Mines’ Big Iron Supercomputer
154 Tflops 17.4Tbytes 10,496 Cores 85KW
BlueM is Mines’ newest HPC platform (in addition
to the “Mio” cluster). It is a unique machine, composed of two
distinct compute platforms or partitions that share a common
file system. Both platforms, as well as the file system, were
purchased from IBM as a package. The common file system
shared between the partitions can hold 480 TB. It has efficient
support for parallel operation (that is, multiple cores accessing
it at the same time). The two compute platforms are optimized
for different purposes.
The smaller compute platform, in terms of
capability, is AuN (“Golden”). It is a
traditional HPC platform using standard Intel
processors. It contains 144 compute nodes
connected by a high-speed network. Each
node contains 16 Intel SandyBridge compute
cores and 64 GB of memory for a total 2,304
cores and 9,216 GB of memory. AuN is rated at
You have access to a 72 Tflop HPC cluster for
50 Tflops. It is housed in two double-wide
Student and Faculty Research use
racks with 72 nodes in each rack. AuN is
designed to run jobs that require more
memory per core.
Want to get started with supercomputing?
Supercomputing is an increasingly important part of
Mc2 (“Energy”) is an IBM BlueGene. Mc2 is housed
engineering and scientific research. Mines provides an
in a single large 4’ x 4’ rack, currently half full with room for
advanced supercomputing cluster called “Mio” for the use
expansion. The BlueGene computer is designed from the
of students and faculty who wish to take advantage of this
ground up as an HPC platform. It has a very-high-speed
extraordinary high-performance computing resource.
network connecting the nodes so applications
can scale well. Each node has a processor
dedicated to systems operations in addition to
the 16 cores that are available for users. The
Students have already purchased some access to Mio with
processors on Mc2 are IBM “Power” processors.
Tech Fee funds—usable for general research, class projects,
Mc2 has 512 compute nodes, each with 16 GB of
and learning HPC techniques. Students may also at times
memory for a total core count of 8,912 user cores
use Mio nodes purchased by their academic advisor or
and 8,912 GB of memory. Mc2 is rated at 104
other professors. The HPC Group offers assistance to
Tflops. Mc2 is designed for jobs that can make
students (and faculty) to get up and running on Mio.
use of a large number of cores.
Individual consultations and workshops are available.
The total power consumption of the system is about 85 kW
with only 35 kW used by Mc2.
Mio holds many advantages for professors:
Mc2 is water cooled. AuN is currently running with rear door
• There’s no need to manage their own HPC resources
heat exchangers but could be run using air cooling only. BlueM
• Professors can access other professor's resources
is housed at the NCAR Mesa Lab facility, in Boulder, CO.
• Mines supplies high-quality Infiniband network
infrastructure, which greatly improves the scalability of
Want to know more?
• Cost is a reasonable $5,800 per node
Timothy H. Kaiser, Ph.D. (firstname.lastname@example.org)
Director of High Performance Computing
• 8 -24 compute cores per node
• 2.5GHz - 3.06GHz
• 24-192 GB/Node
• Infiniband Interconnect
• 2 GPU nodes - 7.23 Tflops
• 8 Phi/MIC cards - 16.0 Tflops
• 240 TB parallel file system
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.” The
phrase “The computer is mine” can be translated as “El
ordenador es mío.”