Method and apparatus for supervising a processor within a distributed platform switch through graphical representations
First Claim
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1. A method for supervising a distributed switch having a plurality of interconnected distributed switch processors each having its own plurality of components, comprising the steps of:
- (a) receiving state information about a distributed switch processor from the plurality of distributed switch processors; and
(b) displaying a graphical user interface (GUI) having a plurality of glyphs within a single output unit, each glyph from the plurality of glyphs representing a component of the distributed switch processor, each glyph from the plurality of glyphs indicating the state information about its own component;
wherein a first arrangement of the plurality of glyphs displayed in said displaying step (b) correspond to a front physical layout of the components of the distributed switch processor within a front of a cabinet containing the components, a second arrangement of the plurality of glyphs displayed in said displaying step (b) correspond to a back physical layout of the components of the distributed switch processor within a back of the cabinet containing the components, and the front physical layout and the back physical layout are displayed in said displaying step (b) within said single output unit.
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Abstract
Supervising a distributed switch having a set of interconnected distributed switch processors each having its own set of components. State information about a distributed switch processor from the set of distributed switch processors is received. A graphical user interface (GUI) having a set of glyphs within one output unit is displayed. Each glyph from the set of glyphs representing a component of the distributed switch processor. Each glyph from the set indicates the state information about its own component.
50 Citations
24 Claims
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1. A method for supervising a distributed switch having a plurality of interconnected distributed switch processors each having its own plurality of components, comprising the steps of:
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(a) receiving state information about a distributed switch processor from the plurality of distributed switch processors; and
(b) displaying a graphical user interface (GUI) having a plurality of glyphs within a single output unit, each glyph from the plurality of glyphs representing a component of the distributed switch processor, each glyph from the plurality of glyphs indicating the state information about its own component;
wherein a first arrangement of the plurality of glyphs displayed in said displaying step (b) correspond to a front physical layout of the components of the distributed switch processor within a front of a cabinet containing the components, a second arrangement of the plurality of glyphs displayed in said displaying step (b) correspond to a back physical layout of the components of the distributed switch processor within a back of the cabinet containing the components, and the front physical layout and the back physical layout are displayed in said displaying step (b) within said single output unit. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
(c) receiving updated state information about the distributed processor; and
(d) displaying the GUI so that each glyph from the plurality of glyphs indicates the updated state information about its own component.
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6. The method of claim 1, wherein the single output unit is a single GUI window.
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7. The method of claim 1, wherein the front physical layout is displayed on either a left or right half of said single output unit and the back physical layout is displayed on said single output unit on the half opposite to the displayed front physical layout.
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8. The method of claim 1, wherein the front physical layout is displayed on either a left or right half of said single output unit and the back physical layout is displayed on said single output unit on the half opposite to the displayed front physical layout.
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9. An article of manufacture, comprising:
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a computer-readable memory having stored thereon a plurality of instructions for supervising a distributed switch having a plurality of interconnected distributed switch processors each having its own plurality of components, the instructions which, when executed by a processor, cause the processor to;
(a) receive state information about a distributed switch processor from the plurality of distributed switch processors; and
(b) display a graphical user interface (GUI) having a plurality of glyphs within a single output unit, each glyph from the plurality of glyphs representing a component of the distributed switch processor, each glyph from the plurality of glyphs indicating the state information about its own component;
wherein a first arrangement of the plurality of glyphs displayed in said displaying step (b) correspond to a front physical layout of the components of the distributed switch processor within a front of a cabinet containing the components, a second arrangement of the plurality of glyphs displayed in said displaying step (b) correspond to a back physical layout of the components of the distributed switch processor within a back of the cabinet containing the components, and the front physical layout and the back physical layout are displayed in said displaying step (b) within said single output unit. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
(c) receive updated state information about the distributed processor; and
(d) display the GUI so that at least one glyph from the plurality of glyphs indicates the updated state information about its own component.
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14. The article of manufacture of claim 9, wherein the single output unit is a single GUI window.
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15. The method of claim 9, wherein the front physical layout is displayed on either a left or right half of said single output unit and the back physical layout is displayed on said single output unit on the half opposite to the displayed front physical layout.
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16. The method of claim 9, wherein the front physical layout is displayed on either a left or right half of said single output unit and the back physical layout is displayed on said single output unit on the half opposite to the displayed front physical layout.
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17. A computer for supervising a distributed switch having a plurality of interconnected distributed switch processors each having its own plurality of components, comprising:
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a computer-readable memory containing;
(a) a state program receiving state information about a distributed processor from the plurality of distributed processors; and
(b) a GUI program displaying a graphical user interface (GUI) having a plurality of glyphs within a single output unit, each glyph from the plurality of glyphs representing a component of the distributed switch processor, each glyph from the plurality of glyphs indicating the state information about its own component;
wherein a first arrangement of the plurality of glyphs displayed in said displaying step (b) correspond to a front physical layout of the components of the distributed switch processor within a front of a cabinet containing the components, a second arrangement of the plurality of glyphs displayed in said displaying step (b) correspond to a back physical layout of the components of the distributed switch processor within a back of the cabinet containing the components, and the front physical layout and the back physical layout are displayed in said displaying step (b) within said single output unit; and
a processor connected to said computer-readable memory, said processor running the state program and the GUI program. - View Dependent Claims (18, 19, 20, 21, 22, 23, 24)
(c) receive updated state information about the distributed processor, and (d) display the GUI so that at least one glyph from the plurality of glyphs indicates the updated state information about its own component.
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22. The computer of claim 17, wherein the single output unit is a single GUI window.
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23. The computer of claim 17, wherein the front physical layout is displayed on either a left or right half of said single output unit and the back physical layout is displayed on said single output unit on the half opposite to the displayed front physical layout.
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24. The computer of claim 17, wherein the front physical layout is displayed on either a left or right half of said single output unit and the back physical layout is displayed on said single output unit on the half opposite to the displayed front physical layout.
Specification