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Add an invocation test with multiband case

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Signed-off-by: EstherLerouzic <esther.lerouzic@orange.com>
Change-Id: I0a98175f0c6b4333fae6bea40dac826032a25233
This commit is contained in:
EstherLerouzic
2024-09-05 16:31:13 +02:00
committed by Esther Le Rouzic
parent 64a91256fc
commit c2f6f9c6a0
5 changed files with 2691 additions and 1 deletions
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479
gnpy/example-data/eqpt_config_multiband.json Normal file
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{
"Edfa": [
{
"type_variety": "std_high_gain",
"type_def": "variable_gain",
"gain_flatmax": 35,
"gain_min": 25,
"p_max": 21,
"nf_min": 5.5,
"nf_max": 7,
"out_voa_auto": false,
"allowed_for_design": true
},
{
"type_variety": "std_medium_gain",
"type_def": "variable_gain",
"gain_flatmax": 26,
"gain_min": 15,
"p_max": 23,
"nf_min": 6,
"nf_max": 10,
"out_voa_auto": false,
"allowed_for_design": true
},
{
"type_variety": "std_low_gain",
"type_def": "variable_gain",
"gain_flatmax": 16,
"gain_min": 8,
"p_max": 23,
"nf_min": 6.5,
"nf_max": 11,
"out_voa_auto": false,
"allowed_for_design": true
},
{
"type_variety": "high_power",
"type_def": "variable_gain",
"gain_flatmax": 16,
"gain_min": 8,
"p_max": 25,
"nf_min": 9,
"nf_max": 15,
"out_voa_auto": false,
"allowed_for_design": false
},
{
"type_variety": "std_fixed_gain",
"type_def": "fixed_gain",
"gain_flatmax": 21,
"gain_min": 20,
"p_max": 21,
"nf0": 5.5,
"allowed_for_design": false
},
{
"type_variety": "4pumps_raman",
"type_def": "fixed_gain",
"gain_flatmax": 12,
"gain_min": 12,
"p_max": 21,
"nf0": -1,
"allowed_for_design": false
},
{
"type_variety": "hybrid_4pumps_lowgain",
"type_def": "dual_stage",
"raman": true,
"gain_min": 25,
"preamp_variety": "4pumps_raman",
"booster_variety": "std_low_gain",
"allowed_for_design": true
},
{
"type_variety": "hybrid_4pumps_mediumgain",
"type_def": "dual_stage",
"raman": true,
"gain_min": 25,
"preamp_variety": "4pumps_raman",
"booster_variety": "std_medium_gain",
"allowed_for_design": true
},
{
"type_variety": "medium+low_gain",
"type_def": "dual_stage",
"gain_min": 25,
"preamp_variety": "std_medium_gain",
"booster_variety": "std_low_gain",
"allowed_for_design": true
},
{
"type_variety": "medium+high_power",
"type_def": "dual_stage",
"gain_min": 25,
"preamp_variety": "std_medium_gain",
"booster_variety": "high_power",
"allowed_for_design": false
},
{
"type_variety": "std_medium_gain_C",
"f_min": 191.225e12,
"f_max": 196.125e12,
"type_def": "variable_gain",
"gain_flatmax": 26,
"gain_min": 15,
"p_max": 21,
"nf_min": 6,
"nf_max": 10,
"out_voa_auto": false,
"allowed_for_design": false
},
{
"type_variety": "std_medium_gain_L",
"f_min": 186.5e12,
"f_max": 190.1e12,
"type_def": "variable_gain",
"gain_flatmax": 26,
"gain_min": 15,
"p_max": 21,
"nf_min": 6,
"nf_max": 10,
"out_voa_auto": false,
"allowed_for_design": true
},
{
"type_variety": "std_low_gain",
"f_min": 191.25e12,
"f_max": 196.15e12,
"type_def": "variable_gain",
"gain_flatmax": 16,
"gain_min": 8,
"p_max": 21,
"nf_min": 7,
"nf_max": 11,
"out_voa_auto": false,
"allowed_for_design": true
},
{
"type_variety": "std_low_gain_reduced_band",
"f_min": 192.25e12,
"f_max": 196.15e12,
"type_def": "variable_gain",
"gain_flatmax": 16,
"gain_min": 8,
"p_max": 21,
"nf_min": 7,
"nf_max": 11,
"out_voa_auto": false,
"allowed_for_design": true
},
{
"type_variety": "std_low_gain_bis",
"f_min": 191.25e12,
"f_max": 196.15e12,
"type_def": "variable_gain",
"gain_flatmax": 16,
"gain_min": 8,
"p_max": 21,
"nf_min": 6,
"nf_max": 10,
"out_voa_auto": false,
"allowed_for_design": true
},
{
"type_variety": "std_low_gain_L_ter",
"f_min": 186.55e12,
"f_max": 190.05e12,
"type_def": "variable_gain",
"gain_flatmax": 16,
"gain_min": 8,
"p_max": 16,
"nf_min": 7,
"nf_max": 11,
"out_voa_auto": false,
"allowed_for_design": true
},
{
"type_variety": "std_low_gain_L",
"f_min": 186.55e12,
"f_max": 190.05e12,
"type_def": "variable_gain",
"gain_flatmax": 16,
"gain_min": 8,
"p_max": 21,
"nf_min": 7,
"nf_max": 11,
"out_voa_auto": false,
"allowed_for_design": true
},
{
"type_variety": "std_low_gain_L_reduced_band",
"f_min": 187.3e12,
"f_max": 190.05e12,
"type_def": "variable_gain",
"gain_flatmax": 16,
"gain_min": 8,
"p_max": 21,
"nf_min": 7,
"nf_max": 11,
"out_voa_auto": false,
"allowed_for_design": true
},
{
"type_variety": "test",
"type_def": "variable_gain",
"gain_flatmax": 25,
"gain_min": 15,
"p_max": 21,
"nf_min": 5.8,
"nf_max": 10,
"out_voa_auto": false,
"allowed_for_design": true
},
{
"type_variety": "test_fixed_gain",
"type_def": "fixed_gain",
"gain_flatmax": 21,
"gain_min": 20,
"p_max": 21,
"nf0": 5,
"allowed_for_design": true
},
{
"type_variety": "std_booster",
"type_def": "fixed_gain",
"gain_flatmax": 21,
"gain_min": 20,
"p_max": 21,
"nf0": 5,
"allowed_for_design": false
},
{
"type_variety": "std_booster_L",
"f_min": 186.55e12,
"f_max": 190.05e12,
"type_def": "fixed_gain",
"gain_flatmax": 21,
"gain_min": 20,
"p_max": 21,
"nf0": 5,
"allowed_for_design": false
},
{
"type_variety": "std_booster_multiband",
"type_def": "multi_band",
"amplifiers": [
"std_booster",
"std_booster_L"
],
"allowed_for_design": false
},
{
"type_variety": "std_medium_gain_multiband",
"type_def": "multi_band",
"amplifiers": [
"std_medium_gain_C",
"std_medium_gain_L"
],
"allowed_for_design": false
},
{
"type_variety": "std_low_gain_multiband",
"type_def": "multi_band",
"amplifiers": [
"std_low_gain",
"std_low_gain_L"
],
"allowed_for_design": false
},
{
"type_variety": "std_low_gain_multiband_ter",
"type_def": "multi_band",
"amplifiers": [
"std_low_gain",
"std_low_gain_L_ter"
],
"allowed_for_design": false
},
{
"type_variety": "std_low_gain_multiband_bis",
"type_def": "multi_band",
"amplifiers": [
"std_low_gain_bis",
"std_low_gain_L"
],
"allowed_for_design": true
},
{
"type_variety": "std_low_gain_multiband_reduced",
"type_def": "multi_band",
"amplifiers": [
"std_low_gain_reduced",
"std_low_gain_L"
],
"allowed_for_design": true
},
{
"type_variety": "std_low_gain_multiband_reduced",
"type_def": "multi_band",
"amplifiers": [
"std_low_gain_bis",
"std_low_gain_L_reduced_band"
],
"allowed_for_design": true
}
],
"Fiber": [
{
"type_variety": "SSMF",
"dispersion": 1.67e-05,
"effective_area": 83e-12,
"pmd_coef": 1.265e-15
},
{
"type_variety": "NZDF",
"dispersion": 0.5e-05,
"effective_area": 72e-12,
"pmd_coef": 1.265e-15
},
{
"type_variety": "LOF",
"dispersion": 2.2e-05,
"effective_area": 125e-12,
"pmd_coef": 1.265e-15
}
],
"RamanFiber": [
{
"type_variety": "SSMF",
"dispersion": 1.67e-05,
"effective_area": 83e-12,
"pmd_coef": 1.265e-15
}
],
"Span": [
{
"power_mode": true,
"delta_power_range_db": [
-2,
3,
0.5
],
"max_fiber_lineic_loss_for_raman": 0.25,
"target_extended_gain": 2.5,
"max_length": 150,
"length_units": "km",
"max_loss": 28,
"padding": 10,
"EOL": 0,
"con_in": 0,
"con_out": 0
}
],
"Roadm": [
{
"target_pch_out_db": -20,
"add_drop_osnr": 38,
"pmd": 0,
"pdl": 0,
"restrictions": {
"preamp_variety_list": [],
"booster_variety_list": []
}
}
],
"SI": [
{
"f_min": 191.3e12,
"baud_rate": 32e9,
"f_max": 195.1e12,
"spacing": 50e9,
"power_dbm": 0,
"power_range_db": [
0,
0,
1
],
"roll_off": 0.15,
"tx_osnr": 40,
"sys_margins": 2
},
{
"type_variety": "lband",
"f_min": 186.3e12,
"baud_rate": 32e9,
"f_max": 190.1e12,
"spacing": 50e9,
"power_dbm": 0,
"power_range_db": [
0,
0,
1
],
"roll_off": 0.15,
"tx_osnr": 40,
"sys_margins": 2
}
],
"Transceiver": [
{
"type_variety": "vendorA_trx-type1",
"frequency": {
"min": 191.35e12,
"max": 196.1e12
},
"mode": [
{
"format": "mode 1",
"baud_rate": 32e9,
"OSNR": 11,
"bit_rate": 100e9,
"roll_off": 0.15,
"tx_osnr": 40,
"min_spacing": 37.5e9,
"cost": 1
},
{
"format": "mode 2",
"baud_rate": 66e9,
"OSNR": 15,
"bit_rate": 200e9,
"roll_off": 0.15,
"tx_osnr": 40,
"min_spacing": 75e9,
"cost": 1
}
]
},
{
"type_variety": "Voyager",
"frequency": {
"min": 191.35e12,
"max": 196.1e12
},
"mode": [
{
"format": "mode 1",
"baud_rate": 32e9,
"OSNR": 12,
"bit_rate": 100e9,
"roll_off": 0.15,
"tx_osnr": 40,
"min_spacing": 37.5e9,
"cost": 1
},
{
"format": "mode 3",
"baud_rate": 44e9,
"OSNR": 18,
"bit_rate": 300e9,
"roll_off": 0.15,
"tx_osnr": 40,
"min_spacing": 62.5e9,
"cost": 1
},
{
"format": "mode 2",
"baud_rate": 66e9,
"OSNR": 21,
"bit_rate": 400e9,
"roll_off": 0.15,
"tx_osnr": 40,
"min_spacing": 75e9,
"cost": 1
},
{
"format": "mode 4",
"baud_rate": 66e9,
"OSNR": 16,
"bit_rate": 200e9,
"roll_off": 0.15,
"tx_osnr": 40,
"min_spacing": 75e9,
"cost": 1
}
]
}
]
}

1894
gnpy/example-data/multiband_example_network.json Normal file
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24
gnpy/example-data/multiband_spectrum.json Normal file
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{
"spectrum": [
{
"f_min": 191.25e12,
"baud_rate": 32e9,
"f_max": 195.1e12,
"slot_width": 50e9,
"delta_pdb": 0,
"roll_off": 0.15,
"tx_osnr": 40,
"label": "cband"
},
{
"f_min": 186.3e12,
"baud_rate": 32e9,
"f_max": 190.1e12,
"slot_width": 50e9,
"delta_pdb": 0,
"roll_off": 0.15,
"tx_osnr": 40,
"label": "lband"
}
]
}

290
tests/invocation/multiband_transmission Normal file
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User input for spectrum used for propagation instead of SI
Power mode is set to True
=> it can be modified in eqpt_config.json - Span
There are 3 fiber spans over 240 km between trx Site_A and trx Site_D
Now propagating between trx Site_A and trx Site_D:
Reference used for design: (Input optical power reference in span = 0.00dBm,
spacing = 50.00GHz
nb_channels = 76)
Channels propagating: (Input optical power deviation in span = cband: 0.00, lband: 0.00dB,
spacing = cband: 50.00, lband: 50.00GHz,
transceiver output power = cband: 0.00, lband: 0.00dBm,
nb_channels = 149)
Input optical power reference in span = 0.00 dBm:
Transceiver trx Site_A
GSNR (0.1nm, dB): cband: 40.00, lband: 40.00
GSNR (signal bw, dB): cband: 35.92, lband: 35.92
OSNR ASE (0.1nm, dB): cband: 40.00, lband: 40.00
OSNR ASE (signal bw, dB): cband: 35.92, lband: 35.92
CD (ps/nm): 0.00
PMD (ps): 0.00
PDL (dB): 0.00
Latency (ms): 0.00
Actual pch out (dBm): cband: 0.00, lband: 0.00
Roadm roadm Site_A
Type_variety: default
Reference loss (dB): 20.00
Actual loss (dB): cband: 20.00, lband: 20.00
Reference pch out (dBm): -20.00
Actual pch out (dBm): cband: -20.00, lband: -20.00
Multiband_amplifier east edfa in Site_A to Site_B
type_variety: std_medium_gain_multiband
type_variety: std_medium_gain_C type_variety: std_medium_gain_L
effective gain(dB): 20.90 effective gain(dB): 22.19
(before att_in and before output VOA) (before att_in and before output VOA)
noise figure (dB): 6.38 noise figure (dB): 6.19
(including att_in) (including att_in)
pad att_in (dB): 0.00 pad att_in (dB): 0.00
Power In (dBm): -1.08 Power In (dBm): -1.49
Power Out (dBm): 19.83 Power Out (dBm): 20.71
Delta_P (dB): 0.90 Delta_P (dB): 2.19
target pch (dBm): 0.90 target pch (dBm): 3.00
actual pch out (dBm): -2.09 actual pch out (dBm): -0.80
output VOA (dB): 3.00 output VOA (dB): 3.00
Fiber fiber (Site_A → Site_B)-
type_variety: SSMF
length (km): 75.00
pad att_in (dB): 0.00
total loss (dB): 15.00
(includes conn loss (dB) in: 0.00 out: 0.00)
(conn loss out includes EOL margin defined in eqpt_config.json)
reference pch out (dBm): -17.10
actual pch out (dBm): cband: -17.09, lband: -15.80
Multiband_amplifier east edfa in Site_B to Site_C
type_variety: std_medium_gain_multiband
type_variety: std_medium_gain_C type_variety: std_medium_gain_L
effective gain(dB): 18.00 effective gain(dB): 18.00
(before att_in and before output VOA) (before att_in and before output VOA)
noise figure (dB): 7.38 noise figure (dB): 7.38
(including att_in) (including att_in)
pad att_in (dB): 0.00 pad att_in (dB): 0.00
Power In (dBm): 1.83 Power In (dBm): 2.71
Power Out (dBm): 19.84 Power Out (dBm): 20.72
Delta_P (dB): 0.90 Delta_P (dB): 2.19
target pch (dBm): 0.90 target pch (dBm): 3.00
actual pch out (dBm): -2.09 actual pch out (dBm): -0.79
output VOA (dB): 3.00 output VOA (dB): 3.00
Fiber fiber (Site_B → Site_C)-
type_variety: SSMF
length (km): 80.00
pad att_in (dB): 0.00
total loss (dB): 16.80
(includes conn loss (dB) in: 0.00 out: 0.00)
(conn loss out includes EOL margin defined in eqpt_config.json)
reference pch out (dBm): -18.90
actual pch out (dBm): cband: -18.88, lband: -17.59
Multiband_amplifier east edfa in Site_C to Site_D
type_variety: std_medium_gain_multiband
type_variety: std_medium_gain_C type_variety: std_medium_gain_L
effective gain(dB): 19.80 effective gain(dB): 19.80
(before att_in and before output VOA) (before att_in and before output VOA)
noise figure (dB): 6.63 noise figure (dB): 6.63
(including att_in) (including att_in)
pad att_in (dB): 0.00 pad att_in (dB): 0.00
Power In (dBm): 0.04 Power In (dBm): 0.92
Power Out (dBm): 19.84 Power Out (dBm): 20.72
Delta_P (dB): 0.90 Delta_P (dB): 2.19
target pch (dBm): 0.90 target pch (dBm): 3.00
actual pch out (dBm): -2.08 actual pch out (dBm): -0.79
output VOA (dB): 3.00 output VOA (dB): 3.00
Fiber fiber (Site_C → Site_D)-
type_variety: SSMF
length (km): 85.00
pad att_in (dB): 0.00
total loss (dB): 18.70
(includes conn loss (dB) in: 0.00 out: 0.00)
(conn loss out includes EOL margin defined in eqpt_config.json)
reference pch out (dBm): -20.80
actual pch out (dBm): cband: -20.78, lband: -19.49
Multiband_amplifier west edfa in Site_D to Site_C
type_variety: std_medium_gain_multiband
type_variety: std_medium_gain_C type_variety: std_medium_gain_L
effective gain(dB): 21.70 effective gain(dB): 21.70
(before att_in and before output VOA) (before att_in and before output VOA)
noise figure (dB): 6.25 noise figure (dB): 6.25
(including att_in) (including att_in)
pad att_in (dB): 0.00 pad att_in (dB): 0.00
Power In (dBm): -1.85 Power In (dBm): -0.97
Power Out (dBm): 19.85 Power Out (dBm): 20.73
Delta_P (dB): 0.90 Delta_P (dB): 2.19
target pch (dBm): 0.90 target pch (dBm): 3.00
actual pch out (dBm): -2.07 actual pch out (dBm): -0.78
output VOA (dB): 3.00 output VOA (dB): 3.00
Roadm roadm Site_D
Type_variety: default
Reference loss (dB): 17.90
Actual loss (dB): cband: 17.93, lband: 19.22
Reference pch out (dBm): -20.00
Actual pch out (dBm): cband: -20.00, lband: -20.00
Transceiver trx Site_D
GSNR (0.1nm, dB): cband: 24.89, lband: 25.36
GSNR (signal bw, dB): cband: 20.80, lband: 21.28
OSNR ASE (0.1nm, dB): cband: 25.55, lband: 26.51
OSNR ASE (signal bw, dB): cband: 21.47, lband: 22.43
CD (ps/nm): 4008.00
PMD (ps): 0.62
PDL (dB): 0.00
Latency (ms): 1.18
Actual pch out (dBm): cband: 0.00, lband: 0.00
Transmission result for input optical power reference in span = 0.00 dBm:
Final GSNR (0.1 nm): 25.11 dB
The GSNR per channel at the end of the line is:
Ch. # Channel frequency (THz) Channel power (dBm) OSNR ASE (signal bw, dB) SNR NLI (signal bw, dB) GSNR (signal bw, dB)
1 186.55000 -20.03 22.46 29.10 21.61
2 186.60000 -20.03 22.46 28.59 21.51
3 186.65000 -20.03 22.46 28.36 21.47
4 186.70000 -20.03 22.46 28.22 21.44
5 186.75000 -20.03 22.46 28.12 21.41
6 186.80000 -20.03 22.46 28.04 21.40
7 186.85000 -20.03 22.46 27.98 21.38
8 186.90000 -20.03 22.45 27.92 21.37
9 186.95000 -20.03 22.45 27.88 21.36
10 187.00000 -20.03 22.45 27.84 21.35
11 187.05000 -20.03 22.45 27.80 21.34
12 187.10000 -20.03 22.45 27.77 21.33
13 187.15000 -20.03 22.45 27.74 21.32
14 187.20000 -20.03 22.45 27.71 21.32
15 187.25000 -20.03 22.45 27.69 21.31
16 187.30000 -20.03 22.45 27.67 21.31
17 187.35000 -20.03 22.45 27.65 21.30
18 187.40000 -20.03 22.44 27.63 21.29
19 187.45000 -20.03 22.44 27.61 21.29
20 187.50000 -20.03 22.44 27.60 21.29
21 187.55000 -20.03 22.44 27.58 21.28
22 187.60000 -20.03 22.44 27.57 21.28
23 187.65000 -20.03 22.44 27.55 21.27
24 187.70000 -20.03 22.44 27.54 21.27
25 187.75000 -20.03 22.44 27.53 21.27
26 187.80000 -20.03 22.44 27.52 21.26
27 187.85000 -20.03 22.44 27.51 21.26
28 187.90000 -20.03 22.43 27.50 21.26
29 187.95000 -20.03 22.43 27.49 21.25
30 188.00000 -20.03 22.43 27.48 21.25
31 188.05000 -20.03 22.43 27.47 21.25
32 188.10000 -20.03 22.43 27.47 21.25
33 188.15000 -20.03 22.43 27.46 21.24
34 188.20000 -20.03 22.43 27.45 21.24
35 188.25000 -20.03 22.43 27.45 21.24
36 188.30000 -20.03 22.43 27.44 21.24
37 188.35000 -20.03 22.43 27.44 21.23
38 188.40000 -20.03 22.42 27.43 21.23
39 188.45000 -20.03 22.42 27.43 21.23
40 188.50000 -20.03 22.42 27.43 21.23
41 188.55000 -20.03 22.42 27.42 21.23
42 188.60000 -20.03 22.42 27.42 21.23
43 188.65000 -20.03 22.42 27.42 21.23
44 188.70000 -20.03 22.42 27.42 21.22
45 188.75000 -20.03 22.42 27.42 21.22
46 188.80000 -20.03 22.42 27.42 21.22
47 188.85000 -20.03 22.41 27.42 21.22
48 188.90000 -20.03 22.41 27.42 21.22
49 188.95000 -20.03 22.41 27.42 21.22
50 189.00000 -20.03 22.41 27.43 21.22
51 189.05000 -20.03 22.41 27.43 21.22
52 189.10000 -20.03 22.41 27.44 21.22
53 189.15000 -20.03 22.41 27.44 21.22
54 189.20000 -20.03 22.41 27.45 21.22
55 189.25000 -20.03 22.41 27.46 21.23
56 189.30000 -20.03 22.41 27.46 21.23
57 189.35000 -20.03 22.40 27.47 21.23
58 189.40000 -20.03 22.40 27.49 21.23
59 189.45000 -20.03 22.40 27.50 21.23
60 189.50000 -20.03 22.40 27.51 21.24
61 189.55000 -20.03 22.40 27.53 21.24
62 189.60000 -20.03 22.40 27.55 21.24
63 189.65000 -20.03 22.40 27.58 21.25
64 189.70000 -20.03 22.40 27.60 21.25
65 189.75000 -20.03 22.40 27.63 21.26
66 189.80000 -20.03 22.40 27.67 21.27
67 189.85000 -20.03 22.39 27.72 21.28
68 189.90000 -20.03 22.39 27.78 21.29
69 189.95000 -20.03 22.39 27.86 21.31
70 190.00000 -20.03 22.39 27.97 21.33
71 190.05000 -20.03 22.39 28.21 21.38
72 191.25000 -20.03 21.51 28.66 20.74
73 191.30000 -20.03 21.51 28.96 20.79
74 191.35000 -20.03 21.51 29.16 20.82
75 191.40000 -20.03 21.50 29.32 20.84
76 191.45000 -20.03 21.50 29.51 20.87
77 191.50000 -20.03 21.50 29.75 20.90
78 191.55000 -20.03 21.50 30.22 20.95
79 191.60000 -20.03 21.50 30.96 21.03
80 191.65000 -20.03 21.50 30.46 20.98
81 191.70000 -20.03 21.50 30.23 20.95
82 191.75000 -20.03 21.50 30.08 20.93
83 191.80000 -20.03 21.50 29.97 20.92
84 191.85000 -20.03 21.50 29.88 20.91
85 191.90000 -20.03 21.49 29.81 20.90
86 191.95000 -20.03 21.49 29.75 20.89
87 192.00000 -20.03 21.49 29.70 20.88
88 192.05000 -20.03 21.49 29.65 20.87
89 192.10000 -20.03 21.49 29.61 20.87
90 192.15000 -20.03 21.49 29.57 20.86
91 192.20000 -20.03 21.49 29.54 20.86
92 192.25000 -20.03 21.49 29.50 20.85
93 192.30000 -20.03 21.49 29.47 20.85
94 192.35000 -20.03 21.49 29.44 20.84
95 192.40000 -20.03 21.48 29.42 20.84
96 192.45000 -20.03 21.48 29.39 20.83
97 192.50000 -20.03 21.48 29.37 20.83
98 192.55000 -20.03 21.48 29.35 20.82
99 192.60000 -20.03 21.48 29.33 20.82
100 192.65000 -20.03 21.48 29.31 20.82
101 192.70000 -20.03 21.48 29.29 20.81
102 192.75000 -20.03 21.48 29.27 20.81
103 192.80000 -20.03 21.48 29.25 20.81
104 192.85000 -20.03 21.47 29.23 20.80
105 192.90000 -20.03 21.47 29.22 20.80
106 192.95000 -20.03 21.47 29.20 20.80
107 193.00000 -20.03 21.47 29.18 20.79
108 193.05000 -20.03 21.47 29.17 20.79
109 193.10000 -20.03 21.47 29.16 20.79
110 193.15000 -20.03 21.47 29.14 20.78
111 193.20000 -20.03 21.47 29.13 20.78
112 193.25000 -20.03 21.47 29.12 20.78
113 193.30000 -20.03 21.47 29.10 20.78
114 193.35000 -20.03 21.46 29.09 20.77
115 193.40000 -20.03 21.46 29.08 20.77
116 193.45000 -20.03 21.46 29.07 20.77
117 193.50000 -20.03 21.46 29.06 20.77
118 193.55000 -20.03 21.46 29.05 20.76
119 193.60000 -20.03 21.46 29.04 20.76
120 193.65000 -20.03 21.46 29.03 20.76
121 193.70000 -20.03 21.46 29.02 20.76
122 193.75000 -20.03 21.46 29.01 20.75
123 193.80000 -20.03 21.46 29.00 20.75
124 193.85000 -20.03 21.45 28.99 20.75
125 193.90000 -20.03 21.45 28.99 20.75
126 193.95000 -20.03 21.45 28.98 20.75
127 194.00000 -20.03 21.45 28.97 20.74
128 194.05000 -20.03 21.45 28.97 20.74
129 194.10000 -20.03 21.45 28.96 20.74
130 194.15000 -20.03 21.45 28.96 20.74
131 194.20000 -20.03 21.45 28.96 20.74
132 194.25000 -20.03 21.45 28.95 20.74
133 194.30000 -20.03 21.45 28.95 20.74
134 194.35000 -20.03 21.44 28.95 20.73
135 194.40000 -20.03 21.44 28.95 20.73
136 194.45000 -20.03 21.44 28.95 20.73
137 194.50000 -20.03 21.44 28.96 20.73
138 194.55000 -20.03 21.44 28.96 20.73
139 194.60000 -20.03 21.44 28.97 20.73
140 194.65000 -20.03 21.44 28.98 20.73
141 194.70000 -20.03 21.44 28.99 20.74
142 194.75000 -20.03 21.44 29.01 20.74
143 194.80000 -20.03 21.44 29.04 20.74
144 194.85000 -20.03 21.43 29.07 20.74
145 194.90000 -20.03 21.43 29.12 20.75
146 194.95000 -20.03 21.43 29.18 20.76
147 195.00000 -20.03 21.43 29.28 20.77
148 195.05000 -20.03 21.43 29.44 20.79
149 195.10000 -20.03 21.43 29.84 20.84
(Invalid source node 'Site_A' replaced with trx Site_A)
(Invalid destination node 'Site_D' replaced with trx Site_D)

5
tests/test_invocation.py
View File

@@ -36,7 +36,10 @@ SRC_ROOT = Path(__file__).parent.parent
('transmission_long_psd', None, transmission_main_example,
['-e', 'tests/data/eqpt_config_psd.json', 'tests/data/test_long_network.json', '--spectrum', 'gnpy/example-data/initial_spectrum2.json', ]),
('transmission_long_psw', None, transmission_main_example,
['-e', 'tests/data/eqpt_config_psw.json', 'tests/data/test_long_network.json', '--spectrum', 'gnpy/example-data/initial_spectrum2.json', ])
['-e', 'tests/data/eqpt_config_psw.json', 'tests/data/test_long_network.json', '--spectrum', 'gnpy/example-data/initial_spectrum2.json', ]),
('multiband_transmission', None, transmission_main_example,
['gnpy/example-data/multiband_example_network.json', 'Site_A', 'Site_D', '-e', 'gnpy/example-data/eqpt_config_multiband.json',
'--spectrum', 'gnpy/example-data/multiband_spectrum.json', '--show-channels'])
))
def test_example_invocation(capfd, caplog, output, log, handler, args):
"""Make sure that our examples produce useful output"""