Elements that have been parallelized in Pelegant

The particular physical elements that take advantage of parallel computation in the present version of the code are:

1. Drift spaces, dipoles, quadrupoles, sextuoples, higher multipoles, dipole correctors, and wiggler magnets, whether symplectically integrated or modeled with a transport matrix (up to 3rd order). Symplectically integrated elements can optionally include both quantum and classical synchrotron radiation effects.

2. Radio frequency cavities, including accelerating and deflecting cavities, with constant field amplitude.

3. Accelerating cavities with phase, voltage, and frequency modulation or ramping.

4. Beam collimating and scraping elements.

5. Field-map integration elements, such as dipoles, x-y dependent maps, and solenoids.

6. Reference energy matching points.

7. Beam watch points, which may involve parallel computation of beam moments or serial dumping of particle coordinates.

8. Scattering elements, including lumped-element simulation of synchrotron radiation.

9. Elements with collective effects, including wakefields and coherent synchrotron radiation.

Here is an explicit list of the elements:
ALPH BEND BEND BMAPXY CHARGE CLEAN CSBEND CSRCSBEND CSRDRIFT CWIGGLER DRIFT ECOL EDRIFT EMATRIX ENERGY FLOORELEMENT FMULT FRFMODE FTRFMODE HCOR HMON HVCOR ILMATRIX KICKER KPOLY KQUAD KSBEND KSEXT LMIRROR LTHINLENS MAGNIFY MALIGN MAPSOLENOID MARK MATR MATTER MAXAMP MODRF MONI MULT NIBEND NISEPT PEPPOT QFRING QUAD RAMPRF RCOL RECIRC REFLECT RFCA RFCW RFDF RFMODE RFTM110 ROTATE SAMPLE SCATTER SCMULT SCRAPER SEXT SOLE SREFFECTS STRAY TAYLORSERIES TRFMODE TRWAKE TUBEND TWISSELEMENT VCOR VMON WAKE WIGGLER ZLONGIT ZTRANSVERSE