Multi-pane electrochromic windows

What is claimed is: 1. An insulated glass unit comprising: a first pane having an electrochromic device thereon, wherein the electrochromic device comprises a first conductive layer, an electrochromic layer, an ion conducting layer, a counter electrode layer, and a second conductive layer; and a transparent conductive oxide layer which is not part of the electrochromic device, wherein the transparent conductive oxide layer resistively heats during operation via application of electricity, and wherein the heating function of the transparent conductive oxide layer is to aid in low temperature switching of the electrochromic device. 2. The insulated glass unit of claim 1 , wherein the transparent conductive oxide layer is on a second pane. 3. The insulated glass unit of claim 1 , wherein the electrochromic device is solid state and inorganic. 4. The insulated glass unit of claim 2 , further comprising a sealing separator between the first and second panes, the sealing separator, together with the first and second panes, defining a thermally insulating interior region of the insulated glass unit, wherein the thermally insulating interior region contains a gas. 5. The insulated glass unit of claim 2 , wherein the second pane comprises an electrochromic film thereon. 6. The insulated glass unit of claim 2 , wherein the second pane comprises an infrared reflective and/or infrared absorbing coating. 7. The insulated glass unit of claim 2 , wherein the second pane faces the exterior of a building when installed in the building. 8. An electrochromic device comprising: a first transparent conducting oxide layer; an electrochromic layer; an ion conductor layer; a counter electrode layer; and a second transparent conducting oxide layer; wherein the electrochromic device is heated during operation by electrically resistively heating a third transparent conductive oxide layer, wherein the resistive heating function of the third transparent conductive oxide layer is for aiding in low temperature switching of the electrochromic device. 9. The electrochromic device of claim 8 that is on a first pane of an insulated glass unit. 10. The electrochromic device of claim 9 , wherein the insulated glass unit comprises a second pane which comprises an electrochromic film thereon. 11. The electrochromic device of claim 8 that is solid state and inorganic. 12. The electrochromic device of claim 8 , wherein said third transparent conducting oxide layer configured to be electrically resistively heated comprises indium oxide, indium tin oxide, doped indium oxide, tin oxide, doped tin oxide, zinc oxide, aluminum zinc oxide, doped zinc oxide, ruthenium oxide, or doped ruthenium oxide. 13. An electrochromic window comprising: a transparent substrate; an electrochromic device disposed on the transparent substrate, the electrochromic device comprising a first transparent conductive oxide layer and a second transparent conductive oxide layer; and a third transparent conductive oxide layer which is not part of the electrochromic device, wherein the third transparent conductive oxide layer is heated during operation via application of electricity, wherein the resistive heating function of the third transparent conductive oxide layer is for aiding in low temperature switching of the electrochromic device. 14. The electrochromic window of claim 13 , wherein the electrochromic device is entirely solid state and organic. 15. The electrochromic window of claim 13 , wherein the electrochromic window is in the form of an insulating glass unit (IGU) comprising a sealing separator between the substantially transparent substrate and another substantially transparent substrate forming a thermally insulating interior region therebetween.