Transforming XML file: NeuroMLFiles/Examples/NetworkML/Cerebellum.xml using XSL file: NeuroMLFiles/Schemata/v1.8.1/Level3/NeuroML_Level3_v1.8.1_HTML.xsl

View original file before transform

Converting the file: Cerebellum.xml

NeuroML Level 3 file

General notes Complete network structure generated with project: Ex6_CerebellumDemo saved with neuroConstruct v1.4.1 on: 15:48:08, 12-Nov-10 Cell Group: PurkinjeCells contains 4 cells Cell Group: GranuleCells contains 80 cells Cell Group: MossyFibers contains 12 cells Network connection: NetConn_2 contains 34 individual synaptic connections Network connection: NetConn_1 contains 319 individual synaptic connections

Cell: PurkinjeCell

NamePurkinjeCell
Description
As described in the NeuroML file
A very simplified Purkinje Cell for testing purposes only
Total number of segments42
Total number of cables42 with 1 soma cable(s), 40 dendritic cable(s) and 1 axonal cable(s)
Cable details Soma (id:0), number of segments in cable: 1
  This cable is present in groups: all  soma_group  

AxonSec (id:1), fraction along parent cable: 0.5, number of segments in cable: 1
  This cable is present in groups: all  axon_group  

DendRootSec (id:2), fraction along parent cable: 0.5, number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

DendSec1 (id:3), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

DendSec2 (id:4), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

DendSec3 (id:5), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

Dend_4_Sec (id:6), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

Dend_5_Sec (id:7), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

Dend_6_Sec (id:8), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

Dend_7_Sec (id:9), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

Dend_8_Sec (id:10), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

Dend_9_Sec (id:11), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

Dend_10_Sec (id:12), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

Dend_11_Sec (id:13), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

Dend_12_Sec (id:14), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  

Dend_13_Sec (id:15), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_14_Sec (id:16), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_15_Sec (id:17), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_16_Sec (id:18), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_17_Sec (id:19), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_18_Sec (id:20), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_19_Sec (id:21), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_20_Sec (id:22), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_21_Sec (id:23), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_22_Sec (id:24), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_23_Sec (id:25), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_24_Sec (id:26), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_25_Sec (id:27), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_26_Sec (id:28), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_27_Sec (id:29), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_28_Sec (id:30), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_29_Sec (id:31), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_30_Sec (id:32), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_31_Sec (id:33), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_32_Sec (id:34), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_33_Sec (id:35), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_34_Sec (id:36), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_35_Sec (id:37), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_36_Sec (id:38), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_37_Sec (id:39), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_38_Sec (id:40), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Dend_39_Sec (id:41), number of segments in cable: 1
  This cable is present in groups: all  dendrite_group  main_dends  

Biophysical properties of cell: PurkinjeCell

Unit system of biophysical entities
This can be either SI Units or Physiological Units
Physiological Units
Channel Mechanism: NaConductance
An active membrane conductance

Conductance density (gmax) of 120.0 mS cm-2 on: axon_group dendrite_group soma_group 

Channel Mechanism: KConductance
An active membrane conductance

Conductance density (gmax) of 36.0 mS cm-2 on: axon_group soma_group dendrite_group 

Channel Mechanism: PassiveCond
An active membrane conductance
This is a Passive Conductance and so conductance density (gmax) and reversal potential (e) should be sufficient parameters to specify the mechanism fully.

Reversal potential (e) of -54.3 mV on: axon_group soma_group dendrite_group 

Conductance density (gmax) of 0.3 mS cm-2 on: axon_group soma_group dendrite_group 

Specific Capacitance
This is the capacitance per unit area of the membrane

Specific Capacitance of 1.0 uf/cm2 on: all 

Specific Axial Resistance
This is the specific cytoplasmic resistance along a dendrite/axon

Specific Axial Resistance of 0.03 Kohm cm on: all 

Initial Membrane Potential
This quantity is often required for computational simulations and specifies the potential difference across the membrane at the start of the simulation.

Initial Membrane Potential -65.0 mV on: all 

Cell: GranuleCell

NameGranuleCell
Description
As described in the NeuroML file
A very simplified cerebellar Granule like Cell for testing purposes only
Total number of segments26
Total number of cables4 with 1 soma cable(s), 0 dendritic cable(s) and 3 axonal cable(s)
Cable details Soma (id:0), number of segments in cable: 1
  This cable is present in groups: all  soma_group  

mainAxonSection (id:1), fraction along parent cable: 0.5, number of segments in cable: 1
  This cable is present in groups: all  axon_group  ascending_segment  

parallelFiberPos (id:2), number of segments in cable: 12
  This cable is present in groups: all  axon_group  parallel_fibers  

parallelFiberNeg (id:3), number of segments in cable: 12
  This cable is present in groups: all  axon_group  parallel_fibers  

Biophysical properties of cell: GranuleCell

Unit system of biophysical entities
This can be either SI Units or Physiological Units
Physiological Units
Channel Mechanism: NaConductance
An active membrane conductance

Conductance density (gmax) of 120.0 mS cm-2 on: soma_group axon_group 

Channel Mechanism: PassiveCond
An active membrane conductance
This is a Passive Conductance and so conductance density (gmax) and reversal potential (e) should be sufficient parameters to specify the mechanism fully.

Reversal potential (e) of -54.3 mV on: axon_group soma_group 

Conductance density (gmax) of 0.3 mS cm-2 on: axon_group soma_group 

Channel Mechanism: KConductance
An active membrane conductance

Conductance density (gmax) of 36.0 mS cm-2 on: all 

Specific Capacitance
This is the capacitance per unit area of the membrane

Specific Capacitance of 1.0 uf/cm2 on: all 

Specific Axial Resistance
This is the specific cytoplasmic resistance along a dendrite/axon

Specific Axial Resistance of 0.02 Kohm cm on: all 

Initial Membrane Potential
This quantity is often required for computational simulations and specifies the potential difference across the membrane at the start of the simulation.

Initial Membrane Potential -65.0 mV on: all 

Cell: MossyFiber

NameMossyFiber
Description
As described in the NeuroML file
A simple cell for testing purposes only
Total number of segments1
Total number of cables1 with 1 soma cable(s), 0 dendritic cable(s) and 0 axonal cable(s)
Cable details Soma (id:0), number of segments in cable: 1
  This cable is present in groups: all  soma_group  

Biophysical properties of cell: MossyFiber

Unit system of biophysical entities
This can be either SI Units or Physiological Units
Physiological Units
Channel Mechanism: NaConductance
An active membrane conductance

Conductance density (gmax) of 120.0 mS cm-2 on: all 

Channel Mechanism: PassiveCond
An active membrane conductance
This is a Passive Conductance and so conductance density (gmax) and reversal potential (e) should be sufficient parameters to specify the mechanism fully.

Reversal potential (e) of -54.3 mV on: all 

Conductance density (gmax) of 0.3 mS cm-2 on: all 

Channel Mechanism: KConductance
An active membrane conductance

Conductance density (gmax) of 36.0 mS cm-2 on: all 

Specific Capacitance
This is the capacitance per unit area of the membrane

Specific Capacitance of 1.0 uf/cm2 on: all 

Specific Axial Resistance
This is the specific cytoplasmic resistance along a dendrite/axon

Specific Axial Resistance of 0.03 Kohm cm on: all 

Initial Membrane Potential
This quantity is often required for computational simulations and specifies the potential difference across the membrane at the start of the simulation.

Initial Membrane Potential -65.0 mV on: all 


Channel: KConductance

NameKConductance
Status
Status of element in file
Stable
Comment: Equations adapted from HH paper for modern convention of external potential being zero
Contributor: Padraig Gleeson
Description
As described in the ChannelML file
Simple example of K conductance in squid giant axon. Based on channel from Hodgkin and Huxley 1952
Authors
Translators of the model to NeuroML:
   Padraig Gleeson  (UCL)  p.gleeson - at - ucl.ac.uk
Referenced publicationA. L. Hodgkin and A. F. Huxley, A quantitative description of membrane current and its application to conduction and excitation in nerve, J. Physiol., vol. 117, pp. 500-544, 1952. Pubmed
Reference in NeuronDB K channels
Current voltage relationshipohmic
Ion involved in channel
The ion which is actually flowing through the channel and its default reversal potential. Note that the reversal potential will normally depend on the internal and external concentrations of the ion at the segment on which the channel is placed.
k (default Ek = -77.0)
Default maximum conductance density
Note that the conductance density of the channel will be set when it is placed on the cell.
Gmax = 36
Conductance expression
Expression giving the actual conductance as a function of time and voltage
Gk(v,t) = Gmax * n(v,t) 4
Current due to channel
Ionic current through the channel
Ik(v,t) = Gk(v,t) * (v - Ek)


Gate: n

The equations below determine the dynamics of gating state n

Instances of gating elements4
Closed staten0
Open staten
 
    Transition: alpha from n0 to n
Expressionalpha(v) = A*((v-V1/2)/B) / (1 - exp(-(v-V1/2)/B))    (exp_linear)
Parameter values A = 0.1   B = 10   V1/2 = -55
Substituted
alpha(v) = 0.1 * ( v - (-55)) / 10
1- e -(( v - (-55)) / 10)
 
    Transition: beta from n to n0
Expressionbeta(v) = A*exp((v-V1/2)/B)    (exponential)
Parameter values A = 0.125   B = -80   V1/2 = -65
Substituted beta(v) = 0.125 * e (v - (-65))/-80


Channel: NaConductance

NameNaConductance
Status
Status of element in file
Stable
Comment: Equations adapted from HH paper for modern convention of external potential being zero
Contributor: Padraig Gleeson
Description
As described in the ChannelML file
Simple example of Na conductance in squid giant axon. Based on channel from Hodgkin and Huxley 1952
Authors
Translators of the model to NeuroML:
   Padraig Gleeson  (UCL)  p.gleeson - at - ucl.ac.uk
Referenced publicationA. L. Hodgkin and A. F. Huxley, A quantitative description of membrane current and its application to conduction and excitation in nerve, J. Physiol., vol. 117, pp. 500-544, 1952. Pubmed
Reference in NeuronDB Na channels
Current voltage relationshipohmic
Ion involved in channel
The ion which is actually flowing through the channel and its default reversal potential. Note that the reversal potential will normally depend on the internal and external concentrations of the ion at the segment on which the channel is placed.
na (default Ena = 50)
Default maximum conductance density
Note that the conductance density of the channel will be set when it is placed on the cell.
Gmax = 120
Conductance expression
Expression giving the actual conductance as a function of time and voltage
Gna(v,t) = Gmax * m(v,t) 3 * h(v,t)
Current due to channel
Ionic current through the channel
Ina(v,t) = Gna(v,t) * (v - Ena)


Gate: m

The equations below determine the dynamics of gating state m

Instances of gating elements3
Closed statem0
Open statem
 
    Transition: alpha from m0 to m
Expressionalpha(v) = A*((v-V1/2)/B) / (1 - exp(-(v-V1/2)/B))    (exp_linear)
Parameter values A = 1   B = 10   V1/2 = -40
Substituted
alpha(v) = 1 * ( v - (-40)) / 10
1- e -(( v - (-40)) / 10)
 
    Transition: beta from m to m0
Expressionbeta(v) = A*exp((v-V1/2)/B)    (exponential)
Parameter values A = 4   B = -18   V1/2 = -65
Substituted beta(v) = 4 * e (v - (-65))/-18


Gate: h

The equations below determine the dynamics of gating state h

Instances of gating elements1
Closed stateh0
Open stateh
 
    Transition: alpha from h0 to h
Expressionalpha(v) = A*exp((v-V1/2)/B)    (exponential)
Parameter values A = 0.07   B = -20   V1/2 = -65
Substituted alpha(v) = 0.07 * e (v - (-65))/-20
 
    Transition: beta from h to h0
Expressionbeta(v) = A / (1 + exp((v-V1/2)/B))    (sigmoid)
Parameter values A = 1   B = -10   V1/2 = -35
Substituted
beta(v) = 1
1+ e ( v - (-35))/-10


Channel: PassiveCond

NamePassiveCond
Status
Status of element in file
Stable
Description
As described in the ChannelML file
Simple example of a leak/passive conductance. Note: for GENESIS cells with a single leak conductance, it is better to use the Rm and Em variables for a passive current.
Current voltage relationshipohmic
Ion involved in channel
The ion which is actually flowing through the channel and its default reversal potential. Note that the reversal potential will normally depend on the internal and external concentrations of the ion at the segment on which the channel is placed.
non_specific (default Enon_specific = -54.3)
Default maximum conductance density
Note that the conductance density of the channel will be set when it is placed on the cell.
Gmax = 0.3
Conductance expression
Expression giving the actual conductance as a function of time and voltage
Gnon_specific(v,t) = Gmax
Current due to channel
Ionic current through the channel
Inon_specific(v,t) = Gnon_specific(v,t) * (v - Enon_specific)


Synapse: GranPurkSyn

NameGranPurkSyn
Status
Status of element in file
Stable
Contributor: Padraig Gleeson
Description
As described in ChannelML file
Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as double exponential function of time. Mappings exist for NEURON and GENESIS.
Reference in NeuronDB Receptor properties

Synaptic Mechanism Model: Double Exponential Synapse

The model underlying the synaptic mechanism

Expression for conductance
G(t) = max_conductance * A * ( e-t/decay_time - e-t/rise_time )    for t >= 0
 
where the normalisation factor is:
A = 1
e-peak_time / decay_time - e -peak_time / rise_time
and the time to reach max conductance is:
peak_time = (decay_time * rise_time)/(decay_time - rise_time) * ln(decay_time/rise_time)
 
Note that if rise_time = 0 this simplifies to a single exponential synapse:
G(t) = max_conductance * e-t/decay_time    for t >= 0
 
Note also if decay_time = rise_time = alpha_time, the waveform is for an alpha synapse with peak at alpha_time:
G(t) = max_conductance * (t/alpha_time) * e( 1 - t/alpha_time)    for t >= 0
Maximum conductance
The peak conductance which the synapse will reach
1.0E-5
Rise time
Characteristic time (tau) over which the double exponential synaptic conductance rises
1
Decay time
Characteristic time (tau) over which the double exponential synaptic conductance decays
2
Reversal potential
The effective reversal potential for the ion flow through the synapse when the conductance is non zero
0

Synapse: MFExtSynInput

NameMFExtSynInput
Status
Status of element in file
Stable
Contributor: Padraig Gleeson
Description
As described in ChannelML file
Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as double exponential function of time. Mappings exist for NEURON and GENESIS.
Reference in NeuronDB Receptor properties

Synaptic Mechanism Model: Double Exponential Synapse

The model underlying the synaptic mechanism

Expression for conductance
G(t) = max_conductance * A * ( e-t/decay_time - e-t/rise_time )    for t >= 0
 
where the normalisation factor is:
A = 1
e-peak_time / decay_time - e -peak_time / rise_time
and the time to reach max conductance is:
peak_time = (decay_time * rise_time)/(decay_time - rise_time) * ln(decay_time/rise_time)
 
Note that if rise_time = 0 this simplifies to a single exponential synapse:
G(t) = max_conductance * e-t/decay_time    for t >= 0
 
Note also if decay_time = rise_time = alpha_time, the waveform is for an alpha synapse with peak at alpha_time:
G(t) = max_conductance * (t/alpha_time) * e( 1 - t/alpha_time)    for t >= 0
Maximum conductance
The peak conductance which the synapse will reach
1.0E-5
Rise time
Characteristic time (tau) over which the double exponential synaptic conductance rises
1
Decay time
Characteristic time (tau) over which the double exponential synaptic conductance decays
2
Reversal potential
The effective reversal potential for the ion flow through the synapse when the conductance is non zero
0

Synapse: MFGranSyn

NameMFGranSyn
Status
Status of element in file
Stable
Contributor: Padraig Gleeson
Description
As described in ChannelML file
Simple example of a synaptic mechanism, which consists of a postsynaptic conductance which changes as double exponential function of time. Mappings exist for NEURON and GENESIS.
Reference in NeuronDB Receptor properties

Synaptic Mechanism Model: Double Exponential Synapse

The model underlying the synaptic mechanism

Expression for conductance
G(t) = max_conductance * A * ( e-t/decay_time - e-t/rise_time )    for t >= 0
 
where the normalisation factor is:
A = 1
e-peak_time / decay_time - e -peak_time / rise_time
and the time to reach max conductance is:
peak_time = (decay_time * rise_time)/(decay_time - rise_time) * ln(decay_time/rise_time)
 
Note that if rise_time = 0 this simplifies to a single exponential synapse:
G(t) = max_conductance * e-t/decay_time    for t >= 0
 
Note also if decay_time = rise_time = alpha_time, the waveform is for an alpha synapse with peak at alpha_time:
G(t) = max_conductance * (t/alpha_time) * e( 1 - t/alpha_time)    for t >= 0
Maximum conductance
The peak conductance which the synapse will reach
1.0E-5
Rise time
Characteristic time (tau) over which the double exponential synaptic conductance rises
1
Decay time
Characteristic time (tau) over which the double exponential synaptic conductance decays
2
Reversal potential
The effective reversal potential for the ion flow through the synapse when the conductance is non zero
0

Populations:

NamePurkinjeCells
Cell Type PurkinjeCell
4 Instances

0: (41.261436, 175.1424, 25.993956)

1: (56.538643, 175.33643, 72.58327)

2: (100.14729, 171.9631, 135.45625)

3: (135.83664, 182.98042, 74.09731)


NameGranuleCells
Cell Type GranuleCell
80 Instances

0: (107.02374, 121.485916, 91.10286)

1: (4.241979, 108.98858, 140.28923)

2: (159.99239, 141.94998, 159.25055)

3: (124.464226, 114.13905, 106.14999)

4: (105.19489, 126.27188, 69.58654)

5: (114.71178, 111.2985, 170.78282)

6: (118.34822, 120.27904, 66.95463)

7: (72.95196, 108.96474, 49.65154)

8: (156.42418, 107.54989, 179.35872)

9: (15.474653, 126.3287, 161.23093)

10: (29.505169, 115.13949, 15.88757)

11: (5.9028983, 121.4711, 19.558466)

12: (190.76637, 116.18141, 65.42543)

13: (91.66632, 125.047646, 167.1962)

14: (11.101103, 118.45605, 178.68623)

15: (13.389635, 109.995766, 191.50966)

16: (118.19781, 111.206924, 123.58568)

17: (49.93445, 116.03375, 134.05193)

18: (92.79664, 142.53789, 154.45499)

19: (133.89108, 140.04535, 24.718512)

20: (193.89917, 111.429665, 119.58438)

21: (71.31654, 122.334946, 82.538795)

22: (124.38958, 124.600555, 158.53119)

23: (18.446148, 111.51222, 148.73225)

24: (181.44736, 112.505455, 115.04623)

25: (59.27787, 131.69005, 27.1747)

26: (114.61287, 136.7044, 179.42441)

27: (5.967176, 104.22027, 25.703442)

28: (167.27518, 119.34697, 40.42071)

29: (81.650185, 139.2074, 127.79579)

30: (140.59135, 105.35709, 174.43591)

31: (66.844086, 110.20682, 66.64664)

32: (168.19313, 117.420654, 189.21156)

33: (129.54436, 137.82819, 173.92815)

34: (167.6006, 105.31904, 67.317154)

35: (155.24164, 134.10178, 46.72178)

36: (186.43399, 142.02852, 165.92824)

37: (112.483894, 134.4075, 167.01106)

38: (87.02755, 117.65797, 61.78844)

39: (17.63984, 138.40637, 57.508873)

40: (97.79366, 120.412, 120.31905)

41: (48.067688, 116.887115, 181.44717)

42: (80.31694, 119.12372, 28.94056)

43: (90.49547, 131.36436, 91.42899)

44: (39.82749, 123.24493, 132.63937)

45: (96.34586, 117.33074, 132.65443)

46: (69.50996, 136.67899, 175.25975)

47: (33.16034, 140.02826, 159.74664)

48: (146.70097, 106.217926, 84.72572)

49: (96.99844, 143.35355, 87.15019)

50: (151.29974, 111.66215, 69.14942)

51: (177.81662, 122.30807, 18.530357)

52: (18.418396, 119.12175, 32.554783)

53: (11.502457, 110.30625, 16.708065)

54: (56.868374, 136.80933, 34.865547)

55: (139.02022, 139.43451, 62.781334)

56: (93.1241, 132.9153, 8.746159)

57: (190.92465, 145.91199, 78.70644)

58: (86.31348, 105.264465, 34.296143)

59: (154.22023, 144.27272, 17.375374)

60: (150.12096, 143.48065, 121.837234)

61: (180.57314, 131.18338, 24.968756)

62: (142.48914, 139.99402, 132.88919)

63: (187.19879, 122.77453, 120.59411)

64: (103.99371, 123.20065, 17.94299)

65: (4.532337, 128.09647, 172.43076)

66: (72.607056, 136.97351, 125.70519)

67: (126.83296, 121.92607, 83.77863)

68: (42.344273, 140.59073, 67.957565)

69: (109.607605, 121.163155, 63.15435)

70: (59.824707, 118.558136, 130.56053)

71: (175.25818, 109.78545, 41.185463)

72: (170.64993, 126.225555, 122.20228)

73: (160.78119, 135.56699, 175.70776)

74: (34.61758, 126.90509, 154.75903)

75: (99.44202, 118.37175, 105.9867)

76: (127.88949, 109.02963, 164.15895)

77: (114.9217, 112.12839, 143.66676)

78: (76.645874, 136.14731, 69.710014)

79: (109.34162, 131.12886, 40.61892)


NameMossyFibers
Cell Type MossyFiber
12 Instances

0: (70.2289, 120.24364, 30.645716)

1: (47.584427, 119.26786, 59.428345)

2: (9.169579, 118.72729, 148.84941)

3: (19.288301, 106.60551, 180.31474)

4: (111.8756, 111.08951, 57.15567)

5: (85.5893, 114.63592, 70.40726)

6: (78.86597, 118.29763, 181.79903)

7: (189.90996, 114.36488, 27.652693)

8: (53.250862, 109.81876, 112.12268)

9: (173.9157, 119.6647, 51.760803)

10: (27.811087, 115.194565, 65.43498)

11: (78.91027, 108.92818, 146.0377)



Projections:

Units
Unit system used in synapse properties, etc. below
Physiological Units

Projection NetConn_2
From: GranuleCells
To: PurkinjeCells
Synaptic properties

Type: GranPurkSyn

Delay: 7.5 ms (internal)

Weight: 1.0

Threshold: -20.0 mV

34 connection instance(s):

0: From segment 13 (fract along: 0.36687317) on source cell 2 to segment 20 (fract along: 0.28193006) on target cell 2, delay: 7.8440523 ms (internal), delay: 0.024289507 ms (AP propagation component), weight: 1.0

1: From segment 23 (fract along: 0.77138364) on source cell 3 to segment 40 (fract along: 0.5805964) on target cell 0, delay: 5.5018253 ms (internal), delay: 0.036789324 ms (AP propagation component), weight: 1.0

2: From segment 9 (fract along: 0.6708061) on source cell 4 to segment 22 (fract along: 0.11663598) on target cell 1, delay: 9.558109 ms (internal), delay: 0.019927585 ms (AP propagation component), weight: 1.0

3: From segment 13 (fract along: 0.5643204) on source cell 6 to segment 17 (fract along: 0.34588012) on target cell 1, delay: 5.211806 ms (internal), delay: 0.01603544 ms (AP propagation component), weight: 1.0

4: From segment 3 (fract along: 0.779994) on source cell 7 to segment 31 (fract along: 0.15777251) on target cell 1, delay: 5.852788 ms (internal), delay: 0.01140906 ms (AP propagation component), weight: 1.0

5: From segment 24 (fract along: 0.61167145) on source cell 10 to segment 33 (fract along: 0.008343506) on target cell 3, delay: 8.292252 ms (internal), delay: 0.020927517 ms (AP propagation component), weight: 1.0

6: From segment 12 (fract along: 0.15826264) on source cell 11 to segment 32 (fract along: 0.9218504) on target cell 1, delay: 5.041514 ms (internal), delay: 0.035149377 ms (AP propagation component), weight: 1.0

7: From segment 13 (fract along: 0.43263626) on source cell 12 to segment 19 (fract along: 0.32633242) on target cell 3, delay: 8.720006 ms (internal), delay: 0.02344846 ms (AP propagation component), weight: 1.0

8: From segment 8 (fract along: 0.086603165) on source cell 17 to segment 23 (fract along: 0.030300409) on target cell 2, delay: 8.368681 ms (internal), delay: 0.019675367 ms (AP propagation component), weight: 1.0

9: From segment 8 (fract along: 0.32502785) on source cell 18 to segment 40 (fract along: 0.95542) on target cell 3, delay: 5.5606337 ms (internal), delay: 0.025401562 ms (AP propagation component), weight: 1.0

10: From segment 21 (fract along: 0.5462433) on source cell 19 to segment 18 (fract along: 0.37960184) on target cell 0, delay: 5.3103585 ms (internal), delay: 0.010918916 ms (AP propagation component), weight: 1.0

11: From segment 22 (fract along: 0.21203156) on source cell 21 to segment 21 (fract along: 0.04074219) on target cell 3, delay: 9.666783 ms (internal), delay: 0.037727997 ms (AP propagation component), weight: 1.0

12: From segment 13 (fract along: 0.36670837) on source cell 24 to segment 41 (fract along: 0.35229957) on target cell 3, delay: 8.951364 ms (internal), delay: 0.025770588 ms (AP propagation component), weight: 1.0

13: From segment 4 (fract along: 0.61964) on source cell 27 to segment 19 (fract along: 0.36009276) on target cell 0, delay: 6.660762 ms (internal), delay: 0.034025714 ms (AP propagation component), weight: 1.0

14: From segment 14 (fract along: 0.5509316) on source cell 29 to segment 38 (fract along: 0.6334138) on target cell 3, delay: 9.027112 ms (internal), delay: 0.015939329 ms (AP propagation component), weight: 1.0

15: From segment 13 (fract along: 0.94788665) on source cell 30 to segment 37 (fract along: 0.13289075) on target cell 2, delay: 9.7253895 ms (internal), delay: 0.019967945 ms (AP propagation component), weight: 1.0

16: From segment 14 (fract along: 0.35115662) on source cell 31 to segment 20 (fract along: 0.4185048) on target cell 3, delay: 8.162335 ms (internal), delay: 0.036432624 ms (AP propagation component), weight: 1.0

17: From segment 9 (fract along: 0.92798156) on source cell 37 to segment 21 (fract along: 0.5322113) on target cell 2, delay: 6.100678 ms (internal), delay: 0.034754906 ms (AP propagation component), weight: 1.0

18: From segment 12 (fract along: 0.01654892) on source cell 38 to segment 31 (fract along: 0.1745772) on target cell 3, delay: 8.633591 ms (internal), delay: 0.015932841 ms (AP propagation component), weight: 1.0

19: From segment 10 (fract along: 0.7439041) on source cell 40 to segment 43 (fract along: 0.19406958) on target cell 3, delay: 7.5610423 ms (internal), delay: 0.013138742 ms (AP propagation component), weight: 1.0

20: From segment 7 (fract along: 0.12624359) on source cell 43 to segment 36 (fract along: 0.6101709) on target cell 1, delay: 6.1137524 ms (internal), delay: 0.017482594 ms (AP propagation component), weight: 1.0

21: From segment 5 (fract along: 0.9887711) on source cell 54 to segment 21 (fract along: 0.45785522) on target cell 0, delay: 8.65623 ms (internal), delay: 0.0045935814 ms (AP propagation component), weight: 1.0

22: From segment 8 (fract along: 0.10124741) on source cell 56 to segment 26 (fract along: 0.63961464) on target cell 3, delay: 5.819563 ms (internal), delay: 0.020198349 ms (AP propagation component), weight: 1.0

23: From segment 13 (fract along: 0.08904342) on source cell 58 to segment 25 (fract along: 0.20234615) on target cell 0, delay: 5.975034 ms (internal), delay: 0.026037904 ms (AP propagation component), weight: 1.0

24: From segment 13 (fract along: 0.49057618) on source cell 59 to segment 26 (fract along: 0.83823115) on target cell 1, delay: 5.0550027 ms (internal), delay: 0.03924583 ms (AP propagation component), weight: 1.0

25: From segment 9 (fract along: 0.67674714) on source cell 61 to segment 30 (fract along: 0.20149659) on target cell 3, delay: 9.866747 ms (internal), delay: 0.02225924 ms (AP propagation component), weight: 1.0

26: From segment 7 (fract along: 0.82620585) on source cell 62 to segment 21 (fract along: 0.28328857) on target cell 2, delay: 6.7406344 ms (internal), delay: 0.02341903 ms (AP propagation component), weight: 1.0

27: From segment 10 (fract along: 0.9188011) on source cell 66 to segment 43 (fract along: 0.29000214) on target cell 3, delay: 5.713471 ms (internal), delay: 0.0153526645 ms (AP propagation component), weight: 1.0

28: From segment 4 (fract along: 0.7826408) on source cell 67 to segment 20 (fract along: 0.34576264) on target cell 3, delay: 8.853335 ms (internal), delay: 0.020179644 ms (AP propagation component), weight: 1.0

29: From segment 10 (fract along: 0.14028855) on source cell 68 to segment 23 (fract along: 0.44988725) on target cell 1, delay: 6.318696 ms (internal), delay: 0.025115168 ms (AP propagation component), weight: 1.0

30: From segment 4 (fract along: 0.9293499) on source cell 69 to segment 18 (fract along: 0.22961304) on target cell 3, delay: 9.972057 ms (internal), delay: 0.015027483 ms (AP propagation component), weight: 1.0

31: From segment 10 (fract along: 0.64467925) on source cell 70 to segment 19 (fract along: 0.26142716) on target cell 2, delay: 7.0537987 ms (internal), delay: 0.009962609 ms (AP propagation component), weight: 1.0

32: From segment 5 (fract along: 0.52536696) on source cell 75 to segment 28 (fract along: 0.5547621) on target cell 2, delay: 7.465122 ms (internal), delay: 0.021566594 ms (AP propagation component), weight: 1.0

33: From segment 18 (fract along: 0.9836151) on source cell 78 to segment 24 (fract along: 0.2641809) on target cell 3, delay: 5.842962 ms (internal), delay: 0.031365767 ms (AP propagation component), weight: 1.0


Projection NetConn_1
From: MossyFibers
To: GranuleCells
Synaptic properties

Type: MFGranSyn

Delay: 7.5 ms (internal)

Weight: 1.0

Threshold: -20.0 mV

319 connection instance(s):

0: From source cell 4 to target cell 0, delay: 9.280033 ms (internal), delay: 0.03450181 ms (AP propagation component), weight: 1.0

1: From source cell 5 to target cell 0, delay: 8.629876 ms (internal), delay: 0.030060086 ms (AP propagation component), weight: 1.0

2: From source cell 8 to target cell 0, delay: 8.393944 ms (internal), delay: 0.058833834 ms (AP propagation component), weight: 1.0

3: From source cell 11 to target cell 0, delay: 8.350593 ms (internal), delay: 0.061771333 ms (AP propagation component), weight: 1.0

4: From source cell 2 to target cell 1, delay: 6.600554 ms (internal), delay: 0.02267297 ms (AP propagation component), weight: 1.0

5: From source cell 5 to target cell 1, delay: 7.9818854 ms (internal), delay: 0.109380655 ms (AP propagation component), weight: 1.0

6: From source cell 3 to target cell 1, delay: 9.650412 ms (internal), delay: 0.042866107 ms (AP propagation component), weight: 1.0

7: From source cell 8 to target cell 1, delay: 6.5184846 ms (internal), delay: 0.056635756 ms (AP propagation component), weight: 1.0

8: From source cell 11 to target cell 2, delay: 9.775034 ms (internal), delay: 0.08352788 ms (AP propagation component), weight: 1.0

9: From source cell 6 to target cell 2, delay: 9.809787 ms (internal), delay: 0.084853955 ms (AP propagation component), weight: 1.0

10: From source cell 9 to target cell 2, delay: 6.328673 ms (internal), delay: 0.1084767 ms (AP propagation component), weight: 1.0

11: From source cell 4 to target cell 2, delay: 6.9920835 ms (internal), delay: 0.113487735 ms (AP propagation component), weight: 1.0

12: From source cell 4 to target cell 3, delay: 5.3498793 ms (internal), delay: 0.050617654 ms (AP propagation component), weight: 1.0

13: From source cell 5 to target cell 3, delay: 8.728533 ms (internal), delay: 0.05338222 ms (AP propagation component), weight: 1.0

14: From source cell 11 to target cell 3, delay: 6.473112 ms (internal), delay: 0.06085442 ms (AP propagation component), weight: 1.0

15: From source cell 5 to target cell 4, delay: 9.692696 ms (internal), delay: 0.019962832 ms (AP propagation component), weight: 1.0

16: From source cell 0 to target cell 4, delay: 9.031643 ms (internal), delay: 0.052416157 ms (AP propagation component), weight: 1.0

17: From source cell 1 to target cell 4, delay: 9.1359215 ms (internal), delay: 0.05850326 ms (AP propagation component), weight: 1.0

18: From source cell 8 to target cell 5, delay: 5.6408997 ms (internal), delay: 0.08513408 ms (AP propagation component), weight: 1.0

19: From source cell 6 to target cell 5, delay: 7.8099365 ms (internal), delay: 0.039161306 ms (AP propagation component), weight: 1.0

20: From source cell 11 to target cell 5, delay: 7.5375586 ms (internal), delay: 0.043683156 ms (AP propagation component), weight: 1.0

21: From source cell 2 to target cell 5, delay: 8.960099 ms (internal), delay: 0.10889428 ms (AP propagation component), weight: 1.0

22: From source cell 4 to target cell 6, delay: 9.775579 ms (internal), delay: 0.01186303 ms (AP propagation component), weight: 1.0

23: From source cell 9 to target cell 6, delay: 6.300909 ms (internal), delay: 0.057652574 ms (AP propagation component), weight: 1.0

24: From source cell 5 to target cell 6, delay: 6.252272 ms (internal), delay: 0.03301594 ms (AP propagation component), weight: 1.0

25: From source cell 11 to target cell 6, delay: 8.6845255 ms (internal), delay: 0.08841592 ms (AP propagation component), weight: 1.0

26: From source cell 1 to target cell 7, delay: 9.909439 ms (internal), delay: 0.031092867 ms (AP propagation component), weight: 1.0

27: From source cell 0 to target cell 7, delay: 7.864515 ms (internal), delay: 0.029099513 ms (AP propagation component), weight: 1.0

28: From source cell 5 to target cell 7, delay: 9.532608 ms (internal), delay: 0.02918661 ms (AP propagation component), weight: 1.0

29: From source cell 8 to target cell 8, delay: 8.444546 ms (internal), delay: 0.123461396 ms (AP propagation component), weight: 1.0

30: From source cell 4 to target cell 8, delay: 5.9756074 ms (internal), delay: 0.13042565 ms (AP propagation component), weight: 1.0

31: From source cell 6 to target cell 8, delay: 6.4066043 ms (internal), delay: 0.07926679 ms (AP propagation component), weight: 1.0

32: From source cell 3 to target cell 8, delay: 6.890436 ms (internal), delay: 0.13729037 ms (AP propagation component), weight: 1.0

33: From source cell 9 to target cell 8, delay: 5.970308 ms (internal), delay: 0.13235377 ms (AP propagation component), weight: 1.0

34: From source cell 2 to target cell 9, delay: 9.030105 ms (internal), delay: 0.01419752 ms (AP propagation component), weight: 1.0

35: From source cell 8 to target cell 9, delay: 8.19672 ms (internal), delay: 0.062024895 ms (AP propagation component), weight: 1.0

36: From source cell 3 to target cell 9, delay: 7.3979416 ms (internal), delay: 0.025421238 ms (AP propagation component), weight: 1.0

37: From source cell 6 to target cell 9, delay: 9.934216 ms (internal), delay: 0.0666451 ms (AP propagation component), weight: 1.0

38: From source cell 10 to target cell 10, delay: 9.740846 ms (internal), delay: 0.05275642 ms (AP propagation component), weight: 1.0

39: From source cell 1 to target cell 10, delay: 7.683902 ms (internal), delay: 0.049139347 ms (AP propagation component), weight: 1.0

40: From source cell 0 to target cell 10, delay: 7.096672 ms (internal), delay: 0.044906255 ms (AP propagation component), weight: 1.0

41: From source cell 4 to target cell 10, delay: 8.814098 ms (internal), delay: 0.09289882 ms (AP propagation component), weight: 1.0

42: From source cell 1 to target cell 11, delay: 6.0642557 ms (internal), delay: 0.05773059 ms (AP propagation component), weight: 1.0

43: From source cell 0 to target cell 11, delay: 7.5826926 ms (internal), delay: 0.065323815 ms (AP propagation component), weight: 1.0

44: From source cell 10 to target cell 11, delay: 7.6444006 ms (internal), delay: 0.050954424 ms (AP propagation component), weight: 1.0

45: From source cell 8 to target cell 11, delay: 6.3389897 ms (internal), delay: 0.10401456 ms (AP propagation component), weight: 1.0

46: From source cell 9 to target cell 12, delay: 8.1487465 ms (internal), delay: 0.029465811 ms (AP propagation component), weight: 1.0

47: From source cell 0 to target cell 12, delay: 8.853146 ms (internal), delay: 0.12689823 ms (AP propagation component), weight: 1.0

48: From source cell 4 to target cell 12, delay: 5.3241515 ms (internal), delay: 0.07987188 ms (AP propagation component), weight: 1.0

49: From source cell 5 to target cell 12, delay: 7.361021 ms (internal), delay: 0.10635468 ms (AP propagation component), weight: 1.0

50: From source cell 8 to target cell 13, delay: 7.808194 ms (internal), delay: 0.068102784 ms (AP propagation component), weight: 1.0

51: From source cell 3 to target cell 13, delay: 7.2355523 ms (internal), delay: 0.074094646 ms (AP propagation component), weight: 1.0

52: From source cell 2 to target cell 13, delay: 9.807327 ms (internal), delay: 0.08462601 ms (AP propagation component), weight: 1.0

53: From source cell 11 to target cell 13, delay: 8.42745 ms (internal), delay: 0.025080072 ms (AP propagation component), weight: 1.0

54: From source cell 3 to target cell 14, delay: 9.811181 ms (internal), delay: 0.011021544 ms (AP propagation component), weight: 1.0

55: From source cell 6 to target cell 14, delay: 7.0510674 ms (internal), delay: 0.067907475 ms (AP propagation component), weight: 1.0

56: From source cell 2 to target cell 14, delay: 5.903377 ms (internal), delay: 0.034615695 ms (AP propagation component), weight: 1.0

57: From source cell 2 to target cell 15, delay: 9.246601 ms (internal), delay: 0.04413862 ms (AP propagation component), weight: 1.0

58: From source cell 6 to target cell 15, delay: 5.6500382 ms (internal), delay: 0.07169655 ms (AP propagation component), weight: 1.0

59: From source cell 3 to target cell 15, delay: 9.963421 ms (internal), delay: 0.01644304 ms (AP propagation component), weight: 1.0

60: From source cell 11 to target cell 15, delay: 7.7871695 ms (internal), delay: 0.08004995 ms (AP propagation component), weight: 1.0

61: From source cell 1 to target cell 15, delay: 8.5946865 ms (internal), delay: 0.13739948 ms (AP propagation component), weight: 1.0

62: From source cell 11 to target cell 16, delay: 5.786949 ms (internal), delay: 0.04575128 ms (AP propagation component), weight: 1.0

63: From source cell 5 to target cell 16, delay: 9.507963 ms (internal), delay: 0.06489825 ms (AP propagation component), weight: 1.0

64: From source cell 8 to target cell 16, delay: 9.777634 ms (internal), delay: 0.065952204 ms (AP propagation component), weight: 1.0

65: From source cell 9 to target cell 16, delay: 7.142044 ms (internal), delay: 0.093439385 ms (AP propagation component), weight: 1.0

66: From source cell 6 to target cell 16, delay: 6.1693535 ms (internal), delay: 0.071720555 ms (AP propagation component), weight: 1.0

67: From source cell 3 to target cell 17, delay: 9.544453 ms (internal), delay: 0.05639976 ms (AP propagation component), weight: 1.0

68: From source cell 8 to target cell 17, delay: 8.157626 ms (internal), delay: 0.022562122 ms (AP propagation component), weight: 1.0

69: From source cell 11 to target cell 17, delay: 8.78669 ms (internal), delay: 0.031428978 ms (AP propagation component), weight: 1.0

70: From source cell 6 to target cell 17, delay: 6.222179 ms (internal), delay: 0.056155935 ms (AP propagation component), weight: 1.0

71: From source cell 2 to target cell 17, delay: 6.6125126 ms (internal), delay: 0.044323463 ms (AP propagation component), weight: 1.0

72: From source cell 11 to target cell 18, delay: 7.7584195 ms (internal), delay: 0.024297899 ms (AP propagation component), weight: 1.0

73: From source cell 3 to target cell 18, delay: 5.505952 ms (internal), delay: 0.08288753 ms (AP propagation component), weight: 1.0

74: From source cell 6 to target cell 18, delay: 8.020508 ms (internal), delay: 0.036933728 ms (AP propagation component), weight: 1.0

75: From source cell 4 to target cell 19, delay: 5.154668 ms (internal), delay: 0.045192435 ms (AP propagation component), weight: 1.0

76: From source cell 7 to target cell 19, delay: 8.737162 ms (internal), delay: 0.056816928 ms (AP propagation component), weight: 1.0

77: From source cell 9 to target cell 19, delay: 7.284564 ms (internal), delay: 0.05079638 ms (AP propagation component), weight: 1.0

78: From source cell 5 to target cell 19, delay: 9.72276 ms (internal), delay: 0.06846014 ms (AP propagation component), weight: 1.0

79: From source cell 7 to target cell 20, delay: 8.637659 ms (internal), delay: 0.09235382 ms (AP propagation component), weight: 1.0

80: From source cell 11 to target cell 20, delay: 7.5486727 ms (internal), delay: 0.11801392 ms (AP propagation component), weight: 1.0

81: From source cell 9 to target cell 20, delay: 7.634335 ms (internal), delay: 0.075714804 ms (AP propagation component), weight: 1.0

82: From source cell 4 to target cell 20, delay: 7.3984404 ms (internal), delay: 0.10331736 ms (AP propagation component), weight: 1.0

83: From source cell 5 to target cell 21, delay: 7.283794 ms (internal), delay: 0.020786254 ms (AP propagation component), weight: 1.0

84: From source cell 8 to target cell 21, delay: 6.1380067 ms (internal), delay: 0.03472065 ms (AP propagation component), weight: 1.0

85: From source cell 1 to target cell 21, delay: 5.8910265 ms (internal), delay: 0.03326651 ms (AP propagation component), weight: 1.0

86: From source cell 10 to target cell 21, delay: 6.186085 ms (internal), delay: 0.047669027 ms (AP propagation component), weight: 1.0

87: From source cell 0 to target cell 21, delay: 7.7088723 ms (internal), delay: 0.0519152 ms (AP propagation component), weight: 1.0

88: From source cell 11 to target cell 22, delay: 8.348225 ms (internal), delay: 0.049506295 ms (AP propagation component), weight: 1.0

89: From source cell 4 to target cell 22, delay: 5.6036954 ms (internal), delay: 0.10219445 ms (AP propagation component), weight: 1.0

90: From source cell 6 to target cell 22, delay: 8.967421 ms (internal), delay: 0.051156826 ms (AP propagation component), weight: 1.0

91: From source cell 5 to target cell 22, delay: 7.0148563 ms (internal), delay: 0.0963125 ms (AP propagation component), weight: 1.0

92: From source cell 2 to target cell 23, delay: 7.53754 ms (internal), delay: 0.012942162 ms (AP propagation component), weight: 1.0

93: From source cell 8 to target cell 23, delay: 5.0530667 ms (internal), delay: 0.050548185 ms (AP propagation component), weight: 1.0

94: From source cell 6 to target cell 23, delay: 8.733947 ms (internal), delay: 0.07288196 ms (AP propagation component), weight: 1.0

95: From source cell 10 to target cell 23, delay: 9.683491 ms (internal), delay: 0.08392611 ms (AP propagation component), weight: 1.0

96: From source cell 3 to target cell 23, delay: 6.207948 ms (internal), delay: 0.03207059 ms (AP propagation component), weight: 1.0

97: From source cell 9 to target cell 24, delay: 5.8115373 ms (internal), delay: 0.06479202 ms (AP propagation component), weight: 1.0

98: From source cell 7 to target cell 24, delay: 5.693467 ms (internal), delay: 0.08867595 ms (AP propagation component), weight: 1.0

99: From source cell 4 to target cell 24, delay: 9.384883 ms (internal), delay: 0.09134858 ms (AP propagation component), weight: 1.0

100: From source cell 11 to target cell 24, delay: 7.8253613 ms (internal), delay: 0.107158154 ms (AP propagation component), weight: 1.0

101: From source cell 0 to target cell 25, delay: 5.4110594 ms (internal), delay: 0.0121973455 ms (AP propagation component), weight: 1.0

102: From source cell 1 to target cell 25, delay: 5.359577 ms (internal), delay: 0.035291523 ms (AP propagation component), weight: 1.0

103: From source cell 5 to target cell 25, delay: 5.557918 ms (internal), delay: 0.050652757 ms (AP propagation component), weight: 1.0

104: From source cell 8 to target cell 25, delay: 9.515135 ms (internal), delay: 0.085480504 ms (AP propagation component), weight: 1.0

105: From source cell 4 to target cell 25, delay: 6.285767 ms (internal), delay: 0.060553137 ms (AP propagation component), weight: 1.0

106: From source cell 6 to target cell 26, delay: 5.970046 ms (internal), delay: 0.03651455 ms (AP propagation component), weight: 1.0

107: From source cell 11 to target cell 26, delay: 5.2109313 ms (internal), delay: 0.049955506 ms (AP propagation component), weight: 1.0

108: From source cell 8 to target cell 26, delay: 9.020255 ms (internal), delay: 0.0921046 ms (AP propagation component), weight: 1.0

109: From source cell 3 to target cell 26, delay: 6.1279726 ms (internal), delay: 0.09866208 ms (AP propagation component), weight: 1.0

110: From source cell 4 to target cell 26, delay: 8.16347 ms (internal), delay: 0.122434914 ms (AP propagation component), weight: 1.0

111: From source cell 10 to target cell 27, delay: 6.7777834 ms (internal), delay: 0.052441213 ms (AP propagation component), weight: 1.0

112: From source cell 0 to target cell 27, delay: 6.2855515 ms (internal), delay: 0.067215 ms (AP propagation component), weight: 1.0

113: From source cell 5 to target cell 27, delay: 8.678258 ms (internal), delay: 0.09240813 ms (AP propagation component), weight: 1.0

114: From source cell 1 to target cell 27, delay: 5.8250484 ms (internal), delay: 0.062081907 ms (AP propagation component), weight: 1.0

115: From source cell 7 to target cell 28, delay: 7.0828853 ms (internal), delay: 0.026403088 ms (AP propagation component), weight: 1.0

116: From source cell 5 to target cell 28, delay: 7.0170527 ms (internal), delay: 0.087067865 ms (AP propagation component), weight: 1.0

117: From source cell 8 to target cell 29, delay: 8.150599 ms (internal), delay: 0.042781483 ms (AP propagation component), weight: 1.0

118: From source cell 11 to target cell 29, delay: 7.795549 ms (internal), delay: 0.027520677 ms (AP propagation component), weight: 1.0

119: From source cell 10 to target cell 29, delay: 7.364943 ms (internal), delay: 0.08445104 ms (AP propagation component), weight: 1.0

120: From source cell 2 to target cell 29, delay: 9.158309 ms (internal), delay: 0.07680497 ms (AP propagation component), weight: 1.0

121: From source cell 11 to target cell 30, delay: 6.973941 ms (internal), delay: 0.06805362 ms (AP propagation component), weight: 1.0

122: From source cell 6 to target cell 30, delay: 6.01236 ms (internal), delay: 0.06675974 ms (AP propagation component), weight: 1.0

123: From source cell 5 to target cell 30, delay: 6.2274284 ms (internal), delay: 0.118271925 ms (AP propagation component), weight: 1.0

124: From source cell 3 to target cell 30, delay: 8.403048 ms (internal), delay: 0.12165299 ms (AP propagation component), weight: 1.0

125: From source cell 5 to target cell 31, delay: 7.8447227 ms (internal), delay: 0.020342134 ms (AP propagation component), weight: 1.0

126: From source cell 1 to target cell 31, delay: 9.681194 ms (internal), delay: 0.022687223 ms (AP propagation component), weight: 1.0

127: From source cell 11 to target cell 31, delay: 9.05534 ms (internal), delay: 0.08030675 ms (AP propagation component), weight: 1.0

128: From source cell 0 to target cell 31, delay: 9.735699 ms (internal), delay: 0.041415162 ms (AP propagation component), weight: 1.0

129: From source cell 6 to target cell 32, delay: 7.50053 ms (internal), delay: 0.09153648 ms (AP propagation component), weight: 1.0

130: From source cell 11 to target cell 32, delay: 7.3259788 ms (internal), delay: 0.099758714 ms (AP propagation component), weight: 1.0

131: From source cell 9 to target cell 32, delay: 5.0042067 ms (internal), delay: 0.13795008 ms (AP propagation component), weight: 1.0

132: From source cell 4 to target cell 32, delay: 5.933805 ms (internal), delay: 0.14396524 ms (AP propagation component), weight: 1.0

133: From source cell 6 to target cell 33, delay: 7.434244 ms (internal), delay: 0.051336695 ms (AP propagation component), weight: 1.0

134: From source cell 5 to target cell 33, delay: 9.029837 ms (internal), delay: 0.11260274 ms (AP propagation component), weight: 1.0

135: From source cell 8 to target cell 33, delay: 7.5975027 ms (internal), delay: 0.09869372 ms (AP propagation component), weight: 1.0

136: From source cell 3 to target cell 33, delay: 8.713951 ms (internal), delay: 0.11161976 ms (AP propagation component), weight: 1.0

137: From source cell 9 to target cell 34, delay: 7.027025 ms (internal), delay: 0.023172216 ms (AP propagation component), weight: 1.0

138: From source cell 7 to target cell 34, delay: 6.3975983 ms (internal), delay: 0.048256584 ms (AP propagation component), weight: 1.0

139: From source cell 5 to target cell 34, delay: 9.948933 ms (internal), delay: 0.08511953 ms (AP propagation component), weight: 1.0

140: From source cell 4 to target cell 34, delay: 7.6406555 ms (internal), delay: 0.061989125 ms (AP propagation component), weight: 1.0

141: From source cell 9 to target cell 35, delay: 8.926203 ms (internal), delay: 0.01988358 ms (AP propagation component), weight: 1.0

142: From source cell 7 to target cell 35, delay: 5.7348466 ms (internal), delay: 0.0395705 ms (AP propagation component), weight: 1.0

143: From source cell 5 to target cell 35, delay: 5.652788 ms (internal), delay: 0.07410486 ms (AP propagation component), weight: 1.0

144: From source cell 4 to target cell 35, delay: 8.627723 ms (internal), delay: 0.047341857 ms (AP propagation component), weight: 1.0

145: From source cell 11 to target cell 36, delay: 7.5176296 ms (internal), delay: 0.11044334 ms (AP propagation component), weight: 1.0

146: From source cell 9 to target cell 36, delay: 5.5774364 ms (internal), delay: 0.11573822 ms (AP propagation component), weight: 1.0

147: From source cell 4 to target cell 36, delay: 5.6454797 ms (internal), delay: 0.13314323 ms (AP propagation component), weight: 1.0

148: From source cell 6 to target cell 36, delay: 5.7879534 ms (internal), delay: 0.10952491 ms (AP propagation component), weight: 1.0

149: From source cell 6 to target cell 37, delay: 6.194211 ms (internal), delay: 0.036825083 ms (AP propagation component), weight: 1.0

150: From source cell 8 to target cell 37, delay: 6.739656 ms (internal), delay: 0.08426455 ms (AP propagation component), weight: 1.0

151: From source cell 3 to target cell 37, delay: 9.622108 ms (internal), delay: 0.09618281 ms (AP propagation component), weight: 1.0

152: From source cell 11 to target cell 37, delay: 7.359289 ms (internal), delay: 0.043106284 ms (AP propagation component), weight: 1.0

153: From source cell 2 to target cell 37, delay: 6.8449793 ms (internal), delay: 0.10490806 ms (AP propagation component), weight: 1.0

154: From source cell 5 to target cell 38, delay: 8.651577 ms (internal), delay: 0.015288973 ms (AP propagation component), weight: 1.0

155: From source cell 4 to target cell 38, delay: 9.73703 ms (internal), delay: 0.025752401 ms (AP propagation component), weight: 1.0

156: From source cell 0 to target cell 38, delay: 8.231557 ms (internal), delay: 0.039219018 ms (AP propagation component), weight: 1.0

157: From source cell 1 to target cell 38, delay: 6.867276 ms (internal), delay: 0.04004457 ms (AP propagation component), weight: 1.0

158: From source cell 10 to target cell 39, delay: 6.2870173 ms (internal), delay: 0.013813959 ms (AP propagation component), weight: 1.0

159: From source cell 5 to target cell 39, delay: 5.7898865 ms (internal), delay: 0.0693616 ms (AP propagation component), weight: 1.0

160: From source cell 0 to target cell 39, delay: 5.671467 ms (internal), delay: 0.06035266 ms (AP propagation component), weight: 1.0

161: From source cell 4 to target cell 39, delay: 9.149744 ms (internal), delay: 0.094546705 ms (AP propagation component), weight: 1.0

162: From source cell 8 to target cell 39, delay: 8.775003 ms (internal), delay: 0.06663242 ms (AP propagation component), weight: 1.0

163: From source cell 11 to target cell 40, delay: 7.1080422 ms (internal), delay: 0.03326508 ms (AP propagation component), weight: 1.0

164: From source cell 8 to target cell 40, delay: 6.1228833 ms (internal), delay: 0.04529096 ms (AP propagation component), weight: 1.0

165: From source cell 4 to target cell 40, delay: 8.130432 ms (internal), delay: 0.06492121 ms (AP propagation component), weight: 1.0

166: From source cell 5 to target cell 40, delay: 6.2379165 ms (internal), delay: 0.052875742 ms (AP propagation component), weight: 1.0

167: From source cell 3 to target cell 41, delay: 6.2356687 ms (internal), delay: 0.030084608 ms (AP propagation component), weight: 1.0

168: From source cell 11 to target cell 41, delay: 7.300831 ms (internal), delay: 0.04739627 ms (AP propagation component), weight: 1.0

169: From source cell 6 to target cell 41, delay: 5.8365955 ms (internal), delay: 0.033104066 ms (AP propagation component), weight: 1.0

170: From source cell 0 to target cell 42, delay: 6.351772 ms (internal), delay: 0.016215377 ms (AP propagation component), weight: 1.0

171: From source cell 5 to target cell 42, delay: 6.2864103 ms (internal), delay: 0.041804116 ms (AP propagation component), weight: 1.0

172: From source cell 1 to target cell 42, delay: 9.884859 ms (internal), delay: 0.044956576 ms (AP propagation component), weight: 1.0

173: From source cell 5 to target cell 43, delay: 7.806165 ms (internal), delay: 0.022100395 ms (AP propagation component), weight: 1.0

174: From source cell 8 to target cell 43, delay: 7.295916 ms (internal), delay: 0.043321393 ms (AP propagation component), weight: 1.0

175: From source cell 4 to target cell 43, delay: 5.517606 ms (internal), delay: 0.04127976 ms (AP propagation component), weight: 1.0

176: From source cell 1 to target cell 43, delay: 5.544592 ms (internal), delay: 0.05356621 ms (AP propagation component), weight: 1.0

177: From source cell 8 to target cell 44, delay: 8.377529 ms (internal), delay: 0.024652222 ms (AP propagation component), weight: 1.0

178: From source cell 11 to target cell 44, delay: 5.621628 ms (internal), delay: 0.041655965 ms (AP propagation component), weight: 1.0

179: From source cell 10 to target cell 44, delay: 8.27717 ms (internal), delay: 0.06867257 ms (AP propagation component), weight: 1.0

180: From source cell 11 to target cell 45, delay: 7.286217 ms (internal), delay: 0.022672383 ms (AP propagation component), weight: 1.0

181: From source cell 5 to target cell 45, delay: 6.539111 ms (internal), delay: 0.0634285 ms (AP propagation component), weight: 1.0

182: From source cell 8 to target cell 45, delay: 7.213431 ms (internal), delay: 0.048190624 ms (AP propagation component), weight: 1.0

183: From source cell 6 to target cell 45, delay: 5.419075 ms (internal), delay: 0.052192774 ms (AP propagation component), weight: 1.0

184: From source cell 6 to target cell 46, delay: 7.85824 ms (internal), delay: 0.014724247 ms (AP propagation component), weight: 1.0

185: From source cell 11 to target cell 46, delay: 7.3176045 ms (internal), delay: 0.035145175 ms (AP propagation component), weight: 1.0

186: From source cell 2 to target cell 46, delay: 9.495117 ms (internal), delay: 0.06587859 ms (AP propagation component), weight: 1.0

187: From source cell 3 to target cell 46, delay: 8.053682 ms (internal), delay: 0.052704334 ms (AP propagation component), weight: 1.0

188: From source cell 3 to target cell 47, delay: 8.0098295 ms (internal), delay: 0.038795628 ms (AP propagation component), weight: 1.0

189: From source cell 2 to target cell 47, delay: 8.672827 ms (internal), delay: 0.02986567 ms (AP propagation component), weight: 1.0

190: From source cell 8 to target cell 47, delay: 5.39743 ms (internal), delay: 0.052821808 ms (AP propagation component), weight: 1.0

191: From source cell 11 to target cell 47, delay: 6.918815 ms (internal), delay: 0.049266968 ms (AP propagation component), weight: 1.0

192: From source cell 9 to target cell 48, delay: 6.4827285 ms (internal), delay: 0.048655972 ms (AP propagation component), weight: 1.0

193: From source cell 4 to target cell 48, delay: 9.45302 ms (internal), delay: 0.04729731 ms (AP propagation component), weight: 1.0

194: From source cell 5 to target cell 48, delay: 5.7930284 ms (internal), delay: 0.06472532 ms (AP propagation component), weight: 1.0

195: From source cell 7 to target cell 48, delay: 5.594736 ms (internal), delay: 0.07385222 ms (AP propagation component), weight: 1.0

196: From source cell 5 to target cell 49, delay: 9.25848 ms (internal), delay: 0.034461573 ms (AP propagation component), weight: 1.0

197: From source cell 8 to target cell 49, delay: 5.0299387 ms (internal), delay: 0.054716993 ms (AP propagation component), weight: 1.0

198: From source cell 4 to target cell 49, delay: 5.3937244 ms (internal), delay: 0.043445412 ms (AP propagation component), weight: 1.0

199: From source cell 7 to target cell 50, delay: 7.1039906 ms (internal), delay: 0.05692739 ms (AP propagation component), weight: 1.0

200: From source cell 5 to target cell 50, delay: 8.893713 ms (internal), delay: 0.066161126 ms (AP propagation component), weight: 1.0

201: From source cell 0 to target cell 50, delay: 9.570668 ms (internal), delay: 0.091712676 ms (AP propagation component), weight: 1.0

202: From source cell 1 to target cell 50, delay: 9.44306 ms (internal), delay: 0.10521692 ms (AP propagation component), weight: 1.0

203: From source cell 9 to target cell 50, delay: 6.7842617 ms (internal), delay: 0.03498364 ms (AP propagation component), weight: 1.0

204: From source cell 7 to target cell 51, delay: 9.948274 ms (internal), delay: 0.018430864 ms (AP propagation component), weight: 1.0

205: From source cell 9 to target cell 51, delay: 7.7926064 ms (internal), delay: 0.036442943 ms (AP propagation component), weight: 1.0

206: From source cell 4 to target cell 51, delay: 5.960942 ms (internal), delay: 0.07664242 ms (AP propagation component), weight: 1.0

207: From source cell 0 to target cell 51, delay: 7.1061544 ms (internal), delay: 0.10839087 ms (AP propagation component), weight: 1.0

208: From source cell 1 to target cell 52, delay: 7.3662777 ms (internal), delay: 0.03982141 ms (AP propagation component), weight: 1.0

209: From source cell 10 to target cell 52, delay: 8.121743 ms (internal), delay: 0.03585581 ms (AP propagation component), weight: 1.0

210: From source cell 0 to target cell 52, delay: 6.813782 ms (internal), delay: 0.052492436 ms (AP propagation component), weight: 1.0

211: From source cell 5 to target cell 52, delay: 6.010565 ms (internal), delay: 0.077102154 ms (AP propagation component), weight: 1.0

212: From source cell 2 to target cell 52, delay: 9.029147 ms (internal), delay: 0.116664805 ms (AP propagation component), weight: 1.0

213: From source cell 10 to target cell 53, delay: 9.813845 ms (internal), delay: 0.052417926 ms (AP propagation component), weight: 1.0

214: From source cell 1 to target cell 53, delay: 6.7496157 ms (internal), delay: 0.062004738 ms (AP propagation component), weight: 1.0

215: From source cell 0 to target cell 53, delay: 7.103242 ms (internal), delay: 0.06244633 ms (AP propagation component), weight: 1.0

216: From source cell 0 to target cell 54, delay: 9.442364 ms (internal), delay: 0.014315325 ms (AP propagation component), weight: 1.0

217: From source cell 1 to target cell 54, delay: 8.832023 ms (internal), delay: 0.02877363 ms (AP propagation component), weight: 1.0

218: From source cell 5 to target cell 54, delay: 8.604266 ms (internal), delay: 0.04720267 ms (AP propagation component), weight: 1.0

219: From source cell 4 to target cell 55, delay: 5.915471 ms (internal), delay: 0.02904717 ms (AP propagation component), weight: 1.0

220: From source cell 5 to target cell 55, delay: 6.4197044 ms (internal), delay: 0.054534934 ms (AP propagation component), weight: 1.0

221: From source cell 9 to target cell 55, delay: 7.2951317 ms (internal), delay: 0.038971193 ms (AP propagation component), weight: 1.0

222: From source cell 0 to target cell 55, delay: 5.9079094 ms (internal), delay: 0.07593255 ms (AP propagation component), weight: 1.0

223: From source cell 0 to target cell 56, delay: 8.161698 ms (internal), delay: 0.032497674 ms (AP propagation component), weight: 1.0

224: From source cell 5 to target cell 56, delay: 8.703184 ms (internal), delay: 0.06224173 ms (AP propagation component), weight: 1.0

225: From source cell 1 to target cell 56, delay: 8.206353 ms (internal), delay: 0.06814062 ms (AP propagation component), weight: 1.0

226: From source cell 10 to target cell 56, delay: 8.550842 ms (internal), delay: 0.08781547 ms (AP propagation component), weight: 1.0

227: From source cell 9 to target cell 57, delay: 5.5601187 ms (internal), delay: 0.033424783 ms (AP propagation component), weight: 1.0

228: From source cell 5 to target cell 57, delay: 5.8145027 ms (internal), delay: 0.10629615 ms (AP propagation component), weight: 1.0

229: From source cell 0 to target cell 57, delay: 8.932896 ms (internal), delay: 0.13017513 ms (AP propagation component), weight: 1.0

230: From source cell 4 to target cell 57, delay: 5.7046847 ms (internal), delay: 0.08760793 ms (AP propagation component), weight: 1.0

231: From source cell 4 to target cell 58, delay: 7.7740536 ms (internal), delay: 0.038406298 ms (AP propagation component), weight: 1.0

232: From source cell 0 to target cell 58, delay: 6.8871603 ms (internal), delay: 0.022729816 ms (AP propagation component), weight: 1.0

233: From source cell 10 to target cell 58, delay: 7.0592813 ms (internal), delay: 0.06810096 ms (AP propagation component), weight: 1.0

234: From source cell 8 to target cell 58, delay: 7.903221 ms (internal), delay: 0.08469641 ms (AP propagation component), weight: 1.0

235: From source cell 9 to target cell 59, delay: 6.609106 ms (internal), delay: 0.040558927 ms (AP propagation component), weight: 1.0

236: From source cell 4 to target cell 59, delay: 7.1474547 ms (internal), delay: 0.061051346 ms (AP propagation component), weight: 1.0

237: From source cell 7 to target cell 59, delay: 5.8414793 ms (internal), delay: 0.040423702 ms (AP propagation component), weight: 1.0

238: From source cell 5 to target cell 59, delay: 6.871836 ms (internal), delay: 0.089224435 ms (AP propagation component), weight: 1.0

239: From source cell 9 to target cell 60, delay: 5.124299 ms (internal), delay: 0.075045876 ms (AP propagation component), weight: 1.0

240: From source cell 11 to target cell 60, delay: 9.481633 ms (internal), delay: 0.07882258 ms (AP propagation component), weight: 1.0

241: From source cell 5 to target cell 60, delay: 5.337713 ms (internal), delay: 0.0836337 ms (AP propagation component), weight: 1.0

242: From source cell 6 to target cell 60, delay: 9.077147 ms (internal), delay: 0.09518755 ms (AP propagation component), weight: 1.0

243: From source cell 7 to target cell 61, delay: 9.401691 ms (internal), delay: 0.009719035 ms (AP propagation component), weight: 1.0

244: From source cell 9 to target cell 61, delay: 5.7436185 ms (internal), delay: 0.02896453 ms (AP propagation component), weight: 1.0

245: From source cell 1 to target cell 61, delay: 9.263973 ms (internal), delay: 0.13738479 ms (AP propagation component), weight: 1.0

246: From source cell 5 to target cell 61, delay: 8.83205 ms (internal), delay: 0.10531527 ms (AP propagation component), weight: 1.0

247: From source cell 11 to target cell 62, delay: 6.1502914 ms (internal), delay: 0.06857385 ms (AP propagation component), weight: 1.0

248: From source cell 5 to target cell 62, delay: 8.753713 ms (internal), delay: 0.08552929 ms (AP propagation component), weight: 1.0

249: From source cell 6 to target cell 62, delay: 9.048582 ms (internal), delay: 0.08130727 ms (AP propagation component), weight: 1.0

250: From source cell 4 to target cell 62, delay: 9.913423 ms (internal), delay: 0.08327119 ms (AP propagation component), weight: 1.0

251: From source cell 9 to target cell 63, delay: 8.154894 ms (internal), delay: 0.07010336 ms (AP propagation component), weight: 1.0

252: From source cell 4 to target cell 63, delay: 5.716371 ms (internal), delay: 0.09851685 ms (AP propagation component), weight: 1.0

253: From source cell 11 to target cell 63, delay: 9.887276 ms (internal), delay: 0.111464545 ms (AP propagation component), weight: 1.0

254: From source cell 0 to target cell 63, delay: 7.443995 ms (internal), delay: 0.14757915 ms (AP propagation component), weight: 1.0

255: From source cell 0 to target cell 64, delay: 9.671289 ms (internal), delay: 0.036279533 ms (AP propagation component), weight: 1.0

256: From source cell 4 to target cell 64, delay: 7.6110826 ms (internal), delay: 0.041544072 ms (AP propagation component), weight: 1.0

257: From source cell 7 to target cell 64, delay: 8.663858 ms (internal), delay: 0.08671379 ms (AP propagation component), weight: 1.0

258: From source cell 8 to target cell 65, delay: 8.301446 ms (internal), delay: 0.07754195 ms (AP propagation component), weight: 1.0

259: From source cell 6 to target cell 65, delay: 5.263245 ms (internal), delay: 0.07508373 ms (AP propagation component), weight: 1.0

260: From source cell 3 to target cell 65, delay: 7.103898 ms (internal), delay: 0.016885007 ms (AP propagation component), weight: 1.0

261: From source cell 2 to target cell 65, delay: 5.7750907 ms (internal), delay: 0.024640005 ms (AP propagation component), weight: 1.0

262: From source cell 8 to target cell 66, delay: 6.3510737 ms (internal), delay: 0.025454473 ms (AP propagation component), weight: 1.0

263: From source cell 11 to target cell 66, delay: 7.799493 ms (internal), delay: 0.025636956 ms (AP propagation component), weight: 1.0

264: From source cell 6 to target cell 66, delay: 6.05221 ms (internal), delay: 0.05651799 ms (AP propagation component), weight: 1.0

265: From source cell 10 to target cell 66, delay: 5.0184417 ms (internal), delay: 0.07600082 ms (AP propagation component), weight: 1.0

266: From source cell 1 to target cell 66, delay: 5.551091 ms (internal), delay: 0.07161516 ms (AP propagation component), weight: 1.0

267: From source cell 4 to target cell 67, delay: 7.674365 ms (internal), delay: 0.031416237 ms (AP propagation component), weight: 1.0

268: From source cell 5 to target cell 67, delay: 8.435544 ms (internal), delay: 0.04336767 ms (AP propagation component), weight: 1.0

269: From source cell 9 to target cell 67, delay: 6.4900184 ms (internal), delay: 0.05765003 ms (AP propagation component), weight: 1.0

270: From source cell 0 to target cell 67, delay: 5.9383163 ms (internal), delay: 0.07840243 ms (AP propagation component), weight: 1.0

271: From source cell 5 to target cell 68, delay: 6.9861984 ms (internal), delay: 0.044533893 ms (AP propagation component), weight: 1.0

272: From source cell 10 to target cell 68, delay: 5.5109315 ms (internal), delay: 0.015712995 ms (AP propagation component), weight: 1.0

273: From source cell 1 to target cell 68, delay: 8.499865 ms (internal), delay: 0.015509928 ms (AP propagation component), weight: 1.0

274: From source cell 4 to target cell 69, delay: 9.459051 ms (internal), delay: 0.006454093 ms (AP propagation component), weight: 1.0

275: From source cell 5 to target cell 69, delay: 7.373644 ms (internal), delay: 0.025167825 ms (AP propagation component), weight: 1.0

276: From source cell 1 to target cell 69, delay: 5.8504496 ms (internal), delay: 0.062147807 ms (AP propagation component), weight: 1.0

277: From source cell 9 to target cell 69, delay: 8.90492 ms (internal), delay: 0.0653155 ms (AP propagation component), weight: 1.0

278: From source cell 8 to target cell 70, delay: 7.8189154 ms (internal), delay: 0.019845068 ms (AP propagation component), weight: 1.0

279: From source cell 11 to target cell 70, delay: 5.4767528 ms (internal), delay: 0.02480377 ms (AP propagation component), weight: 1.0

280: From source cell 6 to target cell 70, delay: 5.893112 ms (internal), delay: 0.05467598 ms (AP propagation component), weight: 1.0

281: From source cell 5 to target cell 70, delay: 7.537034 ms (internal), delay: 0.065549664 ms (AP propagation component), weight: 1.0

282: From source cell 7 to target cell 71, delay: 8.843531 ms (internal), delay: 0.023327038 ms (AP propagation component), weight: 1.0

283: From source cell 4 to target cell 71, delay: 5.260093 ms (internal), delay: 0.06598687 ms (AP propagation component), weight: 1.0

284: From source cell 5 to target cell 71, delay: 6.550544 ms (internal), delay: 0.09698537 ms (AP propagation component), weight: 1.0

285: From source cell 9 to target cell 71, delay: 5.4572763 ms (internal), delay: 0.018119512 ms (AP propagation component), weight: 1.0

286: From source cell 9 to target cell 72, delay: 6.729717 ms (internal), delay: 0.07051718 ms (AP propagation component), weight: 1.0

287: From source cell 4 to target cell 72, delay: 5.873656 ms (internal), delay: 0.08774989 ms (AP propagation component), weight: 1.0

288: From source cell 11 to target cell 72, delay: 6.078044 ms (internal), delay: 0.09479469 ms (AP propagation component), weight: 1.0

289: From source cell 9 to target cell 73, delay: 6.411462 ms (internal), delay: 0.12465816 ms (AP propagation component), weight: 1.0

290: From source cell 6 to target cell 73, delay: 8.792633 ms (internal), delay: 0.08215051 ms (AP propagation component), weight: 1.0

291: From source cell 8 to target cell 73, delay: 8.346832 ms (internal), delay: 0.12537546 ms (AP propagation component), weight: 1.0

292: From source cell 5 to target cell 73, delay: 8.505456 ms (internal), delay: 0.12948124 ms (AP propagation component), weight: 1.0

293: From source cell 3 to target cell 74, delay: 7.166622 ms (internal), delay: 0.029810831 ms (AP propagation component), weight: 1.0

294: From source cell 2 to target cell 74, delay: 9.597128 ms (internal), delay: 0.026826942 ms (AP propagation component), weight: 1.0

295: From source cell 8 to target cell 74, delay: 9.621843 ms (internal), delay: 0.047074594 ms (AP propagation component), weight: 1.0

296: From source cell 8 to target cell 75, delay: 5.2234783 ms (internal), delay: 0.046800476 ms (AP propagation component), weight: 1.0

297: From source cell 11 to target cell 75, delay: 6.290121 ms (internal), delay: 0.04556684 ms (AP propagation component), weight: 1.0

298: From source cell 5 to target cell 75, delay: 7.5399647 ms (internal), delay: 0.03944983 ms (AP propagation component), weight: 1.0

299: From source cell 1 to target cell 75, delay: 5.9784217 ms (internal), delay: 0.06993805 ms (AP propagation component), weight: 1.0

300: From source cell 4 to target cell 75, delay: 6.0563 ms (internal), delay: 0.05040876 ms (AP propagation component), weight: 1.0

301: From source cell 11 to target cell 76, delay: 7.0760136 ms (internal), delay: 0.054262545 ms (AP propagation component), weight: 1.0

302: From source cell 8 to target cell 76, delay: 9.26059 ms (internal), delay: 0.09106958 ms (AP propagation component), weight: 1.0

303: From source cell 6 to target cell 76, delay: 8.7621975 ms (internal), delay: 0.059120875 ms (AP propagation component), weight: 1.0

304: From source cell 9 to target cell 76, delay: 9.895837 ms (internal), delay: 0.12243601 ms (AP propagation component), weight: 1.0

305: From source cell 11 to target cell 77, delay: 5.9822454 ms (internal), delay: 0.036227398 ms (AP propagation component), weight: 1.0

306: From source cell 6 to target cell 77, delay: 9.021389 ms (internal), delay: 0.053273104 ms (AP propagation component), weight: 1.0

307: From source cell 4 to target cell 77, delay: 9.935169 ms (internal), delay: 0.08656482 ms (AP propagation component), weight: 1.0

308: From source cell 3 to target cell 77, delay: 5.0673647 ms (internal), delay: 0.10329957 ms (AP propagation component), weight: 1.0

309: From source cell 1 to target cell 78, delay: 9.852835 ms (internal), delay: 0.030942716 ms (AP propagation component), weight: 1.0

310: From source cell 4 to target cell 78, delay: 8.428087 ms (internal), delay: 0.043467153 ms (AP propagation component), weight: 1.0

311: From source cell 0 to target cell 78, delay: 8.421483 ms (internal), delay: 0.039623853 ms (AP propagation component), weight: 1.0

312: From source cell 5 to target cell 78, delay: 5.9888725 ms (internal), delay: 0.01506482 ms (AP propagation component), weight: 1.0

313: From source cell 10 to target cell 78, delay: 7.4853506 ms (internal), delay: 0.049501225 ms (AP propagation component), weight: 1.0

314: From source cell 4 to target cell 79, delay: 7.3760324 ms (internal), delay: 0.019969124 ms (AP propagation component), weight: 1.0

315: From source cell 1 to target cell 79, delay: 5.785845 ms (internal), delay: 0.06460182 ms (AP propagation component), weight: 1.0

316: From source cell 5 to target cell 79, delay: 8.007369 ms (internal), delay: 0.038196668 ms (AP propagation component), weight: 1.0

317: From source cell 0 to target cell 79, delay: 5.9256845 ms (internal), delay: 0.04062645 ms (AP propagation component), weight: 1.0

318: From source cell 9 to target cell 79, delay: 8.942841 ms (internal), delay: 0.066121936 ms (AP propagation component), weight: 1.0


Inputs:

Units
Unit system used in synapse properties, etc. below
Physiological Units

InputInput_0
Random stimulation

Frequency: 0.05 ms-1

Synaptic mechanism: MFExtSynInput

Target of stimulationMossyFibers
Cells receiving input:

Cell: 0, segment 0 (fract along: 0.5)

Cell: 9, segment 0 (fract along: 0.5)

Cell: 3, segment 0 (fract along: 0.5)

Cell: 8, segment 0 (fract along: 0.5)

Cell: 6, segment 0 (fract along: 0.5)

Cell: 1, segment 0 (fract along: 0.5)

Cell: 2, segment 0 (fract along: 0.5)

Cell: 5, segment 0 (fract along: 0.5)

Cell: 7, segment 0 (fract along: 0.5)

Cell: 4, segment 0 (fract along: 0.5)

Cell: 11, segment 0 (fract along: 0.5)

Cell: 10, segment 0 (fract along: 0.5)




Time to transform file: 0.122 secs