Power control in integrated circuits

What is claimed is: 1. An integrated circuit device comprising: a front-end-of-line portion; a back-end-of-line portion; and a power control unit for controlling a supply power of a power isle in the front-end-of-line portion, the power control unit comprising: a power gating switch implemented in the back-end-of-line portion, wherein the power gating switch is configured to switch ON or OFF the supply power to the power isle; a state recovery circuit configured to store and restore a state of the power isle, wherein the state recovery circuit comprises (i) at least one memory element implemented in the front-end-of-line portion or back-end-of-line portion and (ii) a transistor configuration in the back-end-of-line portion; and a wake-up/sleep circuit implemented in the back-end-of-line portion and configured to receive an identifier, wherein the wake-up/sleep circuit is operatively connected with the power gating switch and with the state recovery circuit, and wherein the wake-up/sleep circuit is configured to perform a wake-up/sleep process in response to receiving the identifier, the wake-up/sleep process comprising at least one of: (i) causing the power gating switch to switch OFF the supply power to the power isle and causing the state recovery circuit to store a state of the power isle, or (ii) causing the power gating switch to switch ON the supply power to the power isle and causing the state recovery circuit to restore the state of the power isle. 2. The integrated circuit device of claim 1 , wherein the transistor configuration in the back-end-of-line portion is connected with the memory element such that the transistor configuration reduces current leakage through the memory element. 3. The integrated circuit device of claim 1 , wherein the back-end-of-line portion comprises metallization layers and wherein the power gating switch comprises a thin-film transistor in between at least two of the metallization layers of the back-end-of-line portion. 4. The integrated circuit device of claim 1 , wherein the back-end-of-line portion comprises at least three metallization layers, and wherein the power gating switch comprises a thin-film transistor implemented above the 3rd metallization layer of the back-end-of-line portion when starting to count the metallization layers from the front-end-of-line portion. 5. The integrated circuit device of claim 1 , wherein the at least one memory element of the state recovery circuit comprises a flip-flop comprising front-end-of-line transistors in the power isle, and wherein the transistor configuration in the back-end-of-line portion comprises a thin-film transistor directly on top of the flip-flop. 6. The integrated circuit device of claim 1 , wherein the back-end-of-line portion comprises metallization layers, and wherein the wake-up/sleep circuit is implemented in a 3rd or higher metallization layer of the back-end-of-line portion. 7. The integrated circuit device of claim 1 , wherein the wake-up/sleep circuit comprises a plurality of thin-film transistors. 8. The integrated circuit device of claim 1 , wherein the wake-up/sleep circuit comprises a bus interface for receiving the identifier. 9. The integrated circuit device of claim 1 , further comprising a power management module and a plurality of the power control units, wherein the power management module is connected by a bus to each wake-up/sleep circuit of each power control unit of the plurality of the power control units, and wherein the power management module is configured to transmit the identifier over the bus to each wake-up/sleep circuit of each power control unit of the plurality of the power control units. 10. The integrated circuit device of claim 1 , further comprising a plurality of the power control units, wherein the wake-up/sleep circuit of each power control unit of the plurality of the power control units is connected by a bus to one or more neighboring power control units of the plurality of the power control units. 11. An integrated circuit device comprising: a front-end-of-line portion; a back-end-of-line portion; and a plurality of power control units for controlling supply power to a plurality of power isles in the front-end-of-line portion, each power control unit of the plurality of power control units comprising: a power gating switch implemented in the back-end-of-line portion, wherein the power gating switch is configured to switch ON or OFF the supply power to a respective power isle of the plurality of power isles; a state recovery circuit configured to store and restore a state of the respective power isle, wherein the state recovery circuit comprises (i) at least one memory element implemented in the front-end-of-line portion or back-end-of-line portion and (ii) a transistor configuration in the back-end-of-line portion; and a wake-up/sleep circuit implemented in the back-end-of-line portion and configured to receive an identifier, wherein the wake-up/sleep circuit is operatively connected with the power gating switch and with the state recovery circuit, and wherein the wake-up/sleep circuit is configured to perform a wake-up/sleep process in response to receiving the identifier, the wake-up/sleep process comprising at least one of: (i) causing the power gating switch to switch OFF the supply power to the respective power isle and causing the state recovery circuit to store a state of the respective power isle, or (ii) causing the power gating switch to switch ON the supply power to the respective power isle and causing the state recovery circuit to restore the state of the respective power isle. 12. The integrated circuit device of claim 11 , wherein the transistor configuration in the back-end-of-line portion is connected with the memory element such that the transistor configuration reduces current leakage through the memory element. 13. The integrated circuit device of claim 11 , wherein the back-end-of-line portion comprises metallization layers and wherein the power gating switch comprises a thin-film transistor in between at least two of the metallization layers of the back-end-of-line portion. 14. The integrated circuit device of claim 11 , wherein the back-end-of-line portion comprises at least three metallization layers, and wherein the power gating switch comprises a thin-film transistor implemented above the 3rd metallization layer of the back-end-of-line portion when starting to count the metallization layers from the front-end-of-line portion. 15. The integrated circuit device of claim 11 , wherein the at least one memory element of the state recovery circuit comprises a flip-flop comprising front-end-of-line transistors in the power isle, and wherein the transistor configuration in the back-end-of-line portion comprises a thin-film transistor directly on top of the flip-flop. 16. The integrated circuit device of claim 11 , wherein the back-end-of-line portion comprises metallization layers, and wherein the wake-up/sleep circuit is implemented in a 3rd or higher metallization layer of the back-end-of-line portion. 17. The integrated circuit device of claim 11 , wherein the wake-up/sleep circuit comprises a plurality of thin-film transistors. 18. The integrated circuit device of claim 11 , wherein the wake-up/sleep circuit comprises a bus interface for receiving the identifier. 19. The integrated circuit device of claim 11 , further comprising a power management module connected by a bus to the wake-up/sleep circuit of each power control unit of the plurality of the power control u