Abstract: A ternary sense amplifier and an SRAM array realized by the ternary sense amplifier are provided. The ternary sense amplifier comprises the 1st CNFET transistor, the 2nd CNFET transistor, the 3rd CNFET transistor, the 4th CNFET transistor, the 5th CNFET transistor, the 6th CNFET transistor, the 7th CNFET transistor, the 8th CNFET transistor, the 9th CNFET transistor, the 10th CNFET transistor, the 11th CNFET transistor, the 12th CNFET transistor and the 13th CNFET transistor; the SRAM array comprises a ternary sense amplifier, a ternary memory array, the 1st inverter, the 2nd inverter, the 3rd inverter, the 4th inverter, the 14th CNFET transistor, the 15th CNFET transistor, the 16th CNFET transistor, the 17th CNFET transistor, the 18th CNFET transistor and the 19th CNFET transistor; it features in low power consumption, less postponement and high yield of chips.

Abstract: The present invention discloses a CNFET double-edge pulse JKL flip-flop, comprising a double-edge pulse signal generator, 31 CNFET tubes, 6 NTI gate circuits having the same circuit structure, 6 PTI gate circuits having the same circuit structure as well as the 1st and 2nd two-value inverters having the same circuit structure; it features in correct logic functions as well as high-speed and low power consumption.

Abstract: The present invention discloses a ternary 2-9 line address decoder realized by CNFET, comprising two ternary 1-3 line address decoders of the same structure, nine three-input NAND gates of the same structure and nine inverters of the same structure; the ternary 1-3 line address decoder comprises a 1st CNFET transistor, a 2nd CNFET transistor, a 3rd CNFET transistor, a 4th CNFET transistor, a 5th CNFET transistor, a 6th CNFET transistor, a 7th CNFET transistor, an 8th CNFET transistor, a 9th CNFET transistor, a 10th CNFET transistor and an 11th CNFET transistor; as compared with a 3-8 line address decoder, it features in limited deviation to an output terminals and significant reduction in the number of input terminals, which can minimize the number of ports as packaging, and improve decoding efficiency; furthermore, it is realized by CNFET, which features in low power consumption and less postponement.

Abstract: The present invention discloses a ternary PUF unit and circuit realized by CNFET; the ternary PUF circuit comprises a ternary row decoder, a ternary column decoder, a ternary output circuit and a ternary PUF unit array; the said ternary PUF circuit is arranged into a 3n rows×3n columns matrix formed by 3n×3n ternary PUF units; the ternary PUF unit comprises a 1st CNFET transistor, a 2nd CNFET transistor, a 3rd CNFET transistor, a 4th CNFET transistor, a 5th CNFET transistor, a 6th CNFET transistor, a 7th CNFET transistor, an 8th CNFET transistor, a 9th CNFET transistor and a 10th CNFET transistor; its advantage lies in the fact that it is provided with small circuit area and higher randomness and uniqueness while ensuring proper logic function.

Abstract: The present invention discloses a ternary 2-9 line address decoder realized by CNFET, comprising two ternary 1-3 line address decoders of the same structure, nine three-input NAND gates of the same structure and nine inverters of the same structure; the ternary 1-3 line address decoder comprises a 1st CNFET transistor, a 2nd CNFET transistor, a 3rd CNFET transistor, a 4th CNFET transistor, a 5th CNFET transistor, a 6th CNFET transistor, a 7th CNFET transistor, an 8th CNFET transistor, a 9th CNFET transistor, a 10th CNFET transistor and an 11th CNFET transistor; as compared with a 3-8 line address decoder, it features in limited deviation to an output terminals and significant reduction in the number of input terminals, which can minimize the number of ports as packaging, and improve decoding efficiency; furthermore, it is realized by CNFET, which features in low power consumption and less postponement.

Abstract: The present invention discloses a ternary PUF unit and circuit realized by CNFET; the ternary PUF circuit comprises a ternary row decoder, a ternary column decoder, a ternary output circuit and a ternary PUF unit array; the said ternary PUF circuit is arranged into a 3n rows×3n columns matrix formed by 3n×3n ternary PUF units; the ternary PUF unit comprises a 1st CNFET transistor, a 2nd CNFET transistor, a 3rd CNFET transistor, a 4th CNFET transistor, a 5th CNFET transistor, a 6th CNFET transistor, a 7th CNFET transistor, an 8th CNFET transistor, a 9th CNFET transistor and a 10th CNFET transistor; its advantage lies in the fact that it is provided with small circuit area and higher randomness and uniqueness while ensuring proper logic function.

Abstract: A ternary sense amplifier and an SRAM array realized by the ternary sense amplifier are provided. The ternary sense amplifier comprises the 1st CNFET transistor, the 2nd CNFET transistor, the 3rd CNFET transistor, the 4th CNFET transistor, the 5th CNFET transistor, the 6th CNFET transistor, the 7th CNFET transistor, the 8th CNFET transistor, the 9th CNFET transistor, the 10th CNFET transistor, the 11th CNFET transistor, the 12th CNFET transistor and the 13th CNFET transistor; the SRAM array comprises a ternary sense amplifier, a ternary memory array, the 1st inverter, the 2nd inverter, the 3rd inverter, the 4th inverter, the 14th CNFET transistor, the 15th CNFET transistor, the 16th CNFET transistor, the 17th CNFET transistor, the 18th CNFET transistor and the 19th CNFET transistor; it features in low power consumption, less postponement and high yield of chips.

Abstract: The present invention discloses a replica bit-line circuit, comprising a replica unit, the 1st inverter, the 2nd inverter, the 3rd inverter, the 4th inverter, the 5th inverter, the 6th inverter, the 7th inverter, the 8th inverter, the 9th inverter, the 1st NAND gate, the 2nd NAND gate, the 3rd NAND gate, the 1st NOR gate, the 2nd NOR gate and the 1st PMOS tube; the 2nd NOR gate is provided with the 1st input terminal, the 2nd input terminal, a set terminal and an output terminal; advantages of the present invention are stated as follows: It can inhibit feedback oscillation incurred by replica bit-line and replica wordline signal to obtain accurate wordline control signal; it can save switching power consumption of memory array by 53.7% under the power voltage of 1.2V.

Abstract: The present invention discloses a replica bit-line circuit, comprising a replica unit, the 1st inverter, the 2nd inverter, the 3rd inverter, the 4th inverter, the 5th inverter, the 6th inverter, the 7th inverter, the 8th inverter, the 9th inverter, the 1st NAND gate, the 2nd NAND gate, the 3rd NAND gate, the 1st NOR gate, the 2nd NOR gate and the 1st PMOS tube; the 2nd NOR gate is provided with the 1st input terminal, the 2nd input terminal, a set terminal and an output terminal; advantages of the present invention are stated as follows: It can inhibit feedback oscillation incurred by replica bit-line and replica wordline signal to obtain accurate wordline control signal; it can save switching power consumption of memory array by 53.7% under the power voltage of 1.2V.

Abstract: The present invention discloses a CNFET double-edge pulse JKL flip-flop, comprising a double-edge pulse signal generator, 31 CNFET tubes, 6 NTI gate circuits having the same circuit structure, 6 PTI gate circuits having the same circuit structure as well as the 1st and 2nd two-value inverters having the same circuit structure; it features in correct logic functions as well as high-speed and low power consumption.

Abstract: A CNFET based pulse generator, including a first Carbon Nanotube Field Effect Transistor (CNFET), a second CNFET, a third CNFET, a fourth CNFET, a fifth CNFET, a sixth CNFET, a seventh CNFET, an eighth CNFET, a ninth CNFET, a tenth CNFET, an eleventh CNFET, a twelfth CNFET, a thirteenth CNFET, and a fourteenth CNFET. The first CNFET, the third CNFET, the fifth CNFET, the seventh CNFET, the tenth CNFET, the twelfth CNFET, and the thirteenth CNFET are P-type CNFETs. The second CNFET, the fourth CNFET, the sixth CNFET, the eighth CNFET, the ninth CNFET, the eleventh CNFET, and the fourteenth CNFET are N-type CNFETs.

Abstract: A CNFET based pulse generator, including a first Carbon Nanotube Field Effect Transistor (CNFET), a second CNFET, a third CNFET, a fourth CNFET, a fifth CNFET, a sixth CNFET, a seventh CNFET, an eighth CNFET, a ninth CNFET, a tenth CNFET, an eleventh CNFET, a twelfth CNFET, a thirteenth CNFET, and a fourteenth CNFET. The first CNFET, the third CNFET, the fifth CNFET, the seventh CNFET, the tenth CNFET, the twelfth CNFET, and the thirteenth CNFET are P-type CNFETs. The second CNFET, the fourth CNFET, the sixth CNFET, the eighth CNFET, the ninth CNFET, the eleventh CNFET, and the fourteenth CNFET are N-type CNFETs.