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[[Category:Sapelo2]]
[[Category:Sapelo2]]
[[Category:Sapelo]]
[[Category:Teaching]]


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===  Sapelo ===
===  Sapelo ===


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The cluster is currently comprised of the following resources:  
The cluster is currently comprised of the following resources:  


* 112 compute nodes with AMD Opteron processors (48 cores and 128GB of RAM per node)  
* 16 compute nodes with AMD Opteron processors (48 cores and 128GB of RAM per node)  
* four 48-core 256GB RAM nodes with AMD Opteron processors (n16, n17, n18, n19)
* four 48-core 256GB RAM nodes with AMD Opteron processors (n16, n17, n18, n19)
* six 48-core 512GB RAM nodes with AMD Opteron processors (n20, n21, n22, n23, n24, n25)
* one 48-core 512GB RAM nodes with AMD Opteron processors (n20)
* one 48-core 1TB RAM node with AMD Opteron processors (n26)
* two 16-core 128GB RAM nodes with Intel Xeon processors and 8 NVIDIA K40m GPU cards each (n48, n49)


====[[Connecting]]====
====[[Connecting]]====
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[[#top|Back to Top]]
[[#top|Back to Top]]
-->


===  Sapelo2 ===
===  Sapelo2 ===


Sapelo2 is essentially a transformation of Sapelo. The compute layer, storage devices, and network fabrics (InfiniBand and Ethernet) remain physically in place. A new management layer using Cobbler and Puppet is installed on new hardware. The operating system is 64-bit Linux, with Centos 7.1 kernel and other components updated beyond 7.1. Two physical login nodes are available, with Intel Xeon E5-2680 v3 (Haswell) processors and 128GB of RAM and 24 cores per node.  
Sapelo2 is a Linux cluster that runs a 64-bit Rocky 8.8 operating system and it is managed using Warewulf. Several virtual login nodes are available, with Intel Xeon Gold 6230 processors, 32GB of RAM, and 16 cores per node. The queueing system on Sapelo2 is Slurm.
 
Internodal communication among the compute nodes and between these nodes and the storage systems serving the home directories and the scratch directories is provided by an EDR Infiniband network (100Gbps).
 


The cluster is currently comprised of the following resources:  
The cluster is currently comprised of the following resources:  


*60 compute nodes with AMD Opteron processors (48 cores and 128GB of RAM per node)  
'''Regular nodes'''
*30 compute nodes with Intel Xeon Broadwell processors (28 cores and 64GB of RAM per node)
 
* 1 compute node with Intel Xeon processors (28 cores and 1TB of RAM per node)
* 14 compute nodes with AMD EPYC (Genoa 4th gen) processors (128 cores and 745GB of RAM per node)
* 2 compute nodes with AMD Opteron processors (48 cores and 512GB of RAM per node)
* 120 compute nodes with AMD EPYC (Milan 3rd gen) processors (128 cores and 512GB of RAM per node)
* 2 compute nodes with Intel Xeon processors and 7 NVIDIA K40m GPU cards
* 4 compute nodes with AMD EPYC (Milan 3rd gen) processors (64 cores and 256GB of RAM per node)
* 2 compute nodes with Intel Xeon processors and 7 NVIDIA K20Xm GPU cards
* 2 compute nodes with AMD EPYC (Milan 3rd gen) processors (64 cores and 128GB of RAM per node)
* buyin nodes
* 123 compute nodes with AMD EPYC (Rome 2nd gen) processors (64 cores and 128GB of RAM per node)
* 50 compute nodes with AMD EPYC (Naples 1st gen) processors (32 cores and 128GB of RAM per node)
* 42 compute nodes with Intel Xeon Skylake processors (32 cores and 192GB of RAM per node)
 
 
'''High memory nodes (3TB/node)'''
 
* 3 compute nodes with AMD EPYC (Genoa 4th gen) processors (48 cores and 3TB of RAM per node)
 
 
'''High memory nodes (2TB/node)'''


*  2 compute nodes with AMD EPYC (Rome 2nd gen) processors (32 cores and 2TB of RAM per node)
'''High memory nodes (1TB/node)'''
* 2 compute nodes with AMD EPYC (Milan 3rd gen) processors (128 cores and 1TB of RAM per node)
* 12 compute nodes with AMD EPYC (Milan 3rd gen) processors (32 cores and 1TB of RAM per node)
* 2 compute nodes with AMD EPYC (Naples 1st gen) processors (64 cores and 1TB of RAM per node)
* 1 compute nodes with Intel Xeon Broadwell processors (28 cores and 1TB of RAM per node)
'''High memory nodes (512GB/node)'''
* 18 compute nodes with AMD EPYC (Naples 1st gen) processors (32 cores and 512GB of RAM per node)
<!-- *  1 compute node with Intel Xeon Nehalem processors (32 cores and 512GB of RAM per node) -->
'''GPU nodes'''
* 12 compute nodes with Intel Xeon SapphireRapids processors (64 cores and 1TB of RAM) and 4x NVIDIA H100 GPU cards.
* 12 compute nodes with AMD EPYC (Genoa 4th gen) processors (128 cores and 745GB of RAM) and 4x NVIDIA L4 GPU cards.
* 14 compute nodes with AMD EPYC (Milan 3rd gen) processors (64 cores and 1TB of RAM) and 4x NVIDIA A100 GPU cards.
* 2 compute nodes with Intel Xeon Skylake processors (32 cores and 187GB of RAM) and 1x NVIDIA P100 GPU card per node
<!-- * 2 compute nodes with Intel Xeon processors (16 cores and 128GB of RAM) and 8x NVIDIA K40m GPU cards per node -->
'''Buy-in nodes'''
* Various configurations
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'''Notes'''
'''Notes'''


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====[[Sapelo and Sapelo2 comparison]]====
====[[Sapelo and Sapelo2 comparison]]====


-->
====[[Connecting#Connecting_to_Sapelo2 |Connecting to Sapelo2]]====
====[[Connecting#Connecting_to_Sapelo2 |Connecting to Sapelo2]]====


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====[[Disk Storage]]====
====[[Disk Storage]]====


====[[Software Installed on Sapelo2]]====
====[[Software on Sapelo2]]====
 
====[[Available Toolchains and Toolchain Compatibility]]====


====[[Code Compilation on Sapelo2]]====
====[[Code Compilation on Sapelo2]]====
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====[[Monitoring Jobs on Sapelo2]]====
====[[Monitoring Jobs on Sapelo2]]====
====[[Migrating from Torque to Slurm]]====
'''Training material'''
To help users familiarize with Slurm and the test cluster environment, we have prepared some training videos that are available from the GACRC's Kaltura channel at https://kaltura.uga.edu/channel/GACRC/176125031 (login with MyID and password is required). Training sessions and slides are available at https://wiki.gacrc.uga.edu/wiki/Training
----
[[#top|Back to Top]]
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===  Slurm Test Cluster (Sap2test) ===
GACRC is planning to switch the queueing system on Sapelo2 from Torque/Moab to Slurm later this year. At the same time, we will update the cluster OS, from CentOS 7.5 to CentOS 7.8, the compiler toolchains, and the application software packages. Older versions of the applications, currently on Sapelo2, will only be installed in the updated cluster if necessary, upon user request.
In preparation for implementing this major change in the Fall, we are deploying a Slurm development (dev) cluster, that will be available ahead of time. The goal is to give users an environment to modify their workflow scripts to use Slurm and possibly to use newer versions of the applications, prior to the major change. All job submission scripts will need to be changed, because Slurm uses different syntax from Torque/Moab, as summarized in [[Migrating from Torque to Slurm]]. We strongly encourage everyone to fully test their ported workflow scripts on the Slurm dev cluster, to ensure a smooth transition to the new system later in the year.
This dev cluster is intended to allow users to port their workflow scripts to Slurm, and it is not a platform for users to run jobs extensively. This dev cluster currently has the following resources:
'''Regular nodes'''
* 40 compute nodes with AMD Opteron processors (48 cores, 128GB RAM per node)
* 24 compute nodes with AMD EPYC processors (64 cores, 128GB RAM per node)
*  6 compute nodes with AMD EPYC processors (32 cores, 128GB RAM per node)
*  4 compute nodes with AMD Opteron processors (48 cores, 256GB RAM per node)
*  1 compute node with Intel Broadwell processors (28 cores, 64GB RAM per node)
*  1 compute node with Intel Skylake processors (32 cores, 192GB RAM per node)
'''High memory nodes (512GB)'''
*  2 compute nodes with AMD EPYC processors (32 cores, 512GB RAM per node)
*  4 compute nodes with AMD Opteron processors (48 cores, 512GB RAM per node)
'''GPU node'''
*  1 compute node with Intel Skylake processors (32 cores, 192GB RAM per node) and a P100 GPU card
'''Storage'''
The user's home directory (/home), scratch directory (/scratch), and each group's work directory (/work) on the Slurm test cluster are the same file systems as on Sapelo2. So there is no need to transfer data between Sapelo2 and Slurm test cluster. If you have Sapelo2 specific settings in your dotfiles (for example in .bashrc or in software specific configuration files), those might need to get changed when you work on Sap2test. The environment variable GACRC_CLUSTER stores the test cluster name, and can be used to set up a cluster specific dotfile to use on the test cluster.
However, Sapelo2's /usr/local file system and therefore the applications installed on Sapelo2 are not available on the Slurm test cluster.
'''Training material'''
To help users familiarize with Slurm and the test cluster environment, we have prepared some training videos that are available from the GACRC's Kaltura channel at https://kaltura.uga.edu/channel/GACRC/176125031 (login with MyID and password is required). Training sessions and slides are available at https://wiki.gacrc.uga.edu/wiki/Training
'''Getting Help'''
If you run into any issues on the test cluster or have any questions or suggestions, please let me know via the online form below, as it will reach all the GACRC staff members:
[https://uga.teamdynamix.com/TDClient/2060/Portal/Requests/ServiceDet?ID=41600 Support for Slurm test cluster]
====[[Connecting to the Slurm test cluster]]====
====[[Sapelo2 and Sap2test comparison]]====
====[[Software on sap2test | Software Installed on the Slurm test cluster]]====
====[[Code Compilation on Sap2test]]====
====[[Available Toolchains and Toolchain Compatibility]]====
====[[Running Jobs on Sap2test | Running Jobs on the Slurm test cluster]]====
====[[Monitoring Jobs on Sap2test | Monitoring Jobs on Slurm test cluster]]====
====[[Sample batch job submission scripts on the Slurm test cluster]]====
====[[Migrating from Torque to Slurm]]====
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[[#top|Back to Top]]
-->
===  Teaching cluster ===
The teaching cluster is a Linux cluster that runs a 64-bit Linux, with Rocky 8.8. The login node is a VM that has 4 cores (Intel Xeon Gold 6230 processor) and 16GB of RAM. An EDR Infiniband network (100Gbps) provides internodal communication among compute nodes, and between the compute nodes and the storage systems serving the home directories and the work directories.
The cluster is currently comprised of the following resources:
'''Regular nodes:'''
* 10 compute nodes with AMD EPYC (Naples 1st gen) processors (32 cores and 128GB or RAM per node)
'''High-memory nodes:'''
* 2 compute nodes with AMD EPYC (Naples 1st gen) processors (64 cores and 1TB of RAM per node)
'''GPU nodes:'''
* 1 compute node with Intel Skylake processors (32 cores, 192GB RAM per node) and a P100 GPU card
<!--
*30 compute nodes with Intel Xeon X5650 2.67GHz processors (12 cores and 48GB of RAM per node)
* 2 compute nodes with Intel Xeon L7555 1.87GHz processors (32 cores and 512GB of RAM per node)
* 4 NVIDIA Tesla (Kepler) K20Xm GPU cards. These cards are installed on one host that has dual 6-core Intel Xeon CPUs and 48GB of RAM
-->
The queueing system on the teaching cluster is Slurm.
====[[Connecting#Connecting_to_the_teaching_cluster |Connecting to the teaching cluster]]====
====[[Transferring Files]]==== 
<!--
====[[Disk Storage]]====
-->
====Software Installed on the teaching cluster====
The teaching cluster has access to the same software stack installed on Sapelo2.
====[[Code Compilation on the teaching cluster]]====
====[[Running Jobs on the teaching cluster]]====
====[[Monitoring Jobs on the teaching cluster]]====

Latest revision as of 09:26, 12 September 2024



Sapelo2

Sapelo2 is a Linux cluster that runs a 64-bit Rocky 8.8 operating system and it is managed using Warewulf. Several virtual login nodes are available, with Intel Xeon Gold 6230 processors, 32GB of RAM, and 16 cores per node. The queueing system on Sapelo2 is Slurm.

Internodal communication among the compute nodes and between these nodes and the storage systems serving the home directories and the scratch directories is provided by an EDR Infiniband network (100Gbps).


The cluster is currently comprised of the following resources:

Regular nodes

  • 14 compute nodes with AMD EPYC (Genoa 4th gen) processors (128 cores and 745GB of RAM per node)
  • 120 compute nodes with AMD EPYC (Milan 3rd gen) processors (128 cores and 512GB of RAM per node)
  • 4 compute nodes with AMD EPYC (Milan 3rd gen) processors (64 cores and 256GB of RAM per node)
  • 2 compute nodes with AMD EPYC (Milan 3rd gen) processors (64 cores and 128GB of RAM per node)
  • 123 compute nodes with AMD EPYC (Rome 2nd gen) processors (64 cores and 128GB of RAM per node)
  • 50 compute nodes with AMD EPYC (Naples 1st gen) processors (32 cores and 128GB of RAM per node)
  • 42 compute nodes with Intel Xeon Skylake processors (32 cores and 192GB of RAM per node)


High memory nodes (3TB/node)

  • 3 compute nodes with AMD EPYC (Genoa 4th gen) processors (48 cores and 3TB of RAM per node)


High memory nodes (2TB/node)

  • 2 compute nodes with AMD EPYC (Rome 2nd gen) processors (32 cores and 2TB of RAM per node)


High memory nodes (1TB/node)

  • 2 compute nodes with AMD EPYC (Milan 3rd gen) processors (128 cores and 1TB of RAM per node)
  • 12 compute nodes with AMD EPYC (Milan 3rd gen) processors (32 cores and 1TB of RAM per node)
  • 2 compute nodes with AMD EPYC (Naples 1st gen) processors (64 cores and 1TB of RAM per node)
  • 1 compute nodes with Intel Xeon Broadwell processors (28 cores and 1TB of RAM per node)


High memory nodes (512GB/node)

  • 18 compute nodes with AMD EPYC (Naples 1st gen) processors (32 cores and 512GB of RAM per node)


GPU nodes

  • 12 compute nodes with Intel Xeon SapphireRapids processors (64 cores and 1TB of RAM) and 4x NVIDIA H100 GPU cards.
  • 12 compute nodes with AMD EPYC (Genoa 4th gen) processors (128 cores and 745GB of RAM) and 4x NVIDIA L4 GPU cards.
  • 14 compute nodes with AMD EPYC (Milan 3rd gen) processors (64 cores and 1TB of RAM) and 4x NVIDIA A100 GPU cards.
  • 2 compute nodes with Intel Xeon Skylake processors (32 cores and 187GB of RAM) and 1x NVIDIA P100 GPU card per node


Buy-in nodes

  • Various configurations


Connecting to Sapelo2

Transferring Files

Disk Storage

Software on Sapelo2

Available Toolchains and Toolchain Compatibility

Code Compilation on Sapelo2

Running Jobs on Sapelo2

Monitoring Jobs on Sapelo2

Migrating from Torque to Slurm

Training material

To help users familiarize with Slurm and the test cluster environment, we have prepared some training videos that are available from the GACRC's Kaltura channel at https://kaltura.uga.edu/channel/GACRC/176125031 (login with MyID and password is required). Training sessions and slides are available at https://wiki.gacrc.uga.edu/wiki/Training



Back to Top


Teaching cluster

The teaching cluster is a Linux cluster that runs a 64-bit Linux, with Rocky 8.8. The login node is a VM that has 4 cores (Intel Xeon Gold 6230 processor) and 16GB of RAM. An EDR Infiniband network (100Gbps) provides internodal communication among compute nodes, and between the compute nodes and the storage systems serving the home directories and the work directories.

The cluster is currently comprised of the following resources:

Regular nodes:

  • 10 compute nodes with AMD EPYC (Naples 1st gen) processors (32 cores and 128GB or RAM per node)

High-memory nodes:

  • 2 compute nodes with AMD EPYC (Naples 1st gen) processors (64 cores and 1TB of RAM per node)

GPU nodes:

  • 1 compute node with Intel Skylake processors (32 cores, 192GB RAM per node) and a P100 GPU card

The queueing system on the teaching cluster is Slurm.

Connecting to the teaching cluster

Transferring Files

Software Installed on the teaching cluster

The teaching cluster has access to the same software stack installed on Sapelo2.

Code Compilation on the teaching cluster

Running Jobs on the teaching cluster

Monitoring Jobs on the teaching cluster