- 1 General Information
- 2 Cluster Administration
- 3 Software packages available on HCL Cluster 2.0
- 4 Access and Security
- 5 Some networking issues on HCL cluster (unsolved)
- 6 Paging and the OOM-Killer
- 7 Manually Limit the Memory on the OS level
The hcl cluster is heterogeneous in computing hardware & network ability.
Nodes are from Dell, IBM, and HP, with Celeron, Pentium 4, Xeon, and AMD processors ranging in speeds from 1.8 to 3.6Ghz. Accordingly architectures and parameters such as Front Side Bus, Cache, and Main Memory all vary.
Operating System used is Debian “squeeze” with Linux kernel 2.6.32.
The network hardware consists of two Cisco 24+4 port Gigabit switches. Each node has two Gigabit ethernet ports - each eth0 is connected to the first switch, and each eth1 is connected to the second switch. The switches are also connected to each other. The bandwidth of each port can be configured to meet any value between 8Kb/s and 1Gb/s. This allows testing on a very large number of network topologies, As the bandwidth on the link connecting the two switches can also be configured, the cluster can actually act as two separate clusters connected via one link.
The diagram shows a schematic of the cluster.
Detailed Cluster Specification
- Dell Poweredge 750 Documentation
- Dell Poweredge SC1425 Documentation
- IBM x-Series 306 Documentation
- IBM e-Series 326 Documentation
- HP Proliant DL-140 G2 Documentation
- HP Proliant DL-320 G3 Documentation
- Cisco Catalyst 3560 Specifications
- Cisco Catalyst 3560 User Guide
- HCL Cluster Network
If PBS jobs do not start after a reboot of heterogeneous.ucd.ie it may be necessary to manually start maui:
heterogeneous.ucd.ie has a number of Expect scripts to automate administration on the cluster (in
root_ssh will automatically log into a host, provide the root password and either return a shell to the user or execute a command that is passed as a second argument. Command syntax is as follows:
# root_ssh usage: root_ssh [user@]<host> [command]
Example usage, to login and execute a command on each node in the cluster (note the file
/etc/dsh/machines.list contains the hostnames of all compute nodes of the cluster):
# for i in `seq -w 1 16`; do root_ssh hcl$i ps ax \| grep pbs; done
The above is sequential. To run parallel jobs, for example:
apt-get update && apt-get -y upgrade, try the following trick with screen:
# for i in `seq -w 1 16`; do screen -L -d -m root_ssh hcl$i apt-get update \&\& apt-get -y upgrade; done
You can check the screenlog.* files for errors and delete them when you are happy. Sometimes all logs are sent to screenlog.0, not sure why.
Software packages available on HCL Cluster 2.0
Wit a fresh installation of operating systems on HCL Cluster the follow list of packages are avalible:
To do unattended updates on cluster machines you need to specify some environment variables and switches to apt-get:
export DEBIAN_FRONTEND=noninteractive apt-get -q -y upgrade
NOTE: on hcl01 and hcl02 any updates to grub will force a prompt, despite the switches above. This happens because there are two disks on these machines and grub asks which it should install itself on.
Access and Security
All access and security for the cluster is handled by the gateway machine (heterogeneous.ucd.ie). This machine is not considered a compute node and should not be used as such. The only new incoming connections allowed are ssh, other incoming packets such as http that are responding to requests from inside the cluster (established or related) are also allowed. Incoming ssh packets are only accepted if they are originating from designated IP addresses. These IP's must be registered ucd IP's. csserver.ucd.ie is allowed, as is hclgate.ucd.ie, on which all users have accounts. Thus to gain access to the cluster you can ssh from csserver, hclgate or other allowed machines to heterogeneous. From there you can ssh to any of the nodes (hcl01-hcl16) that you are running a pbs job on.
Access from outside the UCD network is only allowed once you have gained entry to a server that allows outside connections (such as csserver.ucd.ie)
Creating new user accounts
As root on heterogeneous run:
adduser <username> make -C /var/yp
Access to the nodes is controlled by Torque PBS.
Use qsub to submit a job, -I is for an interactive session, walltime is time required.
qsub -I -l walltime=1:00 \\ Reserve 1 node for 1 hour qsub -l nodes=hcl01+hcl07,walltime=1:00 myscript.sh
#!/bin/sh #General Script # # #These commands set up the Grid Environment for your job: #PBS -N JOBNAME #PBS -l walltime=48:00:00 #PBS -l nodes=16 #PBS -m abe #PBS -k eo #PBS -V echo foo
So see the queue
qstat -n showq
To remove your job
More info: 
Some networking issues on HCL cluster (unsolved)
"/sbin/route" should give:
Kernel IP routing table Destination Gateway Genmask Flags Metric Ref Use Iface 188.8.131.52 * 255.255.255.255 UH 0 0 0 eth0 heterogeneous.u * 255.255.255.255 UH 0 0 0 eth0 192.168.21.0 * 255.255.255.0 U 0 0 0 eth1 192.168.20.0 * 255.255.255.0 U 0 0 0 eth0 192.168.20.0 * 255.255.254.0 U 0 0 0 eth0 192.168.20.0 * 255.255.254.0 U 0 0 0 eth1 default heterogeneous.u 0.0.0.0 UG 0 0 0 eth0
For reasons unclear, sometimes many machines miss the entry:
192.168.21.0 * 255.255.255.0 U 0 0 0 eth1
For Open MPI, this leads to inability to do a system sockets "connect" call to any 192.*.21.* address (hangup). For this case, you can
- switch off eth1 (see also  ):
mpirun --mca btl_tcp_if_exclude lo,eth1 ...
- you can restore the above table on all nodes by running "sh /etc/network/if-up.d/00routes" as root
It is not yet clear why without this entry the connection to the "21" addresses can't be connected. We expect that in this case following rule should be matched (because of the mask):
192.168.20.0 * 255.255.254.0 U 0 0 0 eth0
The packets leave over the eth0 network interface then and should go over switch1 to switch2 and eth1 interface of the corresponding node
- If one attempts a ping from one node A, via its eth0 interface, to the address of another node's (B) eth1 interface, the following is observed:
- outgoing ping packets appear only on the eth0 interface of the first node A.
- incoming ping packets appear only on eth1 interface of the second node B.
- outgoing ping response packets appear on the eth0 interface of the second node B, never on the eth1 interface despite pinging the eth1 address specifically.
What explains this? With the routing tables as they are above, or in the damaged case, the ping may arrive to the correct interface, but the response from B is routed to A-eth0 via B-eth0. Further, after a number of ping packets have been sent in sequence (50 to 100), pings from A, though the -i eth0 switch is specified, begin to appear on both A-eth0 and A-eth1. This behaviour is unexpected, but does not effect the return path of the ping response packet.
In order to get a symmetric behaviour, where a packet leaves A-eth0, travels via the switch bridge to B-eth1 and returns back from B-eth1 to A-eth0, one must ensure the routing table of B contains no eth0 entries.
Paging and the OOM-Killer
Please read Virtual Memory Overcommit page for details. For reasons given overcommit has been disabled on the cluster.
cat /proc/sys/vm/overcommit_memory 2 cat /proc/sys/vm/overcommit_ratio 100
To restore to default overcommit
# echo 0 > /proc/sys/vm/overcommit_memory # echo 50 > /proc/sys/vm/overcommit_ratio
Manually Limit the Memory on the OS level
Memory can be manually limited in the grub. This should be reset when you are finished. If you are doing memory exaustive experiments test check this has not being adjusted by someone else. See Memory size, overcommit, limit for more detail.