Caltech Cosmic Cube

The Caltech Cosmic Cube was a parallel computer, developed by Charles Seitz and Geoffrey C Fox from 1981 onward.^[1] It was the first working hypercube built.^[2]

It was an early attempt to capitalise on VLSI to speed up scientific calculations at a reasonable cost. Using commodity hardware and an architecture suited to the specific task (QCD), Fox and Seitz demonstrated that this was indeed possible.

In 1984 a group at Intel including Justin Rattner and Cleve Moler developed the Intel iPSC inspired by the Cosmic Cube.^[3] In 1987 several people in the group formed a company called Parasoft to commercialize the message passing interface developed for the Cosmic Cube.^[4]

Characteristics

64 Intel 8086/87 processors^[5]
128kB of memory per processor
6-dimensional hypercube network, i. e. each processor can directly exchange data with six other processors.

References

^ Cosmic Cubism from Engineering & Science, March 1984 http://calteches.library.caltech.edu/3419/1/Cubism.pdf
^ Anderson, A. John (1994). Foundations of Computer Technology. CRC Press. p. 378. ISBN 978-0412598104.
^ Cleve Moler (October 28, 2013). "The Intel Hypercube, part 1". Retrieved November 4, 2013.
^ History of Supercomputing
^ Birth of the Hypercube

The Torus Routing Chip
Parallel Computer Archival Documents
John Apostolakis, Clive Baillie, Robert W. Clayton, Hong Ding, Jon Flower, Geoffrey C. Fox, Thomas D. Gottschalk, Bradford H. Hager, Herbert B. Keller, Adam K. Kolawa, Steve W. Otto, Toshiro Tanimoto, Eric F. van de Velde, J. Barhen, J. R. Einstein, and C. C. Jorgensen. 1989. "Supercomputer applications of the hypercube"—In Supercomputing systems: architectures, design, and performance, Svetlana P. Kartashev and Steven I. Kartashev (Eds.). Van Nostrand Reinhold Co., New York, NY, USA:1989 Pages 480–577.

External links

The C Programmer's Abbreviated Guide to Multicomputer Programming

[1] Cosmic Cubism from Engineering & Science, March 1984 http://calteches.library.caltech.edu/3419/1/Cubism.pdf

[2] Anderson, A. John (1994). Foundations of Computer Technology. CRC Press. p. 378. ISBN 978-0412598104.

[3] Cleve Moler (October 28, 2013). "The Intel Hypercube, part 1". Retrieved November 4, 2013.

[4] History of Supercomputing

[5] Birth of the Hypercube

[1]

[2]

[3]

[4]

[5]

v t e Parallel computing
General	Distributed computing Parallel computing Parallel algorithm Massively parallel Cloud computing High-performance computing Multiprocessing Manycore processor GPGPU Computer network Systolic array
Levels	Bit Instruction Thread Task Data Memory Loop Pipeline
Multithreading	Temporal Simultaneous (SMT) Simultaneous and heterogenous Speculative (SpMT) Preemptive Cooperative Clustered multi-thread (CMT) Hardware scout
Theory	PRAM model PEM model Analysis of parallel algorithms Amdahl's law Gustafson's law Cost efficiency Karp–Flatt metric Slowdown Speedup
Elements	Process Thread Fiber Instruction window Array
Coordination	Multiprocessing Memory coherence Cache coherence Cache invalidation Barrier Synchronization Application checkpointing
Programming	Stream processing Dataflow programming Models Implicit parallelism Explicit parallelism Concurrency Non-blocking algorithm
Hardware	Flynn's taxonomy SISD SIMD Array processing (SIMT) Pipelined processing Associative processing MISD MIMD Dataflow architecture Pipelined processor Superscalar processor Vector processor Multiprocessor symmetric asymmetric Memory shared distributed distributed shared UMA NUMA COMA Massively parallel computer Computer cluster Beowulf cluster Grid computer Hardware acceleration
APIs	Ateji PX Boost Chapel HPX Charm++ Cilk Coarray Fortran CUDA Dryad C++ AMP Global Arrays GPUOpen MPI OpenMP OpenCL OpenHMPP OpenACC Parallel Extensions PVM pthreads RaftLib ROCm UPC TBB ZPL
Problems	Automatic parallelization Deadlock Deterministic algorithm Embarrassingly parallel Parallel slowdown Race condition Software lockout Scalability Starvation
Category: Parallel computing

Caltech Cosmic Cube

Characteristics

References

External links

Wikious

Boobota

Sagapedia