2.1.2. Outputs

After DL assessment is complete, the workflow collects the EDP.csv, DM.csv, and DV.csv file produced for each building asset and aggregates the results into single output files. When run locally, the workflow returns the output in a CSV format which are located in the results folder. When run remotely, the workflow returns the output in a HDF format which are located in the job archive. The HDF files may be converted into CSV format as a post-processing step.

2.1.2.1. EDP Output File

File which aggregates response simulation results from the EDP.csv files of all building assets.

properties

  • type

Name of EDP type. Typical earthquake EDPS are peak floor acceleration (PFA), peak interstory drift (PID), peak floor displacement (PFA), and peak roof displacement (PRD). If IMs are used as EDPs (with the ‘IMasEDP’ EDP application), then the IM name is returned in this field.

type

string

  • loc

Location of where EDP is recorded on the model. If UserDefinedEDP is specified as the EDP application, then the location labelling is denoted in the EDP specification file. Otherwise, the numbering starts at 0, which denotes the ground level.

type

int

  • dir

Direction of the EDP is recorded. The numbering used in the file is X=1, Y=2, Z=3.

type

int

  • stat

Describes the statistic reported for each EDP. EDPs are assumed to follow a lognormal distribution described by a median parameter and beta (lognormal standard deviation) parameter. Note: If the ‘samples’ entry of the RegionalMapping application is set to 1, then only one event is assigned to each building asset and the response is reported as the ‘median’ in the EDP Output File.

type

string

The header schema, followed by an example output, are provided:

Table 2.1.2.1 OutputEDPSchema.csv

type

PFA

PFA

PFA

PFA

PFA

PFA

PFA

PFA

PID

PID

PID

PID

loc

0

0

0

0

1

1

1

1

1

1

1

1

dir

1

1

2

2

1

1

2

2

1

1

2

2

stat

median

beta

median

beta

median

beta

median

beta

median

beta

median

beta

1

130.996

0.478197571

145.494

0.080967514

264.518

0.152547475

276.529

0.27654027

0.00182557

0.151875634

0.00190603

0.277128181

2.1.2.2. DM Output File

File which aggregates damage state estimates from the DM.csv files of all building assets.

properties

  • Collapse probability

Probability of collapse for each building asset, represented as a value between 0 and 1.

type

float

  • DS likelihood

The probability of each damage state for every building asset, provided as a value between 0 and 1. Probabilities are reported for five damage states: ‘0’ indicates no damage; ‘1_1’ indicates DS1 (aesthetic damage), ‘2_1’ indicates DS2 (mild damage), ‘3_1’ indicates DS3 (moderate damage), and ‘4_1’ indicates DS4 (severe damage). The DS likelihoods are additionally reported by component group, where the following abbreviations are used: ‘S’ = structural components, ‘NS’ = all nonstructural components, ‘NSA’ = acceleration-sensitive nonstructural components, ‘NSD’ = drift-sensitive nonstructural components. The probabilities of the five damage states for each component type (across the row) should sum to 1 (total probability for the building asset).

type

float

The header schema, followed by an example output, are provided:

Table 2.1.2.2 OutputDMSchema.csv

Collapse

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

DS likelihood

comp_type

probability

S

S

S

S

S

S

NS

NS

NS

NS

NS

NSA

NSA

NSA

NSA

NSA

NSD

NSD

NSD

NSD

NSD

DSG_DS

0

1_1

2_1

3_1

4_1

4_2

0

1_1

2_1

3_1

4_1

0

1_1

2_1

3_1

4_1

0

1_1

2_1

3_1

4_1

1

0

0.8

0.2

0.2

0.2

0.6

0.2

0.2

0.6

0.8

0.2

2.1.2.3. DV Output File

File which aggregates decision variable estimates from the DV.csv files of all building assets.

properties

  • Aggregate Repair Cost

Repair cost for the entire building asset, reported with the statistics: mean, standard deviation, 10th percentile, median (50th percentile), and 90th percentile. The currency unit for the repair cost is the same as that of the the replacementCost property provided in the building input file. If replacementCost is set equal to 1, then the repair costs in the DV Output File are reported as a percentage of the replacement cost.

type

float

  • Repair Impractical

Probability of repair being impractical for the building asset, provided as a value between 0 and 1.

type

float

  • Component Repair Cost

Mean repair cost for the building asset reported by component group (‘S’ = structural components, ‘NS’ = all nonstructural components, ‘NSA’ = acceleration-sensitive nonstructural components, ‘NSD’ = drift-sensitive nonstructural components) and damage state (‘aggregate’ = total for the component group, ‘1_1’ = DS1, ‘2_1’ = DS2, ‘3_1’ = DS3, ‘4_1’ = DS4).

type

float

  • Aggregate Repair Time

Repair time for the entire building asset, reported with the statistics: mean, standard deviation, 10th percentile, median (50th percentile), and 90th percentile. Time is reported in units of ___.

type

float

  • Aggregate Injuries

Number of injuries projected as a result of damage to the building asset, reported with the statistics: mean, standard deviation, 10th percentile, median (50th percentile), and 90th percentile. Injuries are provided at four severity levels.

type

float

The header schema, followed by an example output, are provided:

Table 2.1.2.3 OutputDVSchema.csv

DV

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Impractical

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Cost

Repair Time

Repair Time

Repair Time

Repair Time

Repair Time

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

Injuries

comp_type

aggregate

aggregate

aggregate

aggregate

aggregate

probability

S

S

S

S

S

S

NS

NS

NS

NS

NS

NSA

NSA

NSA

NSA

NSA

NSD

NSD

NSD

NSD

NSD

sev1

sev1

sev1

sev1

sev1

sev2

sev2

sev2

sev2

sev2

sev3

sev3

sev3

sev3

sev3

sev4

sev4

sev4

sev4

sev4

DSG_DS

aggregate

1_1

2_1

3_1

4_1

4_2

aggregate

1_1

2_1

3_1

4_1

aggregate

1_1

2_1

3_1

4_1

aggregate

1_1

2_1

3_1

4_1

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

aggregate

stat

mean

std

10%

median

90%

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

mean

std

10%

median

90%

mean

std

10%

median

90%

mean

std

10%

median

90%

mean

std

10%

median

90%

mean

std

10%

median

90%

1

0.056575

0.034084051

0.0138

0.08

0.086525

0

0.000725

0.003625

0.05585

0.005

0.027

0.082416667

0.0544

0.005

0.027

0.08

0.00145

0.00725

0.29

0.58

0

0

0.87

7.25E-05

0.000145

0

0

0.0002175

0

0

0

0

0

0

0

0

0

0

0

0

0

0

0