Latch and frequency divider

What is claimed is: 1. A latch, comprising: a first logic unit coupled between a power supply and a ground wire, wherein the first logic unit comprises a first control terminal, a first input terminal and a first output terminal; a second logic unit having a structure symmetrical to that of the first logic unit, wherein the second logic unit comprises a second control terminal, a second input terminal and a second output terminal; and a feedforward control unit adapted for cutting off a current path in the first logic unit or the second logic unit based on signals inputted into the first input terminal and the second input terminal, wherein the first logic unit comprises a first transistor, a third transistor and a fifth transistor, and the second logic unit comprises a second transistor, a fourth transistor and a sixth transistor, wherein a source of the first transistor is coupled with the ground wire, a gate of the first transistor is coupled with the first control terminal, a drain of the first transistor is coupled with a drain of the third transistor, a drain of the fifth transistor, a gate of the fourth transistor and the first output terminal; wherein a source of the second transistor is coupled with the ground wire, a gate of the second transistor is coupled with the second control terminal, a drain of the second transistor is coupled with a drain of the fourth transistor, a drain of the sixth transistor, a gate of the third transistor and the second output terminal; and wherein the third transistor and the fifth transistor are connected in parallel, the fourth transistor and the sixth transistor are connected in parallel, and sources of the third transistor, the fourth transistor, the fifth transistor and the sixth transistor are coupled with the power supply. 2. The latch according to claim 1 , wherein the feedforward control unit comprises at least one of a first control sub-unit or a second control sub-unit, wherein the first control sub-unit is adapted for cutting off a first current path in the first logic unit, when a signal inputted into the first input terminal is in low level and a signal inputted into the second input terminal is in high level; and wherein the second control sub-unit is adapted for cutting off a second current path in the second logic unit, when a signal inputted into the first input terminal is in high level and a signal inputted into the second input terminal is in low level. 3. A latch, comprising: a first logic unit coupled between a power supply and a ground wire, wherein the first logic unit comprises a first control terminal, a first input terminal and a first output terminal; a second logic unit having a structure symmetrical to that of the first logic unit, wherein the second logic unit comprises a second control terminal, a second input terminal and a second output terminal; and a feedforward control unit adapted for cutting off a current path in the first logic unit or the second logic unit based on signals inputted into the first input terminal and the second input terminal, wherein the feedforward control unit comprises at least one of a first control sub-unit or a second control sub-unit, wherein the first control sub-unit is adapted for cutting off a first current path in the first logic unit, when a signal inputted into the first input terminal is in low level and a signal inputted into the second input terminal is in high level; wherein the second control sub-unit is adapted for cutting off a second current path in the second logic unit, when a signal inputted into the first input terminal is in high level and a signal inputted into the second input terminal is in low level, wherein the first logic unit comprises a first transistor, a third transistor and a fifth transistor, and the second logic unit comprises a second transistor, a fourth transistor and a sixth transistor, wherein a source of the first transistor is coupled with the ground wire, a gate of the first transistor is coupled with the first control terminal, a drain of the first transistor is coupled with a drain of the third transistor, a drain of the fifth transistor, a gate of the fourth transistor and the first output terminal; wherein a source of the second transistor is coupled with the ground wire, a gate of the second transistor is coupled with the second control terminal, a drain of the second transistor is coupled with a drain of the fourth transistor, a drain of the sixth transistor, a gate of the third transistor and the second output terminal; and wherein sources of the third transistor, the fourth transistor, the fifth transistor and the sixth transistor are coupled with the power supply; wherein the first control sub-unit comprises a seventh transistor which is an NMOS transistor, wherein a source of the seventh transistor is coupled with the drain of the first transistor, a gate of the seventh transistor is coupled with the first input terminal, and a drain of the seventh transistor is coupled with the drain of the third transistor, the drain of the fifth transistor, the gate of the fourth transistor and the first output terminal. 4. The latch according to claim 3 , wherein the first control sub-unit further comprises an eighth transistor which is an NMOS transistor, wherein a source of the eighth transistor is coupled with the drain of the second transistor, a gate of the eighth transistor is coupled with the second input terminal, a drain of the eighth transistor is coupled with the drain of the fourth transistor, the drain of the sixth transistor, the gate of the third transistor and the second output terminal. 5. The latch according to claim 4 , wherein the source of the seventh transistor and the source of the eighth transistor are coupled with each other. 6. The latch according to claim 2 , wherein the first control sub-unit comprises a seventh transistor which is an NMOS transistor, wherein a source of the seventh transistor is coupled with the ground wire, a gate of the seventh transistor is coupled with the first input terminal, and a drain of the seventh transistor is coupled with the source of the first transistor. 7. The latch according to claim 6 , wherein the first control sub-unit further comprises an eighth transistor which is an NMOS transistor, wherein a source of the eighth transistor is coupled with the ground wire, a gate of the eighth transistor is coupled with the second input terminal, and a drain of the eighth transistor is coupled with the source of the second transistor. 8. The latch according to claim 2 , wherein the first control sub-unit comprises a seventh transistor which is a PMOS transistor, wherein a drain of the seventh transistor is coupled with the drain of the first transistor, a gate of the seventh transistor is coupled with the second input terminal, a source of the seventh transistor is coupled with the drain of the third transistor, the drain of the fifth transistor, the gate of the fourth transistor and the first output terminal. 9. The latch according to claim 8 , wherein the first control sub-unit further comprises an eighth transistor which is a PMOS transistor, wherein a drain of the eighth transistor is coupled with the drain of the second transistor, a gate of the eighth transistor is coupled with the first input terminal, a source of the eighth transistor is coupled with the drain of the fourth transistor, the drain of the sixth transistor, the gate of the third transistor and the second output terminal. 10. The latch according to claim 9 , wherein the drain of the seventh transistor and the drain of the eighth transistor are coupled with each other. 11. The latch according to claim 2 , whe