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The Data Accelerator (DAC) orchestrates the creation of burst buffers using commodity hardware and existing parallel file systems. Current focus is on creating NVMe backed Lustre file systems via Slurm's Burst Buffer support.
https://rse-cambridge.github.io/data-acc/
The initial development focus has been on Cambridge University's Data Accelerator. More information on the DAC can be found here:
- In June 2019 it reached #1 in the io500: https://www.vi4io.org/io500/start
- https://www.hpc.cam.ac.uk/research/data-acc
- The Cumulus supercomputer systems: https://www.top500.org/system/179577
Currently this makes use of 24 Dell EMC R740xd nodes. Each contains two Intel OmniPath network adapters and 12 Intel P4600 SSDs. Plans are in progress to support Mellanox HDR as well as other parallel file systems.
A whitepaper discussing the co-design between Cambridge, Intel, DellEMC and StackHPC is available here: https://www.dellemc.com/resources/en-us/asset/white-papers/products/ready-solutions/dell-data-accelerator-cambridge.pdf This provides results and configuration information.
For more information, please contact: [email protected]
We have a Docker Compose based Integration Test so you can try out how we integrated with Slurm. To see an end to end demo with Slurm 19.04 (but without running fs-ansible and not ssh-ing to compute nodes to mount) please try:
cd docker-slurm
./demo.sh
To clean up after the demo, including removing all docker volumes:
docker-compose down --vol --rmi all
For more details please see the docker compose README.
For an Ansible driven deployment into OpenStack VMs (useful for testing out the ansble that creates Lustre filesystems on demand), please take a look at: Development Environment Install Guide
For a manual install there are some pointers in: Manual Install Guide
There are two key binaries produced by the golang based code:
- dacd: service that runs on the storage nodes to orchestrate filesystem creation
- dacctl: CLI tool used by Slurm Cray DataWarp burst buffer plugin to orchestration burst buffer creation
All the dacd workers and the dacctl communicate using etcd: http://etcd.io
The dacd
service makes use of Ansible roles (./fs-ansible) to create the Lustre
or BeeGFS filesystems on demand, using the NVMe drives that have been assigned
by the data accellerator. Mounting on the compute nodes is currently done via ssh
(as the user running dacd), rather than using Ansible.
When you request a burst buffer via Slurm, the Cray DataWarp burst buffer plugin is used
to communicate to dacctl
. We support both per job and persistent burst buffers.
You can create a peristent burst buffer by submitting a job like this:
#BB create_persistent name=mytestbuffer capacity=4000GB access=striped type=scratch
To use the above buffer in a job, add the following pragma in a job submission script:
#DW persistentdw name=mytestbuffer
#DW jobdw capacity=2TB access_mode=striped,private type=scratch
#DW swap 1GB
#DW stage_in source=~/mytestinputfile destination=\$DW_JOB_STRIPED/filename1 type=file
#DW stage_out source=\$DW_JOB_STRIPED/outdir destination=~/test7outputdir type=directory
Please note the above job does the following:
- mounts the persistent buffer called mytestbuffer
- create a per job buffer of 2TB in size, with extra space requested for the swap
- mounts a shared directory on every compute node
- also mounts a private directory that is specific to each compute node
- adds a 1GB swap file on each compute node
- before the job starts copies in the specified file
- after the job completes copied out the specified output file
To delete a persistent buffer you submit the following:
#BB destroy_persistent name=mytestbuffer
Further details on the Slurm intergration can be found here: https://slurm.schedmd.com/burst_buffer.html
The golang code is built using make, including creating a tarball that includes all the ansible that needs to be installed on all the dacd nodes. Currently we use CircleCI to run the unit tests on every pull request before it is merged into master, this includes generating tarballs for all commits.
The following tests are currently expected to work:
- unit tests (make tests)
- Slurm integration tests using Docker compose (see below on how to run ./docker-slurm)
- Full end to end test deployment using ansible to install systemd unit files, with SSL certs for etcd, aimed at testing the Ansible inside virtual machines (./dac-ansible)
The following tests are currently a work in progress:
- functional tests for etcd (make test-func runs dac-func-test golang binary)
-
"github.com/RSE-Cambridge/data-acc/internal/pkg/registry" is the core data model of the PoolRegistry and VolumeRegistry
-
"github.com/RSE-Cambridge/data-acc/internal/pkg/keystoreregistry" depends on a keystore interface, and implements the PoolRegistry and VolumeRegistry
-
"github.com/RSE-Cambridge/data-acc/internal/pkg/etcdregistry" implements the keystore interface using etcd
-
"github.com/RSE-Cambridge/data-acc/internal/pkg/lifecycle" provides business logic on top of registry interface
-
"github.com/RSE-Cambridge/data-acc/internal/pkg/pfsprovider" provides a plugin interface, and various implementations that implement needed configuration and setup of the data accelerator node
-
"github.com/RSE-Cambridge/data-acc/internal/pkg/dacctl" this does the main work of implementing the CLI tool. While we use "github.com/urfave/cli" is used to build the cli, we keep this at arms length via a CliContext interface.
-
"github.com/RSE-Cambridge/data-acc/internal/pkg/fileio" interfaces to help with unit testing file reading and writing
-
"github.com/RSE-Cambridge/data-acc/internal/pkg/mocks" these are mock interfaces needed for unit testing, created using "github.com/golang/mock/gomock" and can be refreshed by running a build script.
Built with golang 1.14.x, using go modules for dependency management.
gomock v1.1.1 is used to generate mocks. The version is fixed to stop conflicts with etcd 3.3.x.
To build all the golang code and run unit tests locally:
cd ~/go/src/github.com/RSE-Cambridge/data-acc
make
make test
To build the tarball:
make tar
There is an experimental effort to build things inside a docker container here:
make docker
To mimic what is happening in circleci locally please see: https://circleci.com/docs/2.0/local-cli/
This work is licensed under the Apache 2. Please see LICENSE file for more information.
Copyright © 2018-2020 University of Cambridge, StackHPC Ltd