EL display apparatus

The invention claimed is: 1. An EL display apparatus comprising: a display screen including pixels arranged in a matrix, each of the pixels including an EL device and a pixel circuit; a source driver circuit configured to output a video signal applied to each of the pixels; a source signal line through which the video signal output from the source driver circuit is transmitted; and a gate driver circuit which includes a first gate driver circuit, a second gate driver circuit, a first gate signal line through which a first selection voltage or a first non-selection voltage output from the first gate driver circuit is transmitted, and a second gate signal line through which a second selection voltage or a second non-selection voltage output from the second gate driver circuit is transmitted, wherein: the pixel circuit of each of the pixels includes a driving transistor configured to supply a luminescence-causing current to the EL device, a first switching transistor, and a second switching transistor, the first switching transistor is disposed on a path through which the luminescence-causing current flows, the second switching transistor is configured to apply the video signal, which is output from the source driver circuit, to the driving transistor, a gate terminal of the first switching transistor is connected to the first gate signal line, a gate terminal of the second switching transistor is connected to the second gate signal line, the first switching transistor and the second switching transistor are independently on/off controlled by the first gate driver circuit and the second gate driver circuit, the source driver circuit is provided as a semiconductor chip and is attached to the EL display apparatus, an output terminal of the source driver circuit is connected to the source signal line, and the gate driver circuit receives a control signal that is level-shifted by the source driver circuit. 2. The EL display apparatus according to claim 1 , wherein the EL device is sealed by an encapsulating film. 3. The EL display apparatus according to claim 1 , wherein: the pixel circuit of each of the pixels further includes a third switching transistor, a first terminal of the third switching transistor is connected to a gate terminal of the driving transistor, a second terminal of the third switching transistor is connected to a terminal of the driving transistor other than the gate terminal of the driving transistor, and a gate terminal of the third switching transistor is connected to the second gate signal line. 4. The EL display apparatus according to claim 1 , wherein: the first gate driver circuit is arranged at a first side of the display screen, the second gate driver circuit is arranged at a second side of the display screen, the pixel circuit of each of the pixels further includes the EL device, and the first switching transistor is configured to control the luminescence-causing current supplied to the EL device. 5. The EL display apparatus according to claim 1 , further comprising a power supply, wherein: a cathode voltage generated by the power supply is supplied to the display screen through a cathode wire, and an anode voltage generated by the power supply is supplied to the display screen through an anode wire. 6. The EL display apparatus according to claim 1 , wherein: at least pixels of a first color and pixels of a second color are arranged in a matrix on the display screen, and a size of the pixel of the first color is different from a size of the pixel of the second color. 7. The EL display apparatus according to claim 3 , wherein the third switching transistor has a multigate structure. 8. The EL display apparatus according to claim 1 , wherein: the gate driver circuit and the driving transistor of the pixel are formed on a glass substrate, and the source driver circuit is mounted on the glass substrate. 9. The EL display apparatus according to claim 1 , wherein the gate driver circuit, the driving transistor, the first switching transistor, and the second switching transistor are formed by a same fabrication process. 10. The EL display apparatus according to claim 1 , wherein: the source driver circuit is connected to the source signal line, the source driver circuit is configured to supply a signal voltage to the gate terminal of the driving transistor, with the driving transistor supplying a current to the EL device which is N times as large as a predetermined value to achieve gray scale display indicated by an image signal inputted, and N is greater than one. 11. The EL display apparatus according to claim 1 , wherein the first gate driver circuit is configured to select a plurality of first gate signal lines simultaneously. 12. An electronic device, comprising: the EL display apparatus according to claim 1 . 13. A method of controlling an EL display apparatus, the EL display apparatus comprising: a display screen including pixels arranged in a matrix, each of the pixels including an EL device and a pixel circuit; a source driver circuit configured to output a video signal applied to each of the pixels; a source signal line through which the video signal output from the source driver circuit is transmitted; and a gate driver circuit which includes a first gate driver circuit, a second gate driver circuit, a first gate signal line through which a first selection voltage or a first non-selection voltage output from the first gate driver circuit is transmitted, and a second gate signal line through which a second selection voltage or a second non-selection voltage output from the second gate driver circuit is transmitted, the pixel circuit of each of the pixels including a driving transistor configured to supply a luminescence-causing current to the EL device, a first switching transistor, and a second switching transistor, the first switching transistor being disposed on a path through which the luminescence-causing current flows, the second switching transistor being configured to apply the video signal, which is output from the source driver circuit, to the driving transistor, a gate terminal of the first switching transistor being connected to the first gate signal line, a gate terminal of the second switching transistor being connected to the second gate signal line, the source driver circuit being provided as a semiconductor chip and being attached to the EL display apparatus, an output terminal of the source driver circuit being connected to the source signal line, the gate driver circuit being configured to receive a control signal that is level-shifted by the source driver circuit, and the method comprising: independently on/off controlling the first switching transistor and the second switching transistor by the first gate driver circuit and the second gate driver circuit.