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The table is based on July 26, 2023 data.

Slurm Partition name

Requestable features

Node
count

Sockets/
Node

Cores/
Socket

Threads/
Core

Total
Cores/
Node

RAM
(GB)

Processor (x86_64)

Local Disks

OS

Use Case

Key Attributes

moran

fdr, intel, sandy, ivy, community

273

2

8

1

16

64 or 128

Intel Ivybridge/
Sandybridge

1 TB HD

RHEL 8.8

For compute jobs not needing the latest and greatest hardware.

Original Moran compute

moran-bigmem

fdr, intel, haswell

2

2

8

1

16

512

Intel Haswell

1 TB HD

RHEL 8.8

For jobs not needing the latest hardware, w/ above average memory requirements.

Moran compute w/ 512G of RAM

moran-hugemem

fdr, intel, haswell, community

2

2

8

1

16

1024

Intel Haswell

1 TB HD

RHEL 8.8

For jobs that don’t need the latest hardware, w/ escalated memory requirements.

Moran compute w/ 1TB of RAM

dgx

edr, intel, broadwell

2

2

20

2

40

512

Intel Broadwell

7 TB SSD

RHEL 8.8

For GPU and AI-enabled workloads.

Special DGX GPU compute nodes

teton

edr, intel, broadwell, community

175

2

16

1

32

128

Intel Broadwell

240 GB SSD

RHEL 8.8

For regular compute jobs.

Teton compute

teton-cascade

edr, intel, cascade, community

56

2

20

1

40

192 or 768

Intel Cascade Lake

240 GB SSD

RHEL 8.8

For compute jobs w/ on newer-older hardware, and somewhat higher memory requirements.

Teton compute w/ Cascade Lake CPUs

teton-gpu

edr, intel, broadwell, community

6

2

16

1

32

512

Intel Broadwell

240 GB SSD

RHEL 8.8

For compute jobs utilizing GPUs on prior cluster hardware.

Teton GPU compute

teton-hugemem

edr, intel, broadwell

8

2

16

1

32

1024

Intel Broadwell

240 GB SSD

RHEL 8.8

For compute jobs w/ large memory requirements, running on fast prior cluster hardware.

Teton compute w/ 1TB of RAM

teton-massmem

edr, amd, epyc

2

2

24

1

48

4096

AMD/EPYC

4096 GB SSD

RHEL 8.6

For compute jobs w/ exceedingly demanding memory requirements

Teton compute w/ 4TB of RAM

teton-knl

edr, intel, knl

12

1

72

4

72

384

Intel Knights Landing

240 GB SSD

RHEL 8.8

For jobs using many cores on a single node, but speed isn’t critical

Teton compute w/ Intel Knight’s Landing CPU’s

beartooth

edr, intel, icelake

2

2

28

1

56

256

Intel Icelake

436 GB SSD

RHEL 8.8

For general compute jobs running the latest and greatest Beartooth hardware

Beartooth compute

beartooth-gpu

edr, intel, icelake

4

2

28

1

56

250 or 1024

Intel Icelake

436 GB SSD

RHEL 8.8

For compute jobs needing GPU on the latest and greatest hardware.

Beartooth GPU compute

beartooth-bigmem

edr, intel, icelake

6

2

28

1

56

515

Intel Icelake

436 GB SSD

RHEL 8.8

For jobs w/ above average memory requirements, on the latest and greatest hardware.

Beartooth compute w/ 512G of RAM

beartooth-hugemem

edr, intel, icelake

8

2

28

1

56

1024

Intel Icelake

436 GB SSD

RHEL 8.8

For jobs w/ large memory requirements on the latest and greatest hardware.

Beartooth compute w/ 1TB of RAM

Feature

Description of Feature

fdr

Requests nodes that are connected with an Infiniband cable with a signaling rate of 14.0625 Gbit/s

edr

Requests nodes that are connected with an Infiniband cable with a signaling rate of 25.78125 Gbit/s

intel

Requests a processor that is based on an Intel processor. Includes all Intel CPU versions in Beartooth.

ivy

Requests an Intel Ivy Bridge CPU.

sandy

Requests an Intel Sandy Bridge CPU.

broadwell

Requests an Intel Broadwell CPU.

haswell

Requests an Intel Haswell CPU.

knl

Requests an Intel Knights Landing CPU. This is a specialized chip and not good for all work loads.

icelake

Requests an Intel Icelake CPU.

amd

Requests a processor that is based on an AMD processor. Include all AMD CPU versions in Beartooth.

epyc

Requests an AMD EPYC CPU.

community

This feature indicates a node shared equally among the research community. Jobs on these nodes can’t be pre-empted, but can be queued up for far longer.

GPUs and Accelerators

The ARCC Beartooth cluster has a number of compute nodes that contain GPUs. The following tables list each node that has GPUs and the type of GPU installed.

Partition

GPU Type

Partition

Example slurm value to request

# of Nodes

GPU devices per node

CUDA Cores

Tensor Cores

GPU Memory Size (GB)

Compute Capability

Tesla P100

teton-gpu

Tesla P100

(all available on non-investor)

Code Block
#SBATCH --partition=teton-gpu
#SBATCH --gres=gpu:?

8

2

3584

0

16

6.0

V100

dgx

V100

(both available on non-investor)

Code Block
#SBATCH --partition=dgx
#SBATCH --gres=gpu:?

2

8

5120

640

16/32

7.0

A30

beartooth-gpu

A30

(4)

non-investor (3)

Code Block
#SBATCH --partition=beartooth-gpu
#SBATCH --gres=gpu:?
4

7

2

3584

224

25

8.0

T4

non-investor

2

3

2560

320

16G

7.5

Specialty Partitions

In some cases you will need to specifically define the partition to request various compute nodes. Simply requesting associated resources will not be enough. For example:

...