Test+Problem+Data+Products

Data products to share
It has been decided that the following data products will be generated and examined. Some subset will make it into the actual paper, depending on what's interesting.

Please store IDL Save files on CADAC in /CADAC/KITP07/your_name

Paper structure
Currently, the results will be broken into two separate papers:
 * 1) Hydro and MHD Results
 * 2) Gravity and Sink Particle Results.

The papers will use some subset of the following data. Please generate ALL of the requested products, so a meaningful reduction can be made when the time comes. = Paper 1 products, Hydro=
 * 1) **Column Density** At All resolutions runs and timesteps; the projection of Density along Z.
 * 2) **Raw Slice** At all resolutions and timesteps; make a slice at z=0.5 of Density, Vx, Vz, and Div(V)
 * 3) **5% slice** At all resolutions and timesteps; make a projection from z=0.5 to z=0.55 of the same quantities as the raw slice.
 * 4) **Power Spectra** At all resolutions and timesteps; At all Generate Power Spectra using the script provided by Aake.  Spectra details will be provided in the script.
 * 5) **PDF** At all resolutions and timesteps:  PDFs using (again) scripts provided by Aake.  Again, quantities will be specified in the script.
 * 6) **3rd order Structure Function** At the highest resolution run; Generate d ln(S3(r)) /d ln(r), the logarithmic derivative of the 3rd order structure function.
 * 7) **Spectral Index** Fit the Pth order structure function, plot Zeta(P) vs P for p between 1 and 10.
 * 8) **Time evolution of stuff** At the highest TIME resolution possible, in each run, integrate the following quantities from (xyz) = (0.5,0.5,0.5) to (0.5+1/128, 0.5+1/128, 0.5+1/128); Density, Kinetic Energy, RMS Mach Number, all 3 cmpts of Linear Momentum.  (Preferably this will be done for **every** timestep, though for runs that have already completed, each data dump is fine)
 * 9) **Computational Resources** Please also report computational resources used for each run at each resolution.  Required information is Number of Processors, Service Units Used (Wall Clock * Number of Processors) and Architecture used (Machine Name, processor type).  Please put this information a text file on CADAC.

Paper 1 products, MHD
For each MHD run, generate the same plots as above. In addition, do the following:
 * 1) ** Column Density ** Also plot column density along Z for Magnetic Energy 1/2(B^2)
 * 2) ** Raw Slice ** Also plot the raw slice of 1/2( B^2)
 * 3) ** 5% slice ** Also do the 5% slice for, you got it, Magnetic Energy.
 * 4) ** Power Spectra ** Additionally, produce power spectra for Magnetic Field.  This will probably be included in Aake's IDL script.
 * 5) ** PDF ** Also make the Magnetic Energy pdf.
 * 6) ** Structure Functions ** To my knowledge, there's no theory on structure functions for magnetic field.  Skip this, or come up with a compelling idea.
 * 7) ** Time evolution ** In your code, also have it dump out the central integral (as above) average Magnetic energy <0.5 B^2>, Average Field Strength , , , Average Plasma Beta < c^2 Rho / B^2 >
 * 8) ** Field Strength vs. Density ** Make a 2d PDF of Density vs. Magnetic Field strength. I think Aake is providing this too, too.
 * 9) ** Kinetic vs Magnetic Energy ** Make a 2d PDF of Kinetic Energy vs. Magnetic Field Strength.  Again, I think that Aake will provide this tool

Paper 2 products
For the gravity/sink particle tests, provide the same information as in test1, as well as
 * 1) ** Max density vs time **
 * 2) ** Time and Position of first star particle creation** (For non-sink particle runs, something else should be done.)
 * 3) ** For all star particles ** provide Mass, Position, creation/merger time, velocity for each timestep.