OK David, thanks - I was just trying not to clutter the list.


So Joy, what kind of problems would you like to run with Gusto?


Jemma


From: firedrake-bounces@imperial.ac.uk <firedrake-bounces@imperial.ac.uk> on behalf of David Ham <David.Ham@imperial.ac.uk>
Sent: 02 April 2017 16:18:08
To: firedrake; joy.merwin@gmail.com
Subject: Re: [firedrake] Interacting with Gusto
 
Hi all,

please keep discussions on list to spread the support load and ensure everyone has the chance to learn from the answers.

Regards,

David
On Sun, 2 Apr 2017 at 15:58, Shipton, Jemma <j.shipton@imperial.ac.uk> wrote:

Hi Joy,


Yes, sorry, I'm afraid that there isn't much documentation on Gusto at the moment - I hope to write some soon.


We don't have a straightforward way to interact with "physics" just yet, although we are working on implementing moist physics.


I'll email you off-list to chat more about what you need...


Thanks!


Jemma


From: firedrake-bounces@imperial.ac.uk <firedrake-bounces@imperial.ac.uk> on behalf of Joy merwin monteiro <joy.merwin@gmail.com>
Sent: 02 April 2017 15:44:21
To: firedrake
Subject: [firedrake] Interacting with Gusto
 
Hello,

I have recently heard about Firedrake and Gusto, and am looking
forward to using it!

I am working on a project named climt (http://climt.readthedocs.io/en/latest/readme.html),
and I was wondering whether I could get Gusto/Firedrake to work with the
components already available there.

my question was what interface does Gusto provide for interaction with
"physics", like say, a radiative transfer code?

In other words, is there a straightforward way to access model arrays,
calculate physics tendencies, and provide them back to the dynamical
core?

I tried to look for more documentation about Gusto, but could not find any.
I would be grateful if you could point me in the right direction.

TIA,
Joy

--
The best ruler, when he finishes his
tasks and completes his affairs,
the people say
“It all happened naturally”
                                      
                                         - Te Tao Ch'ing
--
Dr David Ham
Department of Mathematics
Imperial College London