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Table 3 Two-driver devices

From: Quasi-classical modeling of molecular quantum-dot cellular automata multidriver gates

P d1

P d2

1,6-heptadiene

1,8-nonadiene

1,4-diallyl butane

Po(Pd1,Pd2)

Po(Pd1 + Pd2)

Po(Pd1,Pd2)

Po(Pd1 + Pd2)

Po(Pd1,Pd2)

Po(Pd1 + Pd2)

0

0

−0.068

−0.068

−0.058

−0.058

−0.001

−0.001

0.2

0.2

−0.316

−0.323

−0.625

−0.630

−0.998

−0.992

0.4

0.2

−0.431

−0.423

−0.753

−0.740

−0.994

−0.987

0.6

−0.2

−0.326

−0.323

−0.651

−0.630

−0.998

−0.992

0.8

0.2

−0.560

−0.531

−0.840

−0.768

−0.985

−0.979

1

−0.4

−0.383

−0.423

−0.718

−0.740

−0.995

−0.988

0.4

−0.2

−0.204

−0.191

−0.454

−0.398

−0.999

−0.993

1

−0.2

−0.469

−0.490

−0.788

−0.793

−0.990

−0.984

0.6

−0.8

0.090

0.191

0.075

0.398

0.997

0.991

RMSE

0.038

0.112

0.005

RMSE*

0.137

 

0.108

 

0.014

 
  1. Po(Pd1, Pd2) and Po(Pd1 + Pd2) denote the calculated output polarizations based on the SA/CASSCF method.
  2. RMSE has been calculated based on Po(Pd1,Pd2) and Po(Pd1 + Pd2).
  3. RMSE* has been calculated based on Po(Pd1, Pd2) and Po*(Pd1 + Pd2) from Table 2.

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