CCK-15

TL;DR: CCK-15, the next in our series of meetings for computational chemists, cheminformaticians, and molecular modelers, will be on Thursday, September 5th, 2019, at 5:30 pm in the Large Lecture Theatre LG.01, Department of Statistics, University of Oxford, 24-29 St Giles’, Oxford OX1 3LB. Free CCK-15 tickets are available.

Dear Friends and Colleagues,

Please join us for our next “Comp Chem Kitchen”, CCK-15, at 5:30-6:30 pm on Thursday, September 5th, 2019, in the Large Lecture Theatre LG.01 in the Department of Statistics, University of Oxford, 24-29 St Giles’, Oxford. We are  very pleased to announce Prof. Adrian E. Roitberg from the Department of Chemistry, University of Florida, USA, will be speaking:

  • Prof. Adrian E. Roitberg (Department of Chemistry, University of Florida. Gainesville, FL. 32611-7200, USA; [email protected]):Is Quantum Chemistry Amenable for Machine Learning? Are the Computers Coming for Our Jobs?
    • For decades, computational chemists have been searching for new ways to develop faster and more accurate empirical potentials for application in a myriad of problems. These applications include the calculation of thermochemical properties and theoretical IR spectra, stability comparisons, structural optimization, and molecular dynamics or Monte Carlo simulation. The reason empirical potentials have been so attractive to the community abroad is the promise of accuracy and speed, especially compared to more traditional quantum mechanical or classical methods for computing molecular energies and forces. However, empirical potentials developed using traditional methods have remained at arm’s length for various reasons. Within the last decade, Machine Learning (ML) methods have proved applicable to the development of empirical potentials, specifically methods from deep learning. The ANAKIN-ME (ANI) method, which focuses on the use of large and diverse data sets in training new potentials, has consistently proven to be universally applicable to systems containing the atomic species in the training set. Focusing on parametrization for organic molecules, we have developed a universal ANI potential which is highly accurate compared to reference QM calculations at speeds 107 faster. The ANI potential is shown to accurately represent the underlying physics of molecules through various test cases including: thermochemistry, structural optimization, and molecular dynamics simulations. The results presented here provide evidence of the universal applicability of ANI deep learned potentials to various computational chemistry problems involving organic molecules.

Prof. Roitberg was born and raised in Argentina, and he received his BS degree in Chemistry from the University of Buenos Aires. He then moved to the US to pursue his PhD in chemistry, at the University of Illinois at Chicago, followed by a postdoctoral stay at Northwestern University. He joined a National laboratory (NIST) as staff and moved to the University of Florida as Assistant Professor in 2001. He is now a Full Professor there at UF, in both the Chemistry and Physics Departments. Prof. Roitberg has graduated 20 PhD students so far. He has received several awards, including being named a Fellow of both the American Physical Society and the American Chemical Society. He was also named an Ulam Scholar at Los Alamos National Laboratory and received the Raices Prize (roots) from the Ministry of Science in his native Argentina. Prof. Roitberg has published over 160 scientific articles, and his h-index is 55, with over 24000 citations of his papers.

Lightning Talks

  • Harry Morgan (Physical and Theoretical Chemistry Laboratory. South Parks Road, Oxford, OX1 3QZ, UK): Pressure-induced transitions in vanadium oxyhydrides“.
  • Dr Anthony Nash, PhD, MRSC (Senior Research Scientist, Nuffield Department of Clinical Neurosciences, University of Oxford): Human Centric Drug Discovery Using a Real World Dataset and iPSC-based Assays”.

Refreshments will be provided, including beer.

We would like to thank the University of Oxford MPLS Network and Interdisciplinary Fund (NIF) for making CCK possible.

Want to speak? Ideas for speakers?

If you have ideas for speakers, or would like to give a talk, get in touch. We also invite lightning talks of 5 minutes (or fewer) from attendees, so if you have some cool code you’ve been working on and would like to demo it, bring your laptop, smartphone, tablet, (wearable?) and tell us all about it.

The talks usually resemble one of the following styles:

  • an overview of computational chemistry in your research;
  • a (live!) demonstration of some software that you are developing or using; or
  • a summary of a computational chemistry paper, method, programming language, or tool that you’ve seen recently.

Please pass this announcement on to friends, colleagues, and students who may be interested too!

About CCK

Comp Chem Kitchen is a regular forum and seminar series to hear about and discuss computational methods for tackling problems in chemistry, biochemistry and drug discovery. It focuses principally on cheminformatics, computational chemistry, and molecular modelling, and overlaps with neighboring areas such as materials properties and bioinformatics.

We’re keen to encourage people involved in coding and methods development (i.e. hackers, in the original untarnished sense of the word) to join us. Our hope is that we will share best practices, even code snippets and software tools, and avoid re-inventing wheels.

In addition to local researchers, we invite speakers from industry and non-profits from time to time, and occasionally organize software demos and tutorials.

If you’re interested in giving a talk, here are some possible topics:

  • Software development (e.g.: Python, C, C++, CUDA, shell, Matlab);
  • Optimizing force field parameters & EVB models;
  • Cheminformatics (e.g.: RDKit);
  • X-ray and NMR crystallography, including small molecule and macromolecular;
  • Protein & RNA modeling, including Molecular Dynamics;
  • Virtual screening and Docking;
  • Machine Learning;
  • Quantum Methods, including DFT.

Bring your laptops, by the way, if you have something you’d like to show!

The main CCK web site is: http://compchemkitchen.org/
Follow us on Twitter: @CompChemKitchen
See you soon! We’re looking forward to seeing and hearing about the diverse range of computational molecular science that you’re cooking up…

—Garrett, Richard, Phil, and Fernanda

[email protected]
[email protected]
[email protected]
[email protected]

CCK-13 & MGMS: Molecular VR

Please join us for our next “Comp Chem Kitchen”, CCK-13, being jointly held with the Molecular Graphics and Modelling Society:

We are  very pleased to announce Dr David Glowacki from the University of Bristol will be talking and giving live demonstrations of his molecular virtual reality system. He will also be presented with his MGMS Silver Jubilee Award. David’s work has been featured in The New York Times: “It’s Time for a Chemistry Lesson. Put on Your Virtual Reality Goggles.”

If you’re curious and would like to try out molecular VR, please come along!

David R. Glowacki: Carrying out nano-molecular surgery in virtual reality

  • School of Chemistry, University of Bristol, Bristol, BS8 1TS, UK
  • Department of Computer Science, University of Bristol, BS8 1UB, UK
  • Pervasive Media Studio, Watershed, 1 Canons Rd, Bristol BS1 5TX, UK
  • [email protected]

Over the past several years, we have been developing a framework for interactive molecular dynamics in a multiuser virtual reality (VR) environment, which combines rigorous cloud-mounted atomistic physics simulations with commodity VR hardware. [1] It allows users to visualize and manipulate, with surgical precision, the structures of complex molecular structures whose dynamics are simulated in real-time onenterprise cloud architectures. [2] It also enables multiple users to inhabit the same virtual environment, facilitating new classes of digital interaction between those users – e.g.,enabling them to pass rigorously simulated virtual objects between one another. This represents a qualitatively new kind of virtual experience beyond what is presently possible even within the large-scale immersive stereoscopic CAVE environments. We have recently completed a series of controlled user studies to evaluate the benefit that this VR framework provides in accelerating research tasks which require sophisticated 3d spatial reasoning (threading methane through a nanotube, changing the screw-sense of a helical molecule, and tying a protein knot). Our studies quantitatively demonstrate that the interactive VR environment allows users to complete sophisticated 3d spatial modelling tasks more quickly than they can using more conventional screen-based interfaces like mice or tablets, especially for tasks like protein knotting which are intrinsically 3d. We have now begun to extend this framework to accelerate progress in nanoscale molecular engineering areas including conformational mapping, drug-protein binding, [3] synthetic biology, and catalyst design. More broadly, our findings highlight the potential of VR in scientific domains where 3-dimensional dynamics matter, spanning scientific research, communication, and education.

  1. O Connor et al., Sampling molecular conformations and dynamics in a multi-user virtual reality framework”, 2018, Science Advances.
  2. https://vimeo.com/244670465.
  3. https://vimeo.com/296300796.

 

Free tickets are available, and refreshments will be provided, including beer.

Future Lightning Talks

We love to hear from you! Get in touch if you would like to give a 5 minute Lightning Talk at a future CCK on your latest research or give a quick demo of your latest programming project, or even to nominate someone you’d like to hear from (students, postdocs, professionals, PIs, Emeritus Professors). The talks usually resemble one of the following styles:

  • an overview of computational chemistry in your research;
  • a (live!) demonstration of some software that you are developing or using; or
  • a summary of a computational chemistry paper, method, programming language, or tool that you’ve seen recently.

 

We would like to thank the University of Oxford’s MPLS Network and Interdisciplinary Fund for making CCK possible.

 

About CCK

Comp Chem Kitchen is a regular forum and seminar series to hear about and discuss computational methods for tackling problems in chemistry, biochemistry and drug discovery. It focuses principally on cheminformatics, computational chemistry, and molecular modelling, and overlaps with neighboring areas such as materials properties and bioinformatics.

We’re keen to encourage people involved in coding and methods development (i.e. hackers, in the original untarnished sense of the word) to join us. Our hope is that we will share best practices, even code snippets and software tools, and avoid re-inventing wheels.

In addition to local researchers, we invite speakers from industry and non-profits from time to time, and occasionally organize software demos and tutorials.

If you’re interested in giving a talk, here are some possible topics:

  • Software development (e.g.: Python, C, C++, CUDA, shell, Matlab);
  • Optimizing force field parameters & EVB models;
  • Cheminformatics (e.g.: RDKit);
  • X-ray and NMR crystallography, including small molecule and macromolecular;
  • Protein & RNA modeling, including Molecular Dynamics;
  • Virtual screening and Docking;
  • Machine Learning;
  • Quantum Methods, including DFT.

Bring your laptops, by the way, if you have something you’d like to show!

 

Want to speak? Ideas for speakers?

* If you have ideas for speakers, or would like to give a talk, let us know. We also invite lightning talks of 5 minutes (or fewer) from attendees, so if you have some cool code you’ve been working on and would like to demo, bring your laptop, smartphone, tablet, (wearable?) and tell us all about it. *

Please pass this message on to friends, colleagues, and students who may be interested too!

The main CCK web site is: http://compchemkitchen.org/
Follow us on Twitter: @CompChemKitchen
See you soon! We’re looking forward to seeing and hearing about the diverse range of computational molecular science that you’re cooking up…

—Garrett, Richard, Phil and Rob

[email protected]
[email protected]
philip.biggin@bioch.ox.ac.uk
[email protected]