The machine Mio.mines.edu represents a new concept in computing at CSM. Mio is a shared resource funded in part by the CSM Administration and in part by money from individual researchers. Mio came on line March 2010. Initially was a relatively small cluster dedicated to a single group of research projects. We expect that Mio will quickly grow in to a supercomputing class machine.
Supercomputing has become an important part of engineering and scientific research. Most current generation supercomputers are actually comprised of a collection of compute nodes with each node containing several compute cores. Such machines are often called clusters. A typical cluster supercomputer might have hundreds to thousands of compute cores. The individual compute cores work on the same computation simultaneously. The compute nodes or cores communicate with each other via a high speed network. The nodes are normally housed in a rack which also contains the infrastructure such as the communications hardware, management nodes, network connections, and power supplies.
The Mio concept is simple. CSM funds provide the infrastructure discussed above and individual professors purchase compute nodes that are added to the cluster. The professors own their nodes, that is, they have exclusive access when they need them. When they are not in use by the owners the nodes are available for use by others.
Mio will be managed by the High Performance Computing group at CSM.
The advantage of Mio for the professors is that they:
- Don’t need to manage resources
- Have full access to their resource
- Have access to other professor's resources
- Get the infrastructure provided by the school for free. This includes the Infiniband network which will greatly improve the scalability of multinode applications.
What’s in a name?
The name "Mio" is a play on words. It is a Spanish translation of the word “mine” as in belongs to me, not the hole in the ground. The phrase “The computer is mine.” can be translated as “El ordenador es mío.”
The CSM Administration has purchased the initial infrastructure for Mio at a cost of roughly $19,000. Professors can purchase nodes at a cost of $5,500. These nodes contain high end processors, 16 cores and are populated with 4 Gbytes of memory per core or 64 Gbytes per node.
Initially, Mio consisted of a Relion 2701 Head Node, 2 Relion 1702 Twin Compute Nodes (each Relion 1702 contains 2 nodes in a 1u enclosure), Infiniband and Ethernet connectivity, power supplies and a single enclosure rack. Each of the compute nodes contained two Intel 5570 Nehalem processors running at 2.93 GHz. Each Intel 5570 Nehalem processor contains 4 cores. There were be a total of 4 nodes x 2 processors per node x 4 cores per processor = 32 cores. For a complete machine description click on the Configuration link.
Current Compute Node Configuration (Updated 04/14/14):
NexlinkHPC Two Node 1U
|Line Item||Item Description|
1U Two Node Server
|1||1U NexlinkD12 Server with 1280W 80+ PSU (2 Nodes Per 1U)||1|
|2||Intel 8 Core Xeon E5 2680 2.7GHz S2011||4|
|3||8GB DDR3 1600MHz Memory Reg ECC SR 1.5V (64GB per node)||16|
|4||2TB Enterprise Class HDD SATA 7200RPM||2|
|5||Intel QDR InfiniBand HCA||2|
|6||Standard 3 Year Return to Depot Warranty, 3 Year Advanced Cross-ship||1|
Note: This is a description of a 1U "box" and each box contains 2 nodes.
After the first Mio racks were filled with nodes, additional racks were purchased along with power supplies and networking. While there is no "reasonable" hard limit on the expandability of Mio, if it is greatly expanded, consideration will be needed for power and cooling.
Purchasing a node (Updated 04/14/14)
With a purchase you are gaining several advantages. You will not need to manage the node. You have the infrastructure provided by the school. This includes the Infiniband network which will greatly increase the scalability of your multinode applications. You will gain the option of using other peoples nodes when they are not in use. To purchase a node or get pricing information email Dr. Timothy Kaiser firstname.lastname@example.org.
Contact Dr. Timothy Kaiser email@example.com.