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Setup
Jobs
Setup
Unit Cell Hamiltonian
Hamiltonian:
Device setup
Lead orientations:
Lead gap (cells):
nx:
ny:
nz:
Leadwidth_x (w
y
,w
z
):
Leadwidth_y (w
x
,w
z
):
Leadwidth_z (w
x
,w
y
):
Lead positions X:
Lead positions Y:
Lead positions Z:
Lead length (cells):
Calc Layers
External Parameters
Emin:
Emax:
N_E:
μ_leads:
B field (Bx By Bz):
Disorder amp:
Conc:
Dist:
binary
normal
Magnetization Orientations (θ,φ pairs):
Computation Settings
GF Method:
full
recursive
Run calculation
Engine:
Pyodide (in browser)
Python (server)
SpeedFarm (distributed)
FastAPI base:
Compute backend:
CPU — Direct (LU)
CPU — GMRES (+ILU)
GPU — Direct (cuSOLVER)
GPU — GMRES
GPU id:
Parallel over energies
workers:
(blank = auto)
idle
Distributed Jobs
Scheduler API:
License ID:
PIN:
Min RAM (GB):
Use public pool
Disorder loop (amps):
Angles loop (θ φ pairs):
Distribute energy loop
Submit jobs
Device
Transmission
LDOS
3D LDOS
Torque
Lead Bands
Lead Σ Trace
Clear
Device Structure
Highlight lead outer layers
Use lattice vectors (real space)
Export device
Import…
Transmission T(E):
charge
Spin_x
Spin_y
Spin_z
Local DOS
3D LDOS Visualisation
Torque visualisation