\\ **[[cluster:0|Back]]** ==== Brief Guide to HPCC ==== This page will be maintained and provide information to get users started using the compute cluster. It is a merger of the old "brief description" page and the "queue description" page. ===== Description ===== The High Performance Compute Cluster (HPCC) is comprised of several login nodes (all are on our internal network (vlan 52) //wesleyan.edu// so VPN is required for off campus access as well as for students on campus) * server ''cottontail'' (Supermicro 4U), old scheduler openlava, CentOS6 * primary login server ''cottontail2'' (Supermicro 1U), new slurm scheduler, Rocky8, Warewulf * zenoss monitoring and alerting server ''hpcmon'' (supermicro 1U), CentOS6 * secondary login server ''greentail52'' (SuperMicro 36+2, 2U), serving out /sanscratch, CentOS7, sandbox * server ''sharptail'' (Supermicro 4U), /lvm_data (backup), /zfshomes replication, CentOS6 * server ''sharptail2'' (Supermicro 2U), disaster recovery for off site (active users only), CentOS6 * storage servers ''rstore4'' and ''rstore5'' (Supermicro 4U), replicated, Samba shares (2x 220T) * storage servers ''rstore6'' and ''rstore7'' (Supermicro 4U), replicated, Samba shares (2x 220T) * storage servers ''mstore0/mstore1'' (Supermicro 4U), replicated, mounted on all HPC nodes (2x 110T) * storage server ''hpcstore'' TrueNAS, dual controller shelf and two storage shelves, /zfshomes (235T) Several types of compute nodes are available via the scheduler: * All are running CentOS 6.10 or CentOS 7.7 (except cottontail2/n100,n101 run rocky8.5) * All are x86_64, Intel Xeon chips from 2006 onwards * All are on private networks (192.168.x.x and/or 10.10.x.x, no internet) * All mount /zfshomes (235T TrueNAS/ZFS appliance 2020) and /sanscratch (xfs, 55T) * All have local disks providing varying amounts of /localscratch (usually Raid0, no backup!) * Hyperthreading is on but only 50% of logical cores allocated via scheduler Compute node categories which usually align with queues: * 32 nodes with dual quad core chips (Xeon 5620, 2.4 Ghz) in HP blade 4U enclosures (SL2x170z G6) with memory footprint of 12 GB each (384 GB). This cluster has a compute capacity of 1.5 teraflops (measured using Linpack). Known as the HP cluster, or the nodes n1-n32, queue hp12, 256 job slots. * 5 nodes with dual eight core chips (Xeon E5-2660, 2.2 Ghz) in ASUS 2U rack servers with a memory footprint of 256 GB each (1,280 GB). Nodes also contain four K20 Telsa GPU each, 2,500 cores/gpu (10,000 gpu cores per node) with GPU memory footprint of 5 GB (20 GB). This cluster has a compute capacity of 23.40 teraflops double precision or 70.40 teraflops single precision on GPU side and 2.9 teraflops on cpu side. Known as the Microway GPU cluster, or the nodes n33-n37, mwgpu (120 job slots). Old queue mw256 merged in. * 8 nodes with dual eight core chips (Xeon E5-2660, 2.2 Ghz) in Supermicro 1U rack servers with a memory footprint of 256 GB each (2,048 GB). This cluster has a compute capacity of 5.3 teraflops (estimated). Known as the Microway CPU cluster, or nodes n38-n45, queue mw256fd, 192 job slots. * 14 nodes with dual ten core chips (Xeon E5-2550 v3, 2.3 Ghz) in Supermicro 1U rack servers with a memory footprint of 32 GB each (256 GB). This cluster has a compute capacity of 12 teraflops (estimated). Known as the Microway tinymem cluster, or n46-n59, queue tinymem, 448 job slots. * 18 nodes with dual twelve core chips (Xeon E5-2650 v4, 2.2 Ghz) in Supermicro 1U rack servers with a memory footprint of 128 GB each (2,304 GB). This cluster has a compute capacity of 14.3 teraflops (estimated). Known as the Microway "Carlos" CPU cluster, or nodes n60-n77, queue mw128, 648 job slots. * 1 node with dual eight core chips (Xeon E5-2620 v4, 2.10 Ghz) in Supermicro 1U rack server with a memory footprint of 128 GB. This node has four GTX1080i (32 GB memory footprint) gpus. Known as the "amber128" queue, 24 job slots. * 12 nodes with dual twelve core chips (Xeon Silver 4214, 2.20 Ghz) in ASUS ESC4000G4 2U rack servers with a memory footprint of 96 GB ( 1,152 GB, about 20 teraflops dpfp). These node each have four RTX1080S (32 GB memory footprint) gpus providing 702 teraflops (mixed mode). Known as the "rtx2080" rack, nodes n79-n90, queue exx96, 432 job slots. * 2 nodes with dual twelve core chips (Xeon 4214R “Cascade Lake Refresh” 2.4 GHz), Supermicro 1U servers with a memory footprint of 192 GB. These nodes hold four RTX5000 gpus each. Known as the "sslurm test nodes, nodes n100-n101. Service by cottontail2, dual Xeon 5222 “Cascade Lake-SP” 3.8 GHz 4-core with a memory footprint of 96 GB. ''test'' queue, nodes n100-n101. * 6 nodes with dual 28 core chips (Xeon Gold 'Ice Lake-SP' 6330 CPU @ 2.00GHz), Supermicro 1U servers with a memory footprint of 256 GB ( 1,536 GB, about 27 teraflops dpfp). Know as "astro" rack. ''mw256'' queue nodes n102-n107. Storage server "astrostore" serves the nodes NFSoRDMA (EDR Infiniband). About 164 TB. All queues are available for job submissions via all login nodes. Some nodes on Infiniband switches for parallel computational jobs (queues: mw256fd, hp12, mw256). Our total job slot count is roughly 2,144 with our physical core count 1,480. Our total teraflops compute capacity is about 58 cpu side, 25 gpu side (double precision floating point) and 702 gpu side (mixed mode). Our total memory footprint is about 560 GB gpu side, 10,452 GB cpu side. Home directory file system are provided (via NFS or IPoIB) by the node ''hpcstore'' (our file server) from a direct attached disk array. In total, 235 TB of /zfshomes disk space is accessible to the users. Node ''greentail52'' makes available 55 TB of scratch space at /sanscratch via NFS. In addition all nodes provide local scratch space at /localscratch (excludes queue tinymem). The scheduler automatically makes directories in both these scratch areas for each job (named after JOBPID). Backup services for /zfshomes are provided via disk-to-disk replication from node ''hpcstore'' to node ''sharptail'' disk arrays. The TrueNAs/ZFS appliance performs daily snapshots with a retention window of 180 days. Some faculty&students have their home directories on node ''ringtail'' which provides 33 TB via /home33. Some faculty&students have their home directories on node ''ringtail2'' which provides 66 TB via /home33. Some faculty&students also have their own storage (2x 110 TB via /mindstore). Static content should be migrated to the Rstore platform. ===== Our Queues ===== There are no scheduler commercial software license resources. Only stata has a limited 6 user license. ^Queue^Nr Of Nodes^Total GB Mem Per Node^Total Cores In Queue^Switch^Hosts^Notes^ | stata | //na// | //na// | //na// | QDR Infiniband | //any host// | 6 licenses | Note: Matlab and Mathematica now have "unlimited licenses". ^Queue^Nr Of Nodes^Total GB Mem Per Node^Job SLots In Queue^Switch^Hosts^Notes^ | hp12 | 32 | 12 | 256 | gigabit ethernet | n1-n32 | CPU | | mwgpu | 5 | 256 | 120 | QDR infiniband | n33-n37 | GPU & CPU | | mw256fd | 8 | 256 | 192 | QDR infiniband | n38-n45 | CPU | | tinymem | 14 | 32 | 448 | gigabit ethernet | n39-n59 | CPU | | mw128 | 18 | 128 | 648 | gigabit ethernet | n60-n77 | CPU | | amber128 | 1 | 128 | 24 | gigabit ethernet | n78 | GPU & CPU | | exx96 | 12 | 96 | 432 | gigabit ethernet | n79-n90 | GPU & CPU | | test | 2 | 192 | 96 | gigabit ethernet | n100-n101 | GPU & CPU | | mw256 | 6 | 256 | 672 | EDR infiniband | n102-n102 | CPU | Some guidelines for appropriate queue usage with detailed page links: * hp12 is the default queue * for processing lots of small to medium memory footprint jobs * mwgpu is for GPU (K20) enabled software primarily (Amber, Lammps, NAMD, Gromacs, Matlab, Mathematica) * be sure to reserve one or more job slot for each GPU used [[cluster:192|EXX96]] * be sure to use the correct wrapper script to set up mpirun from mvapich2, mpich3 or openmpi * mw256fd are for jobs requiring large memory access (up to 24 jobs slots per node) * or requiring lots of threads (job slots) confined to single node (Gaussian, Autodeck) * or requiring access to fast /localscratch which is 175 GB on a 15K disk. * you must stage and save results, for an example read [[https://dokuwiki.wesleyan.edu * /doku.php?id=cluster:103#submit_2]] * or requiring larger /localscratch5tb, which is a Raid 0 file system of 5 TB * stage temporary data in /localscratch5tb/username/ and it will not be removed * tinymem are for small serial jobs with small memory requirements * nodes have a sataDOM (non spinning 16G USB device on motherboard) for operating system * do not use /localscratch on these nodes, no no * mw128 (bought with faculty startup funds) tailored for Gaussian jobs * About 2TB /localscratch (Raid 10) on each node * Priority access for Carlos' group till 07/01/2020 * amber128 (donated hardware) tailored for Amber16 jobs * Be sure to use mpich3 for Amber * Priority access for Amber jobs till 10/01/2020 * exx96 contains 4 RTX2080S per node * same setup as mwgpu queue * test contains 8 RTX5000 gpus * can be used for production runs * beware of preemptive events, checkpoint! * mw128, NFSoRDMA, bought with faculty startup monies * beware of preemptive events, checkpoint! * 6 compute nodes * Priority access for Sarah's lab till 4/1/2026 **NOTE**: we are migrating from Openlava to Slurm during summer 2022. All queues except ''hp12'' and ''mw256fd'' will be service by ''cottontail2'' Slurm scheduler. * [[cluster:213|New Head Node]] * [[cluster:218|Getting Started with Slurm Guide]] **There are no wall time limits in our HPCC environment except for queue ''test''.** You are responsible for checkpointing though. Consult these pages, all nodes in all queues are DMTCP enabled (read [[cluster:190|DMTCP]]. Login nodes and storage nodes are on UPS but all compute nodes are on utility power. Crashes do happen, be prepared to restart your long running jobs. ===== Other Stuff ===== Home directory policy and Rstore storage options [[cluster:136|HomeDir and Storage Options]] Checkpointing is supported in all queues, how it works [[cluster:190|DMTCP]] page For a list of software installed consult [[cluster:73|Software List]] page, endless... For a list of OpenHPC software installed consult [[cluster:215|Software List]] page Details on all scratch spaces consult [[cluster:142|Scratch Spaces]] page For HPCC acknowledgements consult [[cluster:53|Acknowledgement]] page Sample scripts for job submissions (serial, array, parallel, forked and gpu) can be found at ''/zfshomes/hmeij/jobs/'' and ''/zfshomes/hmeij/k20redo'' and ''/zfshomes/hmeij/slurm'' From off-campus you need to VPN in first, download GlobalProtect client at [[http://vpn.wesleyan.edu]] \\ **[[cluster:0|Back]]**