Reducing the power consumption of an information handling system capable of handling both dynamic and static display applications

The invention claimed is: 1. An Information Handling System (IHS), comprising: a processor; and a memory coupled to the processor, the memory having program instructions stored thereon that, upon execution by the IHS, cause the IHS to: in response to a request to operate in static display mode: (a) render static content on a display, (b) allow the processor to enter a standby mode once the static content has been rendered on the display by notifying an Operating System (OS) that the display is off while keeping the display on, and (c) maintain the display refreshed with the static content while the processor remains in standby mode; while in the static display mode and in response to a command that requires modifying the static content rendered on the display, wake up the processor and generate updated static content using the processor; and after generating the updated static content: (a) render the updated static content on the display while the processor is awake, (b) allow the processor to re-enter standby mode once the updated static content has been rendered on the display by notifying the OS that the display is off while keeping the display on, and (c) maintain the display refreshed with the updated static content while the processor remains in standby mode. 2. The IHS of claim 1 , wherein the static content is a portion of an electronic book (e-book). 3. The IHS of claim 1 , wherein the request to operate in static mode is received via a software application configured to operate as an e-book reader. 4. The IHS of claim 1 , wherein the display is a backlit Liquid Crystal Display (LCD) screen. 5. The IHS of claim 1 , wherein the display is a dual-mode display. 6. The IHS of claim 1 , wherein the standby mode comprises an S0 low-power idle mode. 7. The IHS of claim 1 , wherein the operation of notifying the OS that the display is off while the display is on is performed by an Embedded Controller (EC). 8. The IHS of claim 7 , wherein the processor is a Graphical Processing Unit (GPU), and wherein maintaining the display refreshed with the static content includes the EC requesting that the GPU enter a low-power mode capable of refreshing the display with the static content. 9. The IHS of claim 1 , wherein in connection with the rendering of updated static content on the display, the program instructions, upon execution, further cause the IHS to display an animation or moving image after the processor is awoken and prior to the processor re-entering standby. 10. The IHS of claim 1 , wherein prior to allowing the processor to re-enter standby, the program instructions, upon execution, further cause the IHS to wait a predetermined amount of time in the absence of user input. 11. A memory device having program instructions stored thereon that, upon execution by an Information Handling System (IHS), cause the IHS to: in response to a request to operate in e-book mode: (a) render e-book content on a Liquid Crystal Display (LCD), (b) allow a processor to enter a standby mode once the e-book content has been rendered on the display by notifying an Operating System (OS) that the LCD is off while keeping the LCD on, and (c) maintain the LCD refreshed with the e-book content while the processer remains in standby mode; while in e-book mode and in response to a command that requires modifying the e-book content rendered on the LCD, wake up the processor and generate updated e-book content using the processor; and after generating the updated e-book content: (a) render the updated e-book content on the LCD while the processor is awake, (b) allow the processor to re-enter standby mode once the updated e-book content has been rendered on the display by notifying the OS that the LCD is off while keeping the LCD on, and (c) maintain the LCD refreshed with the updated e-book content while the processor remains in standby mode. 12. The memory device of claim 11 , wherein the standby mode is an S0 low-power idle mode. 13. The memory device of claim 11 , wherein the processor is a Graphical Processing Unit (GPU), and wherein maintaining the LCD refreshed with the e-book content includes requesting that the GPU enter a refresh-only mode capable of refreshing the LCD with the e-book content. 14. The memory device of claim 11 , wherein in connection with the rendering of updated e-book content on the LCD, the program instructions, upon execution, further cause the IHS to display an animation or moving image after the processor is awoken and prior to the processor re-entering the standby mode. 15. The memory device of claim 11 , wherein prior to allowing the processor to re-enter the standby mode, the program instructions, upon execution, further cause the IHS to wait a predetermined amount of time in the absence of user input. 16. In an Information Handling System (IHS), a method comprising: rendering static content on a screen; allowing a processor to enter a low-power mode once the static content has been rendered on the display by notifying an Operating System (OS) that the screen is off while keeping the screen on; maintaining the screen refreshed with the static content while the processor remains in low-power mode; receiving a command that requires modifying the static content; waking up the processor from the low-power mode; generating modified static content using the processor; rendering the modified static content on the screen; allowing the processor to re-enter the low-power mode once the modified static content has been rendered on the screen by notifying the OS that the screen is off while keeping the screen on; and maintaining the screen refreshed with the modified static content while the processor remains in low-power mode. 17. The method of claim 16 , wherein the low-power mode is a power mode in which the OS operates as if the screen be turned off. 18. The method of claim 16 , wherein the processor is a Graphical Processing Unit (GPU), and wherein maintaining the screen refreshed with the static content includes requesting that the GPU enter a refresh-only mode capable of refreshing the screen with the static content. 19. The method of claim 16 , further comprising, in connection with the rendering of updated content on the screen, displaying an animation or moving image after the processor is awoken and prior to the processor re-entering the low-power mode. 20. The method of claim 16 , further comprising, prior to allowing the processor to re-enter the low-power mode, waiting a predetermined amount of time in the absence of user input.