A graphic rendering apparatus includes a processing unit and a storage unit. The storage unit is stored with a piece of information. The piece of information defines a virtual area on a display. A pixel of the display overlaps a part of the virtual area, and the part corresponds to a color. The pixel defines a first boundary, a second boundary, a third boundary, and a fourth boundary. The processing unit decides a first coverage rate, a second coverage rate, a third coverage rate, and a fourth coverage rate of the virtual area on the first boundary, the second boundary, the third boundary, and the fourth boundary, respectively. The processing unit decides a display color of the pixel with reference to the color and the first coverage rate, the second coverage rate, the third coverage rate, and the fourth coverage rate.
A graphic rendering apparatus includes a processing unit and a storage unit. The storage unit is stored with a piece of information. The piece of information defines a virtual area on a display. A pixel of the display overlaps a part of the virtual area, and the part corresponds to a color. The pixel defines a first boundary, a second boundary, a third boundary, and a fourth boundary. The processing unit decides a first coverage rate, a second coverage rate, a third coverage rate, and a fourth coverage rate of the virtual area on the first boundary, the second boundary, the third boundary, and the fourth boundary, respectively. The processing unit decides a display color of the pixel with reference to the color and the first coverage rate, the second coverage rate, the third coverage rate, and the fourth coverage rate.
A graphic rendering apparatus includes a processing unit and a storage unit. The storage unit is stored with a piece of information. The piece of information defines a virtual area on a display. A pixel of the display overlaps a part of the virtual area, and the part corresponds to a color. The pixel defines a first boundary, a second boundary, a third boundary, and a fourth boundary. The processing unit decides a first coverage rate, a second coverage rate, a third coverage rate, and a fourth coverage rate of the virtual area on the first boundary, the second boundary, the third boundary, and the fourth boundary, respectively. The processing unit decides a display color of the pixel with reference to the color and the first coverage rate, the second coverage rate, the third coverage rate, and the fourth coverage rate.
技術摘要-英文: A graphic rendering apparatus includes a processing unit and a storage unit. The storage unit is stored with a piece of information. The piece of information defines a virtual area on a display. A pixel of the display overlaps a part of the virtual area, and the part corresponds to a color. The pixel defines a first boundary, a second boundary, a third boundary, and a fourth boundary. The processing unit decides a first coverage rate, a second coverage rate, a third coverage rate, and a fourth coverage rate of the virtual area on the first boundary, the second boundary, the third boundary, and the fourth boundary, respectively. The processing unit decides a display color of the pixel with reference to the color and the first coverage rate, the second coverage rate, the third coverage rate, and the fourth coverage rate.
A graphic rendering apparatus includes a processing unit and a storage unit. The storage unit is stored with a piece of information. The piece of information defines a virtual area on a display. A pixel of the display overlaps a part of the virtual area, and the part corresponds to a color. The pixel defines a first boundary, a second boundary, a third boundary, and a fourth boundary. The processing unit decides a first coverage rate, a second coverage rate, a third coverage rate, and a fourth coverage rate of the virtual area on the first boundary, the second boundary, the third boundary, and the fourth boundary, respectively. The processing unit decides a display color of the pixel with reference to the color and the first coverage rate, the second coverage rate, the third coverage rate, and the fourth coverage rate.
技術摘要-英文: A graphic rendering apparatus includes a processing unit and a storage unit. The storage unit is stored with a piece of information. The piece of information defines a virtual area on a display. A pixel of the display overlaps a part of the virtual area, and the part corresponds to a color. The pixel defines a first boundary, a second boundary, a third boundary, and a fourth boundary. The processing unit decides a first coverage rate, a second coverage rate, a third coverage rate, and a fourth coverage rate of the virtual area on the first boundary, the second boundary, the third boundary, and the fourth boundary, respectively. The processing unit decides a display color of the pixel with reference to the color and the first coverage rate, the second coverage rate, the third coverage rate, and the fourth coverage rate.
A display system for simultaneous displaying of windows generated by a plurality of window systems belonging to the same desktop or laptop platform includes a master computer device with its display device and at least one slave computer device, a shared memory, an input means and an output means, as described herein. Each of the master computer device and the at least one slave computer device has a corresponding window system. The shared memory is coupled to the computer devices and is accessible by the master computer device and the at least one slave computer device. The input means receives multiple windows simultaneously generated by the window systems of the master computer device and the at least one slave computer device. The output means generates the multiple windows for the display device of the master computer device. In support of these operations, the master computer device and the at least one slave computer device simultaneously read and write window data stored in the shared memory.
技術摘要-英文: A display system for simultaneous displaying of windows generated by a plurality of window systems belonging to the same desktop or laptop platform includes a master computer device with its display device and at least one slave computer device, a shared memory, an input means and an output means, as described herein. Each of the master computer device and the at least one slave computer device has a corresponding window system. The shared memory is coupled to the computer devices and is accessible by the master computer device and the at least one slave computer device. The input means receives multiple windows simultaneously generated by the window systems of the master computer device and the at least one slave computer device. The output means generates the multiple windows for the display device of the master computer device. In support of these operations, the master computer device and the at least one slave computer device simultaneously read and write window data stored in the shared memory.
A bridge logic device for a heterogeneous computer system that has at least one performance processor, a processor supporting logic, and a hypervisor processor is disclosed. The bridge logic device comprises a hypervisor operation logic, a processor language translator logic that translates between processor languages of the at least one performance and the hypervisor processors, and a high-speed bus switch that has first, second and third ports for relaying data across any two of the three ports bidirectionally. The switch is connected to the at least one performance processor at the first port, to the hypervisor processor via the processor language translator logic at the second port and to the processor supporting logic at the third port.
技術摘要-英文: A bridge logic device for a heterogeneous computer system that has at least one performance processor, a processor supporting logic, and a hypervisor processor is disclosed. The bridge logic device comprises a hypervisor operation logic, a processor language translator logic that translates between processor languages of the at least one performance and the hypervisor processors, and a high-speed bus switch that has first, second and third ports for relaying data across any two of the three ports bidirectionally. The switch is connected to the at least one performance processor at the first port, to the hypervisor processor via the processor language translator logic at the second port and to the processor supporting logic at the third port.
A method for processing a virtual treasure of an on line game includes the following steps: when a client log in an on line game server through a network with a client account, if at least an un-updated virtual-treasure-exchange log is stored in a portable virtual-treasure storage device, which is connected to the client, is detected. The on line game server is utilized to provide an on line game through the network. If an un-updated virtual-treasure-exchange log is detected, virtual treasure information corresponding to the client account stored in the on line game server is updated according to the un-updated virtual-treasure-exchange log. The on line game is provided to the client according to the virtual treasure information corresponding to the client account.
技術摘要-英文: A method for processing a virtual treasure of an on line game includes the following steps: when a client log in an on line game server through a network with a client account, if at least an un-updated virtual-treasure-exchange log is stored in a portable virtual-treasure storage device, which is connected to the client, is detected. The on line game server is utilized to provide an on line game through the network. If an un-updated virtual-treasure-exchange log is detected, virtual treasure information corresponding to the client account stored in the on line game server is updated according to the un-updated virtual-treasure-exchange log. The on line game is provided to the client according to the virtual treasure information corresponding to the client account.