초록 ▼

A computing assembly comprises an enclosure body having opposite first and second planar surfaces, one or more storage bays operably coupled with the enclosure body (where the one or more storage bays pivot relative to the enclosure body to protrude outward from the first planar surface of the enclo

A computing assembly comprises an enclosure body having opposite first and second planar surfaces, one or more storage bays operably coupled with the enclosure body (where the one or more storage bays pivot relative to the enclosure body to protrude outward from the first planar surface of the enclosure body), one or more computing node devices at least partially disposed within the enclosure body (where the one or more computing node devices include one or more circuits) and one or more memory devices disposed within the one or more storage bays.

대표청구항 ▼

1. A computing assembly comprising: an enclosure body having opposite first and second planar surfaces;one or more storage bays operably coupled with the enclosure body, the one or more storage bays pivoting relative to the enclosure body to protrude outward from the first planar surface of the encl

1. A computing assembly comprising: an enclosure body having opposite first and second planar surfaces;one or more storage bays operably coupled with the enclosure body, the one or more storage bays pivoting relative to the enclosure body to protrude outward from the first planar surface of the enclosure body, wherein the one or more storage bays pivot relative to the enclosure body about an axis located inside the enclosure body;one or more computing node devices at least partially disposed within the enclosure body, the one or more computing node devices including one or more circuits; andone or more memory devices disposed within the one or more storage bays. 2. The computing assembly of claim 1, wherein the one or more storage bays pivot relative to the enclosure body to protrude from the first surface and open to provide access to the one or more memory devices in the one or more storage bays from outside of the enclosure body. 3. The computing assembly of claim 1, further comprising one or more dampening assemblies that reduce forces imparted on the one or more memory devices inside the one or more storage bays when the one or more storage bays pivot relative to the enclosure body. 4. The computing assembly of claim 1, wherein the enclosure body includes a first side and an opposite second side operably coupled with the first and second planar surfaces, the enclosure body also including a first end and an opposite second end operably coupled with the first and second planar surfaces, wherein the one or more storage bays pivot relative to the enclosure body about a location that is between the first end and the opposite second end, between the first planar surface and the second planar surface, and between the first side and the opposite second side such that the one or more storage bays protrude out of the first planar surface. 5. A computing assembly comprising: an enclosure body having opposite first and second surfaces operably coupled by opposite third and fourth surfaces, the first and second surfaces having larger surface areas than the third and fourth surfaces; andone or more storage bays operably coupled with the enclosure body such that the one or more storage bays pivot relative to the enclosure body to protrude out of the first surface to provide access into the one or more storage bays from outside of the enclosure body, wherein the one or more storage bays pivot relative to the enclosure body about an axis located inside the enclosure body. 6. The computing assembly of claim 5, further comprising one or more computing components disposed inside the one or more storage bays, the one or more storage bays pivoting relative to the enclosure body to provide access to the one or more computing components from outside of the enclosure body. 7. The computing assembly of claim 5, wherein the one or more storage bays independently move relative to the enclosure body. 8. The computing assembly of claim 5, wherein the one or more storage bays pivot into the enclosure body to prevent access into the one or more storage bays. 9. The computing assembly of claim 5, wherein the one or more storage bays include one or more surfaces that are oriented at one or more acute angles with respect to the first surface of the enclosure body as the one or more storage bays are opened. 10. The computing assembly of claim 9, wherein the one or more surfaces are oriented parallel or substantially parallel to the first surface of the enclosure body as the one or more storage bays are closed into the enclosure body. 11. The computing assembly of claim 4, further comprising one or more dampening assemblies operably coupled to the one or more storage bays and the enclosure body, the one or more dampening assemblies reducing forces imparted on one or more computing components disposed within the one or more storage bays as the one or more storage bays move relative to the enclosure body. 12. A computing assembly comprising: an enclosure body including a first end, an opposite second end, and a first planar surface operably coupled with each other; andone or more storage bays operably coupled with the enclosure body such that the one or more storage bays pivot relative to the enclosure body, the one or more storage bays pivoting relative to the enclosure body in a location between the first end and the opposite second end such that the one or more storage bays protrude out of the first planar surface and provide access to one or more interior portions of the one or more storage bays, wherein the one or more storage bays pivot relative to the enclosure body about an axis located inside the enclosure body. 13. The computing assembly of claim 12, further comprising one or more removable computing components disposed in the one or more storage bays. 14. The computing assembly of claim 12, wherein the one or more storage bays pivot relative to the enclosure body to open the one or more storage bays and provide access to one or more removable computing components in the one or more storage bays from outside of the enclosure body. 15. The computing assembly of claim 12, wherein the one or more storage bays pivot into the enclosure body to prevent access to the one or more interior portions of the one or more storage bays. 16. The computing assembly of claim 15, wherein the one or more storage bays cease protruding outside of the enclosure body responsive to the one or more storage bays pivoting into the enclosure body. 17. The computing assembly of claim 12, further comprising one or more dampening assemblies operably coupled to the one or more storage bays and the enclosure body, the one or more dampening assemblies reducing forces imparted on one or more computing components disposed within the one or more storage bays caused by movement of the one or more storage bays relative to the enclosure body. 18. The computing assembly of claim 12, wherein the one or more storage bays are disposed between the first end and the opposite second end of the enclosure body. 19. The computing assembly of claim 12, wherein the enclosure body forms at least part of a blade server computing assembly. 20. The computing assembly of claim 12, wherein the one or more storage bays include one or more couplers that engage one or more removable computing components in the one or more storage bay. 21. The computing assembly of claim 12, further comprising one or more computing node devices disposed in the first end of the enclosure body and one or more computing components disposed in the one or more storage bays, the one or more computing node devices performing processing of data using data stored on the one or more computing devices while the one or more storage bays move relative to the enclosure body. 22. The computing assembly of claim 12, wherein the enclosure body includes a second planar surface that is opposite the first planar surface, a first side, and an opposite second side operably coupled with each other, wherein the one or more storage bays pivot relative to the enclosure body in the location that is between the first end and the opposite second end, between the first planar surface and the second planar surface, and between the first side and the opposite second side such that the one or more storage bays protrude out of the first planar surface.