Suppression of grip-related signals using 3D touch

What is claimed is: 1. A method of detecting touch events on a touch sensing surface coupled to a capacitive sense array, comprising: at a processing device coupled to a capacitive sense array and a plurality of force electrodes, wherein the capacitive sense array includes a plurality of sense electrodes, and the plurality of force electrodes includes a first subset of force electrodes that are located at an edge area and a second subset of force electrode that are not located at the edge area: obtaining a plurality of capacitive sense signals from the plurality of sense electrodes of the capacitive sense array; in accordance with the plurality of capacitive sense signals, detecting one or more candidate touches on the touch sensing surface, the one or more candidate touches including a first candidate touch; obtaining a plurality of force signals from the plurality of force electrodes; determining a capacitance variation of each force electrode; and in accordance with a determination that the capacitance variations of the first subset of force electrodes that are located at the edge area are greater than the capacitance variations of the second subset of force electrodes that are not located at the edge area: associating the first candidate touch with a grip on the edge area of the touch sensing surface; and designating the first candidate touch as an invalid touch. 2. The method of claim 1 , further comprising: determining a force value matrix corresponding to the force associated with the grip on the edge area based on the plurality of force signals, wherein the force value matrix indicates the physical press on the edge area of the touch sensing surface, thereby showing that the force is associated with the grip on the edge area. 3. The method of claim 2 , wherein the force value matrix has a plurality of elements corresponding to the plurality of force electrodes, and each element of the force value matrix is associated with the displacement of the touch sensing surface at a corresponding force electrode. 4. The method of claim 1 , wherein the association of the first candidate touch with a grip on the edge area of the touch sensing surface is further in accordance with at least one of: determining that the force applied on the edge area lasts for a duration of time that exceeds a predetermined grip time threshold; determining that the first touch associated with the grip of the edge area has a touch area that exceeds a predetermined grip area threshold; and determining that force associated with the plurality of force signals exceeds a grip force threshold. 5. The method of claim 1 , further comprising: determining that the one or more touches include a plurality of substantially synchronous touches. 6. The method of claim 1 , wherein the plurality of force signals is associated with one or more capacitances formed between the plurality of force electrodes and a ground, and the obtaining of the plurality of force signals from the plurality of force electrodes further comprises at least one of: measuring the plurality of force signals based on self-capacitances of the plurality of force electrodes with respect to the ground; and measuring the plurality of force signals based on mutual capacitances of the plurality of force electrodes. 7. The method of claim 1 , wherein the plurality of force electrodes and a ground are separated by a compressible gap having a gap thickness that varies in response to a force on the touch sensing surface. 8. The method of claim 7 , wherein the compressible gap includes an air gap. 9. The method of claim 7 , wherein the plurality of force electrodes and the capacitive sense array are disposed on one side of the compressible gap. 10. The method of claim 7 , wherein the plurality of force electrodes and the capacitive sense array are separated by the compressible gap. 11. A processing device, wherein the processing device is coupled to a capacitive sense array and a plurality of force electrodes, and the plurality of force electrodes includes a first subset of force electrodes that are located at an edge area and a second subset of force electrode that are not located at the edge area, comprising: a processing core; a capacitance sense circuit; and memory storing one or more programs comprising instructions which, when executed by the processing core, cause the processing core to perform: obtaining a plurality of capacitive sense signals from a plurality of sense electrodes of the capacitive sense array; in accordance with the plurality of capacitive sense signals, detecting one or more candidate touches on a touch sensing surface coupled to the capacitive sense array, the one or more candidate touches including a first candidate touch; obtaining a plurality of force signals from the plurality of force electrodes; determining a capacitance variation of each force electrode; and in accordance with a determination that the capacitance variations of the first subset of force electrodes that are located at the edge area are greater than the capacitance variations of the second subset of force electrodes that are not located at the edge area: associating the first candidate touch with a grip on the edge area of the touch sensing surface; and designating the first candidate touch as an invalid touch. 12. The processing device of claim 11 , wherein the processing device includes a plurality of capacitive sense channels, and the processing device is further configured to: electrically couple a first subset of the plurality of capacitive sense channels to the plurality of sense electrodes of the capacitive sense array, wherein the plurality of capacitive sense signals are measured from the first subset of the plurality of capacitive sense channels. 13. The processing device of claim 12 , wherein the processing device is further configured to: electrically couple a second subset of the plurality of capacitive sense channels to the plurality of force electrodes, wherein the plurality of force signals are measured from the second subset of the plurality of capacitive sense channels. 14. The processing device of claim 11 , wherein the processing device is further configured to: determining a force value matrix corresponding to the force associated with the grip on the edge area based on the plurality of force signals, wherein the force value matrix indicates the physical press on the edge area of the touch sensing surface, thereby showing that the force is associated with the grip on the edge area. 15. The processing device of claim 11 , wherein the processing device is configured to determine that the force is associated with a grip of the edge area by at least one of: determining that the force applied on the edge area lasts for a duration of time that exceeds a predetermined grip time threshold; determining that the first touch associated with the grip of the edge area has a touch area that exceeds a predetermined grip area threshold; and determining that force associated with the plurality of force signals exceeds a grip force threshold. 16. An electronic system, comprising: a capacitive sense array coupled to a touch sensing surface; a plurality of force electrodes, wherein the plurality of force electrodes includes a first subset of force electrodes that are located at an edge area and a second subset of force electrode that are not located at the edge area; and a processing device coupled to the capacitive sense array and the plurality of force electrodes, wherein the processing device is configured to: obtain a plurali