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Texas Instruments Incorporated (TI) and the University of Texas at Austin (UT Austin) successfully the school of scientific computing high-density linear algebra library (libflame library) transplanted to the TI TMS320C6678 multicore digital signal processor (DSP), a multi-core innovation another milestone. The transplant can bring all libflame function to provide the oil and gas exploration, financial modeling and molecular dynamics, and many other high-performance computing (HPC) applications provide basic software component blocks. This results not only demonstrate the efficient implementation of C6678 multicore DSP provides the basic features of these algorithms, but also shows the libraries ported to the TI DSP convenience. TI C6678 DSP with industry-leading 16 GFLOPs / W single-precision performance, coupled with libflame other optimization software library for the HPC market to bring ultra-low power solution.
University of Texas at Austin, Professor of Computer Science and Computer Engineering Research Institute of Texas member Robert van de Geijn said: “We can libflame and other important scientific computing libraries quickly migrate to the C6678 multi-core DSP, TI DSP not only speaks with a very high ease of use, it also demonstrates our modern methods based on C language library of linear algebra can be developed.

Earlier today, TI announced the TMS320C66x DSP series of new products for HPC developers the industry’s highest performance, lowest power multi-core DSP. TI C6678 multicore DSP and TMS320TCI6609 those requiring ultra-high performance, low power consumption and easy programming of computing the ideal choice. TI C66x multicore DSP provides 16 GFLOPs / W high performance floating point DSP core, is changing to meet the oil and gas exploration and HPC developers, financial modeling and molecular dynamics applications the way.