nets_bp = list(mirror_bp_ref.values())
inner_bb_to_mirror_bp_map = []
for i in range(len(list_nets_inner_bb)):
row = []
for j in range(len(list_nets_bp)):
if (list_comp_inner_bb[i][0] == list_comp_bp[j][0]
and list_comp_inner_bb[i][1] == list_comp_bp[j][1]):
row.append(list_nets_inner_bb[i])
row.append("-".join(list_comp_inner_bb[i]))
row.append(list_nets_bp[j])
inner_bb_to_mirror_bp_map.append(row)
#################
# Output to csv #
#################
# Inner BB -> Mirror Backplane (short?) ########################################
write_to_csv(
inner_bb_to_mirror_bp_mapping_filename,
inner_bb_to_mirror_bp_map,
["Inner BB net", "Inner BB connector", "Mirror Backplane net"],
)
row.append(
jpu_cable_length(jpu, var_attrs['cable_length'],
var_attrs['cable_length_adj']))
if first_run:
headers_csv.append('Length [cm]')
headers_tex.append(makecell('Length', '[cm]'))
var_attrs['data'].append(row)
#################
# Write to file #
#################
headers_tex += [
'Cut',
makecell('Crimp', 'P2B2'), 'Label',
makecell('Crimp', 'PPP'), 'Check'
]
for _, attrs in output_spec.items():
for _, var_attrs in attrs.items():
data = sorted(var_attrs['data'], key=lambda x: ppp_sort(x[0]))
filename = var_attrs['filename']
title = var_attrs['title']
color = var_attrs['color']
write_to_csv(output_dir / Path(filename + '.csv'), data, headers_csv)
write_to_latex_ppp(output_dir / Path(filename + '.tex'), title, data,
headers_tex, color)
####################
# Make connections #
####################
# Pathfinder -> COMET -> COMET DB -> COMET #####################################
comet_ufl_data = []
for ufl_pin, comet_pin in path_finder_ufl_to_comet.items():
row = []
fpga_pin = comet_j1_j2_duo_to_fpga[comet_pin]
row.append('-'.join(fpga_pin))
row.append('-'.join(comet_pin))
row.append('-'.join(ufl_pin))
comet_ufl_data.append(row)
comet_ufl_data.sort(key=lambda x: int(x[2].split('-')[0][1:]))
#################
# Output to csv #
#################
# COMET FPGA -> Pathfinder U.FL, full ##########################################
write_to_csv(comet_pf_mapping_filename, comet_ufl_data, [
'COMET FPGA pin', 'Pathfinder COMET connector', 'Pathfinder U.FL connector'
])
list_nets_bp = list(true_bp_ref.values())
inner_bb_to_true_bp_map = []
for i in range(len(list_nets_inner_bb)):
row = []
for j in range(len(list_nets_bp)):
if (
list_comp_inner_bb[i][0] == list_comp_bp[j][0] and
list_comp_inner_bb[i][1] == list_comp_bp[j][1]
):
row.append(list_nets_inner_bb[i])
row.append("-".join(list_comp_inner_bb[i]))
row.append(list_nets_bp[j])
inner_bb_to_true_bp_map.append(row)
#################
# Output to csv #
#################
# Inner BB -> True Backplane (short?) ##########################################
write_to_csv(
inner_bb_to_true_bp_mapping_filename,
inner_bb_to_true_bp_map,
["Inner BB net", "Inner BB connector",
"True Backplane net"],
)
# Debug
# for rule in pt_rules_true:
# rule.debug_node = NetNode('JD1', 'C3', 'JP0', 'F8')
PtSelectorTrue = SelectorPD(pt_descr_true, pt_rules_true)
pt_result_true = PtSelectorTrue.do()
DcbSelectorTrue = SelectorPD(dcb_descr_true, dcb_rules_true)
dcb_result_true = DcbSelectorTrue.do()
# See if we have any unused rule
# for rule in pt_rules+dcb_rules:
# print('The rule {} has been used {} times'.format(
# rule.__class__.__name__, rule.counter))
write_to_csv(pt_true_output_filename, pt_result_true, csv_line)
write_to_csv(dcb_true_output_filename, dcb_result_true, csv_line)
###############################################
# Generate True-type backplane auxiliary list #
###############################################
pt_result_true_depop_aux = aux_dict_gen(pt_result_true)
write_to_file(pt_result_true_depop_aux_output_filename,
aux_output_gen(pt_result_true_depop_aux,
'Aux PT list for True-type'))
########################
row.reverse()
comet_dcb_data.append(row)
#################
# Output to csv #
#################
# Debug: COMET -> COMET DB -> COMET ############################################
comet_j1_j2_fpga_data = [('-'.join(k), '-'.join(v))
for k, v in comet_j1_j2_to_fpga.items()]
comet_j1_j2_fpga_data.sort(key=lambda x: re.sub(r'-(\d)$', r'-0\g<1>', x[0]))
write_to_csv(debug_comet_mapping_filename, comet_j1_j2_fpga_data,
['COMET connector', 'COMET FPGA'])
# Debug: DCB -> Pathfinder #####################################################
dcb_gbtxs_path_finder_comet_data = [
(dcb_ref[k], '-'.join(k), '-'.join(v))
for k, v in dcb_gbtxs_to_path_finder_comet.items()
]
# Make sure '1' appears before '10' and '11'
dcb_gbtxs_path_finder_comet_data.sort(
key=lambda x: re.sub(r'CH(\d)_', r'CH0\g<1>_', x[0]))
write_to_csv(debug_dcb_path_finder_mapping_filename,
dcb_gbtxs_path_finder_comet_data,
['Signal ID', 'DCB data GBTx pin', 'Pathfinder COMET connector'])
elif (elk_data[3000]['dcb_idx'] != '11' or elk_data[3000]['DC_OUT_RCLK'] != '0'
or elk_data[3000]['stv_bp'] != 'X-2-S'
or elk_data[3000]['stv_ut'] != 'UTbX_6A'
or elk_data[3000]['bp_var'] != 'beta'
or elk_data[3000]['bp_idx'] != 'middle'
or elk_data[3000]['bp_type'] != 'm'):
raise ValueError('Unit test failed: {}'.format(elk_data[3000]))
# Write to csv
else:
write_to_csv(
mapping_output_filename, elk_data, {
'PEPI': 'pepi',
'Stave': 'stv_ut',
'Flex': 'stv_bp',
'Hybrid': 'hybrid',
'ASIC index': 'asic_idx',
'BP variant (alpha/beta/gamma)': 'bp_var',
'BP index (inner/middle/outer)': 'bp_idx',
'BP type (true/mirrored)': 'bp_type',
'DCB index': 'dcb_idx',
'GBTx index': 'gbtx_idx',
'GBTx channels (GBT frame bytes)': 'gbtx_chs',
'DC_OUT_RCLK': 'DC_OUT_RCLK',
'MC_TFC': 'MC_TFC',
'EC_HYB_I2C_SCL': 'EC_HYB_I2C_SCL',
'EC_HYB_I2C_SDA': 'EC_HYB_I2C_SDA',
'EC_RESET_GPIO': 'EC_RESET_GPIO',
'EC_ADC': 'EC_ADC'
})
