A Thematic Exploration of "For Colored Girls Who Have Considered Suicide/ When the Rainbow is Enuf," by Ntozake Shange

Richard, Jocelyn M.

January 2001

No description available.

Algorithms for Molecular Dynamics Simulations

Hedman, Fredrik

January 2006

<p>Methods for performing large-scale parallel Molecular Dynamics(MD) simulations are investigated. A perspective on the field of parallel MD simulations is given. Hardware and software aspects are characterized and the interplay between the two is briefly discussed. </p><p>A method for performing <i>ab initio </i>MD is described; the method essentially recomputes the interaction potential at each time-step. It has been tested on a system of liquid water by comparing results with other simulation methods and experimental results. Different strategies for parallelization are explored.</p><p>Furthermore, data-parallel methods for short-range and long-range interactions on massively parallel platforms are described and compared. </p><p>Next, a method for treating electrostatic interactions in MD simulations is developed. It combines the traditional Ewald summation technique with the nonuniform Fast Fourier transform---ENUF for short. The method scales as <i>N log N</i>, where <i>N </i>is the number of charges in the system. ENUF has a behavior very similar to Ewald summation and can be easily and efficiently implemented in existing simulation programs.</p><p>Finally, an outlook is given and some directions for further developments are suggested.</p>

molecular dynamics

MD

first principles molecular dynamics

quantum mechanics

liquid water

parallel algorithm

data parallel

MPI

Coulombic interaction

Ewald summation

nonuniform fast Fourier transform

FFT

FFTW

NFFT

ENUF

Physical chemistry

Fysikalisk kemi

Algorithms for Molecular Dynamics Simulations

Hedman, Fredrik

January 2006

Methods for performing large-scale parallel Molecular Dynamics(MD) simulations are investigated. A perspective on the field of parallel MD simulations is given. Hardware and software aspects are characterized and the interplay between the two is briefly discussed. A method for performing ab initio MD is described; the method essentially recomputes the interaction potential at each time-step. It has been tested on a system of liquid water by comparing results with other simulation methods and experimental results. Different strategies for parallelization are explored. Furthermore, data-parallel methods for short-range and long-range interactions on massively parallel platforms are described and compared. Next, a method for treating electrostatic interactions in MD simulations is developed. It combines the traditional Ewald summation technique with the nonuniform Fast Fourier transform---ENUF for short. The method scales as N log N, where N is the number of charges in the system. ENUF has a behavior very similar to Ewald summation and can be easily and efficiently implemented in existing simulation programs. Finally, an outlook is given and some directions for further developments are suggested.

molecular dynamics

MD

first principles molecular dynamics

quantum mechanics

liquid water

parallel algorithm

data parallel

MPI

Coulombic interaction

Ewald summation

nonuniform fast Fourier transform

FFT

FFTW

NFFT

ENUF

Physical chemistry

Fysikalisk kemi