Difference between revisions of "Nodes"
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=== AMD Opteron supernode === | === AMD Opteron supernode === | ||
− | Opteron supernode has 4 CPUs, | + | Opteron supernode has 4 CPUs, 12 real cores each, that is 48 physical cores in total. This machine is to be used for special highly parallel computations with a lot of MPI traffic. Please ask the admins if you would like to use it. |
The supernode has a small disk array mounted in /data. Since the user of the supernode would most likely use only that node, the user should use that filesystem for I/O. | The supernode has a small disk array mounted in /data. Since the user of the supernode would most likely use only that node, the user should use that filesystem for I/O. |
Revision as of 02:01, 26 January 2013
Contents
Information on Installed Nodes
There are 4 "generations" of nodes installed on the cluster. The oldest nodes are AMD dual core, the medium-old nodes are Intel Core 2 quad cores, and the latest nodes are Intel Xeon quad cores and Intel Core i7 quad cores with HyperThreading. Our last acquisition is the AMD Opteron Supernode .The specifications of each node are given in detail below.
All nodes use Fedora 18 as their operating system.
AMD Opteron supernode
Opteron supernode has 4 CPUs, 12 real cores each, that is 48 physical cores in total. This machine is to be used for special highly parallel computations with a lot of MPI traffic. Please ask the admins if you would like to use it.
The supernode has a small disk array mounted in /data. Since the user of the supernode would most likely use only that node, the user should use that filesystem for I/O.
Node Name | Node CPU | RAM | Swap |
---|---|---|---|
node1 | 4x AMD Opteron 6234 @ 2.4 GHz | 128 GB | 100 GB |
Intel Core i7 Nodes
Core i7s nodes are quad cores with HyperThreading. This means that they have 4 cores, but present 8 cores to the operating system. Therefore you will see these nodes having 8 CPUs when looking at them in Ganglia. Since they actually only have 4 cores, you will not get a linear increase in speed once the CPU is running more than 4 threads. However, since there still is a perceptible increase in speed, it is beneficial to use all 8 threads rather than just limiting yourself to 4.
We currently have 15 of these nodes in the cluster.
Node Name | Node CPU | RAM | Swap |
---|---|---|---|
node3 | Core i7 860 @ 2.80 GHz | 12 GB | 90 GB |
node4 | Core i7 860 @ 2.80 GHz | 12 GB | 230 GB |
node5 | Core i7 860 @ 2.80 GHz | 8 GB | 230 GB |
node6 | Core i7 860 @ 2.80 GHz | 8 GB | 230 GB |
node7 | Core i7 860 @ 2.80 GHz | 8 GB | 90 GB |
node8 | Core i7 860 @ 2.80 GHz | 4 GB | 90 GB |
node9 | Core i7 2600 @ 3.40 GHz | 16 GB | 184 GB |
node10 | Core i7 860 @ 2.80 GHz | 8 GB | 230 GB |
node11 | Core i7 860 @ 2.80 GHz | 8 GB | 230 GB |
node12 | Core i7 860 @ 2.80 GHz | 8 GB | 230 GB |
node13 | Core i7 860 @ 2.80 GHz | 8 GB | 230 GB |
node14 | Core i7 860 @ 2.80 GHz | 8 GB | 230 GB |
node15 | Currently Unoperational | 8 GB | 10 GB |
node21 | Core i7 2600 @ 3.40 GHz | 16 GB | 184 GB |
node31 | Core i7 2600 @ 3.40 GHz | 16 GB | 184 GB |
Intel Xeon Virtual Nodes
There are five virtual nodes running inside Windows workstations. Each of them has a quad core Intel Xeon of SandyBridge architecture, identical to the Core i7s, but without HyperThreading. This machines are connected to the rest of the cluster nodes by a virtual private network (VPN), which is ~1.5 order of magnitude slower than the Gigabit interconnect used by the no-virtual nodes. Therefore these machines should NOT be used for MPI jobs. Virtual nodes are best suited for sequential programs, OpenMP jobs, and code development.
Node Name | Node CPU | RAM | Swap |
---|---|---|---|
vnode1 | Xeon E31220 @ 3.10 GHz | 8 GB | 50 GB |
vnode2 | Xeon E31220 @ 3.10 GHz | 8 GB | 50 GB |
vnode3 | Xeon E31220 @ 3.10 GHz | 8 GB | 50 GB |
vnode4 | Xeon E31220 @ 3.10 GHz | 8 GB | 50 GB |
vnode5 | Xeon E31220 @ 3.10 GHz | 8 GB | 50 GB |
Intel Core 2 Quad Nodes
These are slightly older machines. They have 4 physical cores and no HyperThreading, so when you look at them in Ganglia you will see that they have 4 CPUs. They are still reasonably fast.
We currently have 8 of these nodes in the cluster. In addition, node18 has a similar architecture, but has 2 CPUs (8 cores total).
Node Name | Node CPU | RAM | Swap |
---|---|---|---|
node2 | Core 2 Quad Q8200 @ 2.33 GHz | 8 GB | 90 GB |
node18 | 2x 4-core Xeon L5420 @ 2.50 GHz | 8 GB | 80 GB |
node25 | Core 2 Quad Q8200 @ 2.33 GHz | 8 GB | 649 GB |
node26 | Core 2 Quad Q8200 @ 2.33 GHz | 8 GB | 649 GB |
node27 | Core 2 Quad Q8200 @ 2.33 GHz | 8 GB | 649 GB |
node28 | Core 2 Quad Q8200 @ 2.33 GHz | 8 GB | 10 GB |
node29 | Core 2 Quad Q8200 @ 2.33 GHz | 8 GB | 90 GB |
node30 | Core 2 Quad Q8200 @ 2.33 GHz | 4 GB | 649 GB |
AMD Dual Core Nodes
These are the "ancient" machines. They have two physical cores, and also no HyperThreading. If speed isn't that important you should use these nodes. They're also good at adding some speed to your MPI MCNP runs when using the balance flag. Compiling and other disk I/O tasks are also suited well to these nodes, since all nodes have the same delay when writing to the file servers.
We currently have 7 of these nodes in the cluster.
Node Name | Node CPU | RAM | Swap |
---|---|---|---|
node16 | Athlon 64 X2 5200+ | 8 GB | 184 GB |
node17 | Athlon 64 X2 5200+ | 8 GB | 184 GB |
node19 | Athlon 64 X2 5200+ | 8 GB | 10 GB |
node20 | Athlon 64 X2 5200+ | 6 GB | 184 GB |
node22 | Athlon 64 X2 5200+ | 8 GB | 10 GB |
node23 | Athlon 64 X2 5200+ | 8 GB | 10 GB |
node24 | Athlon 64 X2 5200+ | 8 GB | 10 GB |