DataModel | Fabric API | Dataflow API
This ONEx repository produces OpenAPI artifacts that describe APIs and Data Models neccessary for creating open network experiments.
Here's a simple fabric example, creating a clos fabric with 1 spine, 2 pods and 1 ToR in each pod:
Click on language/format node to expand the sample!
Json
{
"choice": "spine_pod_rack",
"spine_pod_rack": {
"spines": [
{
"count": 1
}
],
"pods": [
{
"count": 2,
"pod_profile_name": [ "Pod Profile 1" ]
}
],
"pod_profiles": [
{
"name": "Pod Profile 1",
"pod_switch": {
"count": 1
},
"rack": {
"count": 2,
"rack_profile_names": [ "Rack Profile 1" ]
}
}
],
"rack_profiles": [
{
"name": "Rack Profile 1",
"tor_to_pod_oversubscription": "2:1"
}
]
}
}Yaml
choice: spine_pod_rack
spine_pod_rack:
spines:
- count: 1
pods:
- count: 2
pod_profile_name:
- Pod Profile 1
pod_profiles:
- name: Pod Profile 1
pod_switch:
count: 1
rack:
count: 2
rack_profile_names:
- Rack Profile 1
rack_profiles:
- name: Rack Profile 1
tor_to_pod_oversubscription: '2:1'Python
def fabric_sample():
config = onex.api().config()
config.fabric.spine_pod_rack.spines.add(count=1)
config.fabric.spine_pod_rack.pods.add(
count=2,
pod_profile_name=["Pod Profile 1"]
)
pod_profile = config.fabric.spine_pod_rack.pod_profiles.add(name="Pod Profile 1")
pod_profile.pod_switch.count = 1
rack_profile = config.fabric.spine_pod_rack.rack_profiles.add(
name="Rack Profile 1",
tor_to_pod_oversubscription="2:1"
)
pod_profile.rack.rack_profile_names = [ rack_profile.name ]
pod_profile.rack.count = 2Below is a simple scatter-gather dataflow example:
Json
{
"dataflow": {
"workload": [
{
"name": "Scatter",
"choice": "scatter",
"scatter": {
"sources": [
"Aggregator"
],
"destinations": [
"Compute 1",
"Compute 2"
],
"flow_profile_name": "data transfer"
}
},
{
"name": "Gather",
"choice": "gather",
"gather": {
"sources": [
"Compute 1",
"Compute 2"
],
"destinations": [
"Aggregator"
],
"flow_profile_name": "data transfer"
}
}
]
},
"hosts": [
{
"name": "Aggregator",
"address": "1.1.1.1"
},
{
"name": "Compute 1",
"address": "3.3.3.3"
},
{
"name": "Compute 2",
"address": "4.4.4.4"
}
],
"flow_profiles": [
{
"name": "data transfer",
"data_size": 1073741824
}
]
}Yaml
dataflow:
flow_profiles:
- name: data transfer
data_size: 1073741824
workload:
- name: Scatter
choice: scatter
scatter:
destinations:
- Compute 1
- Compute 2
flow_profile_name: data transfer
sources:
- Aggregator
- name: Gather
choice: gather
gather:
destinations:
- Aggregator
flow_profile_name: data transfer
sources:
- Compute 1
- Compute 2
hosts:
- name: Aggregator
address: 1.1.1.1
- name: Compute 1
address: 3.3.3.3
- name: Compute 2
address: 4.4.4.4Python
def dataflow_sample():
api = onex.api()
config = api.config()
aggregator = config.hosts.add(name="Aggregator", address="1.1.1.1")
compute1 = config.hosts.add(name="Compute 1", address="3.3.3.3")
compute2 = config.hosts.add(name="Compute 2", address="4.4.4.4")
data_transfer = config.dataflow.flow_profiles.add(name='data transfer', data_size=1*1024*1024*1024)
scatter = config.dataflow.workload.add(name="Scatter").scatter
scatter.sources = [ aggregator.name ]
scatter.destinations = [ compute1.name, compute2.name ]
scatter.flow_profile_name = data_transfer.name
gather = config.dataflow.workload.add(name="Gather").gather
gather.sources = [ compute1.name, compute2.name ]
gather.destinations = [ aggregator.name ]
gather.flow_profile_name = data_transfer.name
api.set_config(config)
api.run_experiment(api.experiment_request())
jct = api.get_metrics(api.metrics_request()).jct
print (f"Experiment complete, JCT: {jct}")This example showcase running an ML training job over a simple fabric with different fabric buffer and transport settings while also running an background traffic to put pressure on links up to the spine
Python
def configure_fabric(buffer):
# Objective: Configure a fabric with 1 spine, 2 pods, 2 ToRs pe pod and set a buffer in each port int he pod switch
api = onex.api()
config = api.config()
# Create a qos profile with the buffer settings
qos_profile = config.fabric.qos_profiles.add(name='restricted ingress admission')
qos_profile.ingress_admission.shared_buffer_bytes = 0
qos_profile.ingress_admission.reserved_buffer_bytes = buffer
# Create the topology and assign the qos profile to pod switches
config.fabric.spine_pod_rack.spines.add(count=1)
config.fabric.spine_pod_rack.pods.add(
count=2,
pod_profile_name=["Pod Profile 1"]
)
pod_profile = config.fabric.spine_pod_rack.pod_profiles.add(name="Pod Profile 1")
pod_profile.pod_switch.count = 1
rack_profile = config.fabric.spine_pod_rack.rack_profiles.add(
name="Rack Profile 1",
tor_to_pod_oversubscription="2:1"
)
pod_profile.rack.rack_profile_names = [ rack_profile.name ]
pod_profile.rack.count = 2
pod_profile.pod_switch.qos_profile_name = qos_profile.name
# Apply the fabric config
api.set_config(config)
def apply_impairments(spine_link_load):
# Objective: Inject a background traffic in the spine links to create congestion while running traffic from external hosts
api = onex.api()
config = api.get_config()
# Create the flow and injecting in the pod switch of the 1st pod
flow1 = config.chaos.background_traffic.flows.add(name="Flow 1")
flow1.fabric_entry_point.switch_reference.pod.pod_index = 1
flow1.fabric_entry_point.switch_reference.pod.switch_index = 1
stateless_flow = flow1.stateless.add(name='Load Spine')
stateless_flow.rate = spine_link_load
stateless_flow.rate_unit = 'Gbps'
# Update fabric config with background traffic
api.set_config(config)
def run_workfload(mtu):
# Objective: Create a ML Training data flow, run and print the Job Completion Time
api = onex.api()
config = onex.api().config()
storage_host = config.hosts.add(name="Data Storage 1", address="1.1.1.1")
compute1 = config.hosts.add(name="Compute 1", address="3.3.3.3")
compute2 = config.hosts.add(name="Compute 2", address="4.4.4.4")
hyperparameters = config.dataflow.flow_profiles.add(name='hyperparameters', data_size=10000)
image_data = config.dataflow.flow_profiles.add(name='image data', data_size=10000000)
gradients_exchange = config.dataflow.flow_profiles.add(name='receive and update gradients', data_size=1000000)
init_scatter = config.dataflow.workload.add(name="transfer hyperparameters").scatter
init_scatter.sources = [ storage_host.name ]
init_scatter.destinations = [ compute1.name, compute2.name ]
init_scatter.flow_profile_name = hyperparameters.name
epoch_loop = config.dataflow.workload.add(name="Epoch loop").loop
epoch_loop.iterations = 10
batch_scatter = epoch_loop.children.add(name='Transfer images').scatter
batch_scatter.sources = [ storage_host.name ]
batch_scatter.destinations = [ compute1.name, compute2.name ]
batch_scatter.flow_profile_name = image_data.name
batch_compute = epoch_loop.children.add(name='Calculate gradients').compute
batch_compute.nodes = [ compute1.name, compute2.name ]
batch_compute.simulated.duration = 10
batch_all_reduce = epoch_loop.children.add(name='Exchange gradients').all_reduce
batch_all_reduce.nodes = [ compute1.name, compute2.name ]
batch_all_reduce.flow_profile_name = gradients_exchange.name
batch_all_reduce.type = batch_all_reduce.RING
back_compute_optimizer = epoch_loop.children.add(name='Compute optimizer function + update model').compute
back_compute_optimizer.nodes = [ compute1.name, compute2.name ]
back_compute_optimizer.simulated.duration = 10
# Set the MTU
hyperparameters.ethernet.mtu = mtu
image_data.ethernet.mtu = mtu
gradients_exchange.ethernet.mtu = mtu
# Apply data flow config
api.set_config(config)
# Run the workfload and print out Job Completion Time
api.run_experiment(api.experiment_request())
jct = api.get_metrics(api.metrics_request()).jct
print (f"Experiment complete, JCT: {jct}")
def run_experiments():
for fabric_switch_port_buffer in [0, 10000, 1000000]:
configure_fabric(fabric_switch_port_buffer)
for spine_link_load in [0, 10, 20]:
apply_impairments(spine_link_load)
for mtu in [1500, 9000]:
run_workfload(mtu)The open-network-experiment organization welcomes new members to join this open source community project and contribute to its development.