Terra: A Lenovo x86 HPC Cluster
|Operating System:||Linux (CentOS 7)|
|Total Compute Cores/Nodes:||9,632 cores|
|Compute Nodes:||256 28-core compute nodes, each with 64GB RAM |
48 28-core GPU nodes, each with one dual-GPU Tesla K80 accelerator and 128GB RAM
8 68-core KNL nodes with 96GB RAM
8 72-core KNL nodes with 96GB RAM
|Interconnect:||Intel Omni-Path Fabric 100 Series switches.|
|Peak Performance:||377 TFLOPs|
|Global Disk:||2PB (raw) via IBM/Lenovo's GSS26 appliance for general use |
1PB (raw) via Lenovo's GSS24 purchased by and dedicated for GEOSAT
|File System:||General Parallel File System (GPFS)|
|Batch Facility:||Slurm by SchedMD|
|Location:||Teague Data Center|
|Production Date:||February 2017|
Terra is an Intel x86-64 Linux cluster with 320 compute nodes (9,632 total cores) and 3 login nodes. There are 256 compute nodes with 64 GB of memory, 48 compute nodes with 128 GB of memory and a K80 GPU card. These 304 compute nodes are a dual socket server with two Intel Xeon E5-2680 v4 2.40GHz 14-core processors. There are also 16 Intel Knights Landing (KNL) nodes with 96 GB of memory with either 68 or 72 cores per node.
The interconnecting fabric is a two-level fat-tree based on Intel Omni-Path Architecture (OPA). High performance mass storage of 3 petabyte (raw) capacity is made available to all nodes by two IBM GSS26 storage appliance and one GSS24 storage appliance.
Get details on using this system, see the User Guide for Terra.
A description of the two types of compute nodes is below:
|GPU 128 GB
|KNL 96 GB (68 core)
|KNL 96 GB (72 core)|
|Processor Type||Intel Xeon E5-2680 v4 2.40GHz 14-core||Intel Xeon Phi CPU 7250 1.40GHz||Intel Xeon Phi CPU 7290 1.50GHz|
|Memory/Node||64 GB DDR4, 2400 MHz||128 GB DDR4, 2400 MHz||96 GB DDR4, 2400 MHz|
|Accelerator(s)||N/A||1 NVIDIA K80 Accelerator||N/A|
|Interconnect||Intel Omni-Path Architecture (OPA)||Intel Omni-Path Architecture (OPA)|
|Local Disk Space||1TB 7.2K RPM SATA disk||220GB|
Note, each K80 accelerator has two GPUs.
Usable Memory for Batch Jobs
While nodes on Terra have either 64GB or 128GB of RAM, some of this memory is used to maintain the software and operating system of the node. In most cases, excessive memory requests will be automatically rejected by SLURM.
The table below contains information regarding the approximate limits of Terra memory hardware and our suggestions on its use.
|64GB Nodes||128GB Nodes||96GB KNL Nodes (68 core)||96GB KNL Nodes (72 core)|
|Number of Cores||28 Cores (2 sockets x 14 core)||68 Cores||72 Cores|
|1236 MB |
|89000 MB |
SLURM may queue your job for an excessive time (or indefinitely) if waiting for some particular nodes with sufficient memory to become free.
The terra.tamu.edu hostname can be used to access the Terra cluster. This translates into one of the three login nodes, terra[1-3].tamu.edu. To access a specific login node use its corresponding host name (e.g., terra2.tamu.edu). All login nodes have 1 GigE external connectivity and direct access to all global parallel (GPFS-based) file systems. The table below provides more details about the hardware configuration of the login nodes.
|No Accelerator||One NVIDIA K80 Accelerator|
|Processor Type||Intel Xeon E5-2680 v4 2.40GHz 14-core|
|Memory||128 GB DDR4 2400 MHz|
|Interconnect||Intel Omni-Path Architecture (OPA)|
|Local Disk Space||per node: two 900GB 10K RPM SAS drives|
2PB (raw) via two IBM/Lenovo GSS26 appliances for general use and 1PB (raw) via Lenovo's GSS24 appliance purchased by and dedicated for GEOSAT. All storage appliances will use GPFS.
"terra" comes from the Latin word for "this planet" a.k.a. "Earth". One of the purposes of this cluster is to study images gathered from a "Earth Observation Satellite" (EOS). Given that we just retired a cluster named "Eos" (named after the Greek goddess of the dawn waiting to spread the light of knowledge each day), the name terra was chosen instead