TRAY AND CHASSIS BLADE SERVER ARCHITECTURE
First Claim
1. A tray insertable into a slot of a chassis storing a multi-blade computational unit, the chassis comprising a chassis power connector and a chassis network connector, the tray comprising:
- a tray base configured to support at least one blade component of a blade;
a tray power connector configured to couple with at least one blade component of the blade, and positioned to, upon insertion of a tray into a slot of the chassis, couple directly with a chassis power connector of the chassis;
a tray network connector configured to couple with a blade network connector of the blade, and positioned to, upon insertion of the tray into a slot of the chassis, couple directly with a chassis network connector of the chassis; and
a tray guide configured to couple with a chassis guide of the chassis and, upon insertion of the tray into a slot of the chassis, guide the insertion of the tray to couple the tray power connector directly with the chassis power connector and the tray network connector directly with the chassis network connector.
2 Assignments
0 Petitions
Accused Products
Abstract
In computing scenarios involving an aggregation of multiple computational units into a server or computer set, many architectures may be devised to provide physical storage and logical aggregation of the computational units. Presented herein are variations of one such architecture, comprising a chassis having a set of slots, into which may be inserted a tray storing the computational units of one or more blades. Respective trays and chassis slots comprise a power connector and a network connector that are positioned to connect directly (i.e., without a cable or manual interaction) when a tray is inserted into a slot. The chassis stores a set of power supplies, and may connect each blade with a power supply, optionally providing power routing and failover capabilities. The chassis may also provide a management component that connects to and provides management capabilities of the blades of the trays, power supplies, and climate regulating components.
23 Citations
20 Claims
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1. A tray insertable into a slot of a chassis storing a multi-blade computational unit, the chassis comprising a chassis power connector and a chassis network connector, the tray comprising:
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a tray base configured to support at least one blade component of a blade; a tray power connector configured to couple with at least one blade component of the blade, and positioned to, upon insertion of a tray into a slot of the chassis, couple directly with a chassis power connector of the chassis; a tray network connector configured to couple with a blade network connector of the blade, and positioned to, upon insertion of the tray into a slot of the chassis, couple directly with a chassis network connector of the chassis; and a tray guide configured to couple with a chassis guide of the chassis and, upon insertion of the tray into a slot of the chassis, guide the insertion of the tray to couple the tray power connector directly with the chassis power connector and the tray network connector directly with the chassis network connector. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A chassis configured to store blades of a multi-blade computational unit, the chassis comprising:
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at least one chassis power source connector configured to provide power from a chassis power source; at least one chassis network source connector configured to provide network connectivity with a network; and at least two substantially parallel slots respectively configured to host a tray storing at least one blade, respective slots comprising; a chassis power connector configured to receive power from a chassis power source connector and positioned to, upon insertion of a tray into the slot, couple directly with a tray power connector of the tray; a chassis network connector configured to communicate with the chassis network source connector and positioned to, upon insertion of the tray into the slot, couple directly with a tray network connector of the tray; and a chassis guide configured to couple with a tray guide of the tray and, upon insertion of the tray into the slot, guide the insertion of the tray to couple the chassis power connector directly with the tray power connector and the chassis network connector directly with the tray network connector. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
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20. A chassis system supporting a multi-blade computational unit, comprising:
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a set of trays respectively comprising; at least one tray guide; a tray base apportioned into at least two tray blade regions respectively storing at least one blade component comprising a blade; a tray management interface connector configured to couple with a blade management interface connector of at least one blade component of the blade; and for respective blades of the tray; a tray unified connector comprising a tray power connector and a tray network connector; and for blades comprising at least two storage components respectively comprising a storage component connector, a storage interconnect comprising; at least two storage interconnect connectors configured to couple with the storage component connector of a storage component; and a storage array connector configured to present the storage components of the storage component array; and a chassis mountable within a rack and providing at least two substantially parallel slots respectively configured to host a tray storing at least one blade, the chassis comprising; a chassis mount connector configured to couple with a rack mount connector of the rack; at least one chassis power source connector comprising at least two chassis power supplies, the chassis power source connector configured to, for respective blades, provide power from a chassis power supply selected from at least two chassis power supplies; at least one chassis network source connector configured to provide network connectivity with a network; for respective slots configured to receive a tray comprising a tray unified connector and at least one tray guide; for respective blades of the tray, a chassis unified connector positioned to, upon insertion of a tray into the slot, couple directly with the tray unified connector of a blade of the tray, the chassis unified connector comprising; a chassis power connector configured to couple the tray power connector with one power connector selected from at least two power supplies, and a chassis network connector configured to communicate with the chassis network source connector; and at least one chassis guide configured to, upon insertion of the tray into the slot, couple directly with a tray guide of the tray to guide the insertion of the tray to couple the chassis unified connector directly with the tray unified connector; at least one chassis climate regulating component embedded in the chassis and not supported by a tray and configured to regulate climate for the blades of the chassis, and comprising a chassis climate regulating component management interface connector; and at least one network switch embedded in the chassis and not supported by a tray, and configured to couple with the tray network connectors of at least two blades to provide network switching; and a chassis management component embedded in the chassis and not supported by a tray, the chassis management component comprising; for respective slots, at least one tray management interface connector positioned to, upon insertion of the tray into a slot of the chassis, couple with a tray management interface connector of the tray configured to manage at least one blade of the tray; a chassis power management component connector configured to couple with the chassis power source management interface connector; and a chassis climate regulating component management connector configured to couple with the chassis climate regulating component management interface connector.
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Specification