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What is the different between a Cluster and MPP supercomputer architecture?

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3 Answers 3

up vote 13 down vote accepted

The difference is huge. I'll spare you the LMGTFY answer, although you really should try that sometime.

In a cluster, each machine is largely independent of the others in terms of memory, disk, etc. They are interconnected using some variation on normal networking. The cluster exists mostly in the mind of the programmer and how s/he chooses to distribute the work.

In a Massively Parallel Processor, there really is only one machine with thousands of CPUs tightly interconnected. MPPs have exotic memory architectures to allow extremely high speed exchange of intermediate results with neighboring processors.

The major variants are SIMD (Single Instruction, Multiple Data) and MIMD (Multiple Instruction, Multiple Data). In a SIMD system, every processor is executing the same instruction at the same time, only on different bits of memory. Essentially, there is only one Program Counter. In a MIMD machine, each CPU has it's own PC.

MPPs can be a bitch to program and are of use only on algorithms that are embarrassingly parallel (that's actually what they call it). However, if you have such a problem, then an MPP can be shockingly fast. They are also incredibly expensive.

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I much more agree with the ang mo's answer below. Today's MPPs in TOP500 have (typically, if not all) hybrid distributed-shared memory architectures. For programmers there is no difference, MPI (+OpenMP,CUDA,...) is mostly used in practice. Sometimes, toplogy-aware codes can perform better, but at the cost of portability loss. –  Daniel Langr Aug 21 '14 at 13:23
You are probably correct. Unfortunately the paper referenced by ang mo is behind a paywall, so I can't comment on it directly. My answer was, admittedly, based on my own experiences dating back quite a few years (e.g. 1990 MasPar machines). The present-day technology that is most closely related to my answer is probably the parallel stream processing in a modern GPGPU. I believe that the one enduring constant is that using any sort of MPP requires the programmer to think very differently about how their problem should be attacked. –  Peter Rowell Aug 21 '14 at 18:05
Sure, today's terminology is a bit different. Machines like BG/Q or Cray XC are considered MPPs. Wikipedia states that MPPs have many of the same characteristics as clusters, but MPPs have specialized interconnect networks (whereas clusters use commodity hardware for networking), which is the terminology I would adopt. –  Daniel Langr Aug 22 '14 at 7:35

The top500 list uses a slightly different distinction between an MPP and a cluster, as explained in Dongarra et al. paper:

[a cluster is a] parallel computer system comprising an integrated collection of independent nodes, each of which is a system in its own right, capable of independent operation and derived from products developed and marketed for other stand-alone purposes

Compared to a cluster, a modern MPP (such as the IBM Blue Gene) is more tightly-integrated: individual nodes cannot run on their own and they are connected by a custom network (like a multidimensional torus). But, similarly to a cluster, an MPP doesn't have shared memory. I'd be thus extremely careful to use terms SIMD and MIMD in this context as they usually describe shared memory architectures (SMP).

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A cluster is a bunch of machines, normally usually Ethernet interconnect (read: network), each running it's own and separate copy of an OS which happen to serve a single purpose.

An MPP supercomputer usually implies a faster propitiatory very fast interconnect (e.g. SGI NUMALink) that supports either Distributed Shared Memory (run processes on different MPP nodes that use shared memory over the fast interconnect to share data as if they were running on a single computer) or even a Single System Image (a single instance of an operating system, mostly Linux, running on all the nodes at the same time as if on a single machine - e.g. "ps aux" on any node will show you all the processes running on the MPP).

As you can see the definition is quite fluid, it's more a question of scale rather than clear cut differences.

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