| 摘要 |
A ternary T arithmetic circuit, including: a logic 0 gate circuit, a logic 1 gate circuit, and a logic 2 gate circuit. The logic 0 gate circuit includes: a first PMOS, a second PMOS, a third PMOS, a first NMOS, a second NMOS, a third NMOS, a fourth NMOS, and a fifth NMOS. The logic 2 gate circuit includes: a fourth PMOS, a fifth PMOS, a sixth NMOS, a seventh NMOS, and an eighth NMOS. The logic 1 gate circuit includes: a sixth PMOS, a seventh PMOS, a ninth NMOS, a tenth NMOS, an eleventh NMOS, and a twelfth NMOS. |
| 主权项 |
1. A ternary T arithmetic circuit, comprising:
a) a logic 0 gate circuit, the logic 0 gate circuit comprising: a first PMOS, a second PMOS, a third PMOS, a first NMOS, a second NMOS, a third NMOS, a fourth NMOS, and a fifth NMOS; b) a logic 2 gate circuit, the logic 2 gate circuit comprising: a fourth PMOS, a fifth PMOS, a sixth NMOS, a seventh NMOS, and an eighth NMOS; and c) a logic 1 gate circuit, the logic 1 gate circuit comprising: a sixth PMOS, a seventh PMOS, a ninth NMOS, a tenth NMOS, an eleventh NMOS, and a twelfth NMOS;wherein
a gate electrode of the first PMOS, a gate electrode of the second PMOS, a gate electrode of the fourth PMOS, a gate electrode of the sixth PMOS, a gate electrode of the second NMOS, a gate electrode of the fourth NMOS, a gate electrode of the seventh NMOS, and a gate electrode of the eleventh NMOS are connected and a connecting terminal thereof is accessed with a first clock signal; a source of the first PMOS, a source of the second PMOS, a source of the fourth PMOS, a source of the sixth PMOS, a source of the second NMOS, a source of the fourth NMOS, a gate electrode of the fifth NMOS, a source of the seventh NMOS, a gate electrode of the eighth NMOS, a source of the eleventh NMOS, and a gate electrode of the twelfth NMOS are connected and a connecting terminal thereof is accessed with a second clock signal; the first clock signal and the second clock signal have the same amplitude value, and a phase difference between the first clock signal and the second clock signal is 180°; a drain of the first PMOS, a drain of the first NMOS, and a gate electrode of the third NMOS are connected; a source of the first NMOS is connected to a drain of the second NMOS; a drain of the second PMOS, a drain of the third NMOS, a gate electrode of the third PMOS, and a gate electrode of the ninth NMOS are connected; a source of the third NMOS is connected to a drain of the fourth NMOS; a drain of the third PMOS is connected to a drain of the fifth NMOS; a drain of the fourth PMOS, a gate electrode of the fifth PMOS, a drain of the sixth NMOS, and a gate electrode of the tenth NMOS are connected; a source of the sixth NMOS is connected to a drain of the seventh NMOS; a drain of the fifth PMOS is connected to a drain of the eighth NMOS; a drain of the sixth PMOS, a gate electrode of the seventh PMOS, and a drain of the ninth NMOS are connected; a source of the ninth NMOS is connected to a drain of the tenth NMOS; a source of the tenth NMOS is connected to a drain of the eleventh NMOS; a drain of the seventh PMOS is connected to a drain of the twelfth NMOS; a gate electrode of the first NMOS and a gate electrode of the sixth NMOS are connected and a connecting terminal thereof functions as a ternary gating signal input terminal of the ternary T arithmetic circuit based on the adiabatic Domino logic; and a source of the third PMOS, a source of the fifth NMOS, a source of the fifth PMOS, a source of the eighth NMOS, a source of the seventh PMOS, and a source of the twelfth NMOS are connected and a connecting terminal thereof functions as a signal output terminal of the ternary T arithmetic circuit based on the adiabatic Domino logic. |
