BinAC2/Hardware and Architecture: Difference between revisions
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= Hardware and Architecture = |
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The bwForCluster BinAC 2 supports researchers from the broader fields of Bioinformatics, Astrophysics, and Geosciences. |
The bwForCluster BinAC 2 supports researchers from the broader fields of Bioinformatics, Astrophysics, and Geosciences. |
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== Operating System and Software == |
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* Operating System: . |
* Operating System: Rocky Linux 9.4 |
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* Queuing System: [https://slurm.schedmd.com/documentation.html Slurm] (see [[BinAC2/Slurm]] for help) |
* Queuing System: [https://slurm.schedmd.com/documentation.html Slurm] (see [[BinAC2/Slurm]] for help) |
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* (Scientific) Libraries and Software: [[Environment Modules]] |
* (Scientific) Libraries and Software: [[Environment Modules]] |
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| ⚫ | |||
| ⚫ | |||
BinAC 2 offers compute nodes, high-mem nodes, and two types of GPU nodes. |
BinAC 2 offers compute nodes, high-mem nodes, and two types of GPU nodes. |
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* |
* 180 compute nodes |
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* 14 SMP node |
* 14 SMP node |
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* 32 GPU nodes (A30) |
* 32 GPU nodes (A30) |
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* 8 GPU nodes (A100) |
* 8 GPU nodes (A100) |
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* |
* plus several special purpose nodes for login, interactive jobs, etc. |
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Compute node specification: |
Compute node specification: |
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!scope="column"| Quantity |
!scope="column"| Quantity |
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| 180 |
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| 14 |
| 14 |
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| 32 |
| 32 |
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| Line 73: | Line 72: | ||
| - |
| - |
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| - |
| - |
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| 2 x [ |
| 2 x [https://www.nvidia.com/de-de/data-center/products/a30-gpu/ NVIDIA A30 (24 GB ECC HBM2, NVLink] |
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| 4 x [https://www.nvidia.com/ |
| 4 x [https://www.nvidia.com/de-de/data-center/a100/ NVIDIA A100 (80 GB ECC HBM2e)] |
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|} |
|} |
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= Network = |
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The compute nodes and the parallel file system are connected via 100GbE ethernet</br> |
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In contrast to BinAC 1 not all compute nodes are connected via Infiniband, but there are 80 standard compute nodes connected via HDR Infiniband (100 GbE). In order to get your jobs onto the Infiniband nodes, submit your job with <code>--constraint=ib</code>. |
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| ⚫ | |||
The bwForCluster BinAC 2 consists of two separate storage systems, one for the user's home directory $HOME and one serving as a project/work space. |
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=== Special Purpose Nodes === |
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The home directory is limited in space and parallel access but offers snapshots of your files and backup. |
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The project/work is a parallel file system (PFS) which offers fast and parallel file access and a bigger capacity than the home directory. It is mounted at <code>/pfs/10</code> on the login and compute nodes. This storage is based on Lustre and can be accessed parallel from many nodes. The PFS contains the project and the work directory. Each compute project has its own directory at <code>/pfs/10/project</code> that is accessible for all members of the compute project. |
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Besides the classical compute node several nodes serve as login and preprocessing nodes, nodes for interactive jobs and nodes for creating virtual environments providing a virtual service environment. |
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Each user can create workspaces under <code>/pfs/10/work</code> using the workspace tools. These directories are only accessible for the user who created the workspace. |
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Additionally, each compute node provides high-speed temporary storage (SSD) on the node-local solid state disk via the $TMPDIR environment variable. |
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| ⚫ | |||
The bwForCluster [https://www.binac.uni-tuebingen.de BinAC] consists of two separate storage systems, one for the user's home directory <tt>$HOME</tt> and one serving as a work space. The home directory is limited in space and parallel access but offers snapshots of your files and Backup. The work space is a parallel file system which offers fast and parallel file access and a bigger capacity than the home directory. This storage is based on [https://www.beegfs.com/ BeeGFS] and can be accessed parallel from many nodes. Additionally, each compute node provides high-speed temporary storage (SSD) on the node-local solid state disk via the <tt>$TMPDIR</tt> environment variable. |
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{| class="wikitable" |
{| class="wikitable" |
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! style="width:10%"| |
! style="width:10%"| |
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! style="width:10%"| <tt>$HOME</tt> |
! style="width:10%"| <tt>$HOME</tt> |
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! style="width:10%"| |
! style="width:10%"| project |
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! style="width:10%"| work |
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! style="width:10%"| <tt>$TMPDIR</tt> |
! style="width:10%"| <tt>$TMPDIR</tt> |
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|- |
|- |
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!scope="column" | Visibility |
!scope="column" | Visibility |
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| global |
| global |
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| global |
| global |
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| global |
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| node local |
| node local |
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|- |
|- |
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!scope="column" | Lifetime |
!scope="column" | Lifetime |
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| permanent |
| permanent |
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| permanent |
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| work space lifetime (max. 30 days, max. |
| work space lifetime (max. 30 days, max. 5 extensions) |
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| batch job walltime |
| batch job walltime |
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|- |
|- |
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!scope="column" | Capacity |
!scope="column" | Capacity |
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| |
| - |
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| 8.1 PB |
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| 1000 TB |
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| 211 GB per node |
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| 512 GB per node; 1920 GB on high-mem nodes |
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|- |
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!scope="column" | Speed |
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| ... |
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| ... |
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| ... |
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| ... |
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|- |
|- |
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!scope="column" | [https://en.wikipedia.org/wiki/Disk_quota#Quotas Quotas] |
!scope="column" | [https://en.wikipedia.org/wiki/Disk_quota#Quotas Quotas] |
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| 40 GB per user |
| 40 GB per user |
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| not yet, maybe in the future |
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| none |
| none |
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| none |
| none |
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!scope="column" | Backup |
!scope="column" | Backup |
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| yes |
| yes |
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| no |
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| no |
| no |
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| no |
| no |
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batch job walltime : files are removed at end of the batch job |
batch job walltime : files are removed at end of the batch job |
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| ⚫ | |||
| ⚫ | |||
| ⚫ | |||
Because the backup space is limited we enforce a quota of 40GB on the home directories. |
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| ⚫ | |||
| ⚫ | |||
| ⚫ | |||
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<!-- |
<!-- |
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Current disk usage on home directory and quota status can be checked with the '''diskusage''' command: |
Current disk usage on home directory and quota status can be checked with the '''diskusage''' command: |
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$ diskusage |
$ diskusage |
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------------------------------------------------------------------------ |
------------------------------------------------------------------------ |
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<username> 4.38 100.00 4.38 |
<username> 4.38 100.00 4.38 |
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--> |
--> |
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| ⚫ | |||
Each compute project has its own project directory at <code>/pfs/10/project</code>. |
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<pre> |
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$ ls -lh /pfs/10/project/ |
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| ⚫ | |||
drwxrwx---. 2 root bw16f003 33K Dec 12 16:46 bw16f003 |
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[...] |
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</pre> |
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As you can see the directory is owned by a group representing your compute project (here bw16f003) and the directory is accessible by all group members. It is upon your group to decide how to use the space inside this directory: shared data folders, personal directories for each project member, software containers, etc. |
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The data is stored on HDDs. The primary focus of <code>/pfs/10/project</code> is pure capacity, not speed. |
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<!-- |
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'''Quota is full - what to do''' |
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| ⚫ | |||
In case of 100% usage of the quota user can get some problems with disk writing operations (e.g. error messages during the file copy/edit/save operations). To avoid it - please remove some data that you don't need from the $HOME directory or move it to some temporary place. |
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The data at <code>/pfs/10/work</code> is stored on SSDs. The primary focus is speed, not capacity. |
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As temporary place for the data user can use: |
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In contrast to BinAC 1 we will enforce work space lifetime, as the capacity is limited. |
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We ask you to only store data you actively use for computations on <code>/pfs/10/work</code>. |
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Please move data to <code>/pfs/10/project</code> when you don't need it on the fast storage any more. |
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Each user can create workspaces at <code>/pfs/10/work</code> through the workspace tools |
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* '''Workspace''' - space on the BeeGFS file system, lifetime up to 90 days (see below) |
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| ⚫ | |||
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* '''Scratch on login nodes''' - special directory on every login node (login01..login03): |
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** Access via variable $TMPDIR (e.g. "cd $TMPDIR") |
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** Lifetime of data - minimum 7 days (based on the last access time) |
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** Data is private for every user |
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** Each login node has own scratch directory (data is NOT shared) |
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** There is NO backup of the data |
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To get optimal and comfortable work with the $HOME directory is important to keep the data in order (remove unnecessary and temporary data, archive big files, save large files only on the workspace). |
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--> |
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| ⚫ | |||
Work spaces can be generated through the <tt>workspace</tt> tools. This will generate a directory on the parallel storage. |
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| ⚫ | |||
| ⚫ | |||
Examples: |
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{| class="wikitable" |
{| class="wikitable" |
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!style="width:70%" | Action |
!style="width:70%" | Action |
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|< |
|<code>ws_allocate mywork 30</code> |
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|Allocate a work space named "mywork" for 30 days. |
|Allocate a work space named "mywork" for 30 days. |
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|< |
|<code>ws_allocate myotherwork</code> |
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|Allocate a work space named "myotherwork" with maximum lifetime. |
|Allocate a work space named "myotherwork" with maximum lifetime. |
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|- |
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|< |
|<code>ws_list -a</code> |
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|List all your work spaces. |
|List all your work spaces. |
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|< |
|<code>ws_find mywork</code> |
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|Get absolute path of work space "mywork". |
|Get absolute path of work space "mywork". |
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|< |
|<code>ws_extend mywork 30</code> |
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|Extend life me of work space mywork by 30 days from now |
|Extend life me of work space mywork by 30 days from now. |
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|< |
|<code>ws_release mywork</code> |
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|Manually erase your work space "mywork". Please remove directory content first. |
|Manually erase your work space "mywork". Please remove directory content first. |
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|} |
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=== |
=== Scratch === |
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All compute nodes are equipped with a local SSD with 200 GB capacity for job execution. During computation the environment variable <tt>$TMPDIR</tt> points to this local disk space. The data will become unavailable as soon as the job has finished. |
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Please use the fast local scratch space for storing temporary data during your jobs. |
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| ⚫ | |||
For each job a scratch directory will be created on the compute nodes. It is available via the environment variable <code>$TMPDIR</code>, which points to <code>/scratch/<jobID></code>. |
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SDS@hd is mounted only on login03 at <tt>/sds_hd</tt>. |
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To access your Speichervorhaben, please see the [[SDS@hd/Access/NFS#access_your_data|SDS@hd documentation]]. |
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If you can't see your Speichervorhaben, you can [[BinAC/Support|open a ticket]]. |
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Latest revision as of 17:54, 13 December 2024
Hardware and Architecture
The bwForCluster BinAC 2 supports researchers from the broader fields of Bioinformatics, Astrophysics, and Geosciences.
Operating System and Software
- Operating System: Rocky Linux 9.4
- Queuing System: Slurm (see BinAC2/Slurm for help)
- (Scientific) Libraries and Software: Environment Modules
Compute Nodes
BinAC 2 offers compute nodes, high-mem nodes, and two types of GPU nodes.
- 180 compute nodes
- 14 SMP node
- 32 GPU nodes (A30)
- 8 GPU nodes (A100)
- plus several special purpose nodes for login, interactive jobs, etc.
Compute node specification:
| Standard | High-Mem | GPU (A30) | GPU (A100) | |
|---|---|---|---|---|
| Quantity | 180 | 14 | 32 | 8 |
| Processors | 2 x AMD EPYC Milan 7543 | 2 x AMD EPYC Milan 7443 | 2 x AMD EPYC Milan 7543 | 2 x AMD EPYC Milan 7543 |
| Processor Frequency (GHz) | 2.80 | 2.85 | 2.80 | 2.80 |
| Number of Cores | 64 | 48 | 64 | 64 |
| Working Memory (GB) | 512 | 2048 | 512 | 512 |
| Local Disk (GB) | 512 (SSD) | 1920 (SSD) | 512 (SSD) | 512 (SSD) |
| Interconnect | HDR IB (80 nodes) / 100GbE | HDR | HDR | HDR |
| Coprocessors | - | - | 2 x NVIDIA A30 (24 GB ECC HBM2, NVLink | 4 x NVIDIA A100 (80 GB ECC HBM2e) |
Network
The compute nodes and the parallel file system are connected via 100GbE ethernet
In contrast to BinAC 1 not all compute nodes are connected via Infiniband, but there are 80 standard compute nodes connected via HDR Infiniband (100 GbE). In order to get your jobs onto the Infiniband nodes, submit your job with --constraint=ib.
Storage
The bwForCluster BinAC 2 consists of two separate storage systems, one for the user's home directory $HOME and one serving as a project/work space. The home directory is limited in space and parallel access but offers snapshots of your files and backup.
The project/work is a parallel file system (PFS) which offers fast and parallel file access and a bigger capacity than the home directory. It is mounted at /pfs/10 on the login and compute nodes. This storage is based on Lustre and can be accessed parallel from many nodes. The PFS contains the project and the work directory. Each compute project has its own directory at /pfs/10/project that is accessible for all members of the compute project.
Each user can create workspaces under /pfs/10/work using the workspace tools. These directories are only accessible for the user who created the workspace.
Additionally, each compute node provides high-speed temporary storage (SSD) on the node-local solid state disk via the $TMPDIR environment variable.
| $HOME | project | work | $TMPDIR | |
|---|---|---|---|---|
| Visibility | global | global | global | node local |
| Lifetime | permanent | permanent | work space lifetime (max. 30 days, max. 5 extensions) | batch job walltime |
| Capacity | - | 8.1 PB | 1000 TB | 512 GB per node; 1920 GB on high-mem nodes |
| Speed | ... | ... | ... | ... |
| Quotas | 40 GB per user | not yet, maybe in the future | none | none |
| Backup | yes | no | no | no |
global : all nodes access the same file system local : each node has its own file system permanent : files are stored permanently batch job walltime : files are removed at end of the batch job
Home
Home directories are meant for permanent file storage of files that are keep being used like source codes, configuration files, executable programs etc.; the content of home directories will be backed up on a regular basis. Because the backup space is limited we enforce a quota of 40GB on the home directories.
NOTE: Compute jobs on nodes must not write temporary data to $HOME. Instead they should use the local $TMPDIR directory for I/O-heavy use cases and work spaces for less I/O intense multinode-jobs.
Project
Each compute project has its own project directory at /pfs/10/project.
$ ls -lh /pfs/10/project/ drwxrwx---. 2 root bw16f003 33K Dec 12 16:46 bw16f003 [...]
As you can see the directory is owned by a group representing your compute project (here bw16f003) and the directory is accessible by all group members. It is upon your group to decide how to use the space inside this directory: shared data folders, personal directories for each project member, software containers, etc.
The data is stored on HDDs. The primary focus of /pfs/10/project is pure capacity, not speed.
Work
The data at /pfs/10/work is stored on SSDs. The primary focus is speed, not capacity.
In contrast to BinAC 1 we will enforce work space lifetime, as the capacity is limited.
We ask you to only store data you actively use for computations on /pfs/10/work.
Please move data to /pfs/10/project when you don't need it on the fast storage any more.
Each user can create workspaces at /pfs/10/work through the workspace tools
To create a work space you'll need to supply a name for your work space area and a lifetime in days.
For more information read the corresponding help, e.g: ws_allocate -h.
| Command | Action |
|---|---|
ws_allocate mywork 30
|
Allocate a work space named "mywork" for 30 days. |
ws_allocate myotherwork
|
Allocate a work space named "myotherwork" with maximum lifetime. |
ws_list -a
|
List all your work spaces. |
ws_find mywork
|
Get absolute path of work space "mywork". |
ws_extend mywork 30
|
Extend life me of work space mywork by 30 days from now. |
ws_release mywork
|
Manually erase your work space "mywork". Please remove directory content first. |
Scratch
Please use the fast local scratch space for storing temporary data during your jobs.
For each job a scratch directory will be created on the compute nodes. It is available via the environment variable $TMPDIR, which points to /scratch/<jobID>.