1
0
Fork 0
mirror of https://github.com/MillironX/nf-configs.git synced 2024-11-24 09:09:56 +00:00
nf-configs/conf/sage.config

121 lines
3.9 KiB
Text
Raw Normal View History

// Config profile metadata
params {
config_profile_description = 'The Sage Bionetworks profile'
config_profile_contact = 'Bruno Grande (@BrunoGrandePhD)'
config_profile_url = 'https://github.com/Sage-Bionetworks-Workflows'
}
// Leverage us-east-1 mirror of select human and mouse genomes
params {
igenomes_base = 's3://sage-igenomes/igenomes'
2022-08-31 16:18:27 +00:00
max_memory = '128.GB'
max_cpus = 16
max_time = '240.h'
}
// Enable retries globally for certain exit codes
process {
errorStrategy = { task.exitStatus in [143,137,104,134,139,247] ? 'retry' : 'finish' }
maxRetries = 5
maxErrors = '-1'
}
// Increase time limit to allow file transfers to finish
// The default is 12 hours, which results in timeouts
threadPool.FileTransfer.maxAwait = '24 hour'
// Configure Nextflow to be more reliable on AWS
aws {
region = "us-east-1"
client {
uploadChunkSize = 209715200
2022-09-17 17:14:04 +00:00
uploadMaxThreads = 4
}
2022-09-13 20:15:30 +00:00
batch {
maxParallelTransfers = 1
2022-09-17 17:14:04 +00:00
maxTransferAttempts = 5
delayBetweenAttempts = '120 sec'
2022-09-13 20:15:30 +00:00
}
}
executor {
name = 'awsbatch'
// Ensure unlimited queue size on AWS Batch
2022-09-12 18:40:43 +00:00
queueSize = 500
// Slow down the rate at which AWS Batch jobs accumulate in
// the queue (an attempt to prevent orphaned EBS volumes)
submitRateLimit = '5 / 1 sec'
}
2022-08-31 16:10:30 +00:00
// Adjust default resource allocations (see `../docs/sage.md`)
process {
cpus = { check_max( 1 * slow(task.attempt), 'cpus' ) }
memory = { check_max( 6.GB * task.attempt, 'memory' ) }
time = { check_max( 24.h * task.attempt, 'time' ) }
// Process-specific resource requirements
withLabel:process_low {
cpus = { check_max( 4 * slow(task.attempt), 'cpus' ) }
memory = { check_max( 12.GB * task.attempt, 'memory' ) }
time = { check_max( 24.h * task.attempt, 'time' ) }
}
withLabel:process_medium {
cpus = { check_max( 12 * slow(task.attempt), 'cpus' ) }
memory = { check_max( 36.GB * task.attempt, 'memory' ) }
time = { check_max( 48.h * task.attempt, 'time' ) }
}
withLabel:process_high {
cpus = { check_max( 24 * slow(task.attempt), 'cpus' ) }
memory = { check_max( 72.GB * task.attempt, 'memory' ) }
time = { check_max( 96.h * task.attempt, 'time' ) }
}
withLabel:process_long {
time = { check_max( 192.h * task.attempt, 'time' ) }
}
withLabel:process_high_memory {
memory = { check_max( 128.GB * task.attempt, 'memory' ) }
}
}
// Function to slow the increase of the resource multipler
2022-08-31 16:10:30 +00:00
// as attempts are made. The rationale is that the number
// of CPU cores isn't a limiting factor as often as memory.
def slow(attempt, factor = 2) {
2022-08-31 16:10:30 +00:00
return Math.ceil( attempt / factor) as int
}
2022-06-23 16:44:16 +00:00
// Function to ensure that resource requirements don't go
// beyond a maximum limit (copied here for Sarek v2)
2022-06-23 16:44:16 +00:00
def check_max(obj, type) {
if (type == 'memory') {
try {
if (obj.compareTo(params.max_memory as nextflow.util.MemoryUnit) == 1)
return params.max_memory as nextflow.util.MemoryUnit
else
return obj
} catch (all) {
println " ### ERROR ### Max memory '${params.max_memory}' is not valid! Using default value: $obj"
return obj
}
} else if (type == 'time') {
try {
if (obj.compareTo(params.max_time as nextflow.util.Duration) == 1)
return params.max_time as nextflow.util.Duration
else
return obj
} catch (all) {
println " ### ERROR ### Max time '${params.max_time}' is not valid! Using default value: $obj"
return obj
}
} else if (type == 'cpus') {
try {
return Math.min( obj, params.max_cpus as int )
} catch (all) {
println " ### ERROR ### Max cpus '${params.max_cpus}' is not valid! Using default value: $obj"
return obj
}
}
}