Micro-strand heat dissipation system
地域:
TX
TX Round Rock
摘要
A micro-strand heat dissipation system includes a first processing device and a plurality of first micro-strand heat dissipator elements that are each positioned on the first processing device in a spaced apart orientation from the other first micro-strand heat dissipator elements. Each of the plurality of first micro-strand heat dissipator elements include a first micro-strand heat dissipator element portion that extends into the first processing device from an outer surface of the first processing device, and a second micro-strand heat dissipator element portion that extends from the outer surface of the first processing device. The first processing device may define a plurality of micro-strand heat dissipator connector features to which each of the plurality of first micro-strand heat dissipator elements may be connected, or the plurality of first micro-strand heat dissipator elements may be integrated as part of the first processing device.
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The present disclosure relates generally to information handling systems, and more particularly to the dissipation of heat generated by an information handling system using micro-strand heat dissipator elements.
As the value and use of information continues to increase, individuals and businesses seek additional ways to process and store information. One option available to users is information handling systems. An information handling system generally processes, compiles, stores, and/or communicates information or data for business, personal, or other purposes thereby allowing users to take advantage of the value of the information. Because technology and information handling needs and requirements vary between different users or applications, information handling systems may also vary regarding what information is handled, how the information is handled, how much information is processed, stored, or communicated, and how quickly and efficiently the information may be processed, stored, or communicated. The variations in information handling systems allow for information handling systems to be general or configured for a specific user or specific use such as financial transaction processing, airline reservations, enterprise data storage, or global communications. In addition, information handling systems may include a variety of hardware and software components that may be configured to process, store, and communicate information and may include one or more computer systems, data storage systems, and networking systems.
權(quán)利要求
What is claimed is:1. A micro-strand heat dissipation system, comprising:a first processing device; a plurality of first micro-strand heat dissipator elements that are each positioned on the first processing device in a spaced apart orientation from the other first micro-strand heat dissipator elements, wherein each of the plurality of first micro-strand heat dissipator elements include:a first micro-strand heat dissipator element portion that extends into the first processing device from an outer surface of the first processing device; and a second micro-strand heat dissipator element portion that extends from the outer surface of the first processing device. 2. The system of claim 1 , wherein the first processing device includes:a plurality of micro-strand heat dissipator connector features that are each accessible on the outer surface of the first processing device in a spaced apart orientation from the other micro-strand heat dissipator connector features, wherein each of the plurality of first micro-strand heat dissipator elements are connected to a respective micro-strand heat dissipator connector feature. 3. The system of claim 1 , wherein the plurality of first micro-strand heat dissipator elements are integrated as part of the first processing device. 4. The system of claim 1 , wherein:the outer surface of the first processing device includes a first outer surface and a second outer surface that is oriented substantially perpendicularly to the first outer surface; each of a first subset of the plurality of first micro-strand heat dissipator elements extend from the first outer surface of the first processing device; and each of a second subset of the plurality of first micro-strand heat dissipator elements extend from the second outer surface of the first processing device. 5. The system of claim 1 , further comprising:a second processing device that is coupled to the first processing device in a stacked processing system configuration; a plurality of second micro-strand heat dissipator elements that are each positioned on the second processing device in a spaced apart orientation from the other second micro-strand heat dissipator elements, wherein each of the plurality of second micro-strand heat dissipator elements include:a first micro-strand heat dissipator element portion that extends into the second processing device from the outer surface of the second processing device; and a second micro-strand heat dissipator element portion that extends from the outer surface of the second processing device. 6. The system of claim 1 , wherein the first micro-strand heat dissipator element portion of at least one of the plurality of first micro-strand heat dissipator elements extends into the first processing device from the outer surface of the first processing device and through the first processing device such that the first micro-strand heat dissipator element portion of the at least one of the plurality of first micro-strand heat dissipator elements is located immediately adjacent a heat producing component in the first processing device. 7. An Information Handling System (IHS), comprising:a chassis; a memory system that is included in the chassis and that stores instruction; and a first processing device that is included in the chassis, coupled to the memory system, and configured to read instructions from the memory system to perform one or more operations; a plurality of first micro-strand heat dissipator elements that are each positioned on the first processing device in a spaced apart orientation from the other first micro-strand heat dissipator elements, wherein each of the plurality of first micro-strand heat dissipator elements include:a first micro-strand heat dissipator element portion that extends into the first processing device from an outer surface of the first processing device; and a second micro-strand heat dissipator element portion that extends from the outer surface of the first processing device. 8. The IHS of claim 7 , wherein the first processing device includes:a plurality of micro-strand heat dissipator connector features that are each accessible on the outer surface of the first processing device in a spaced apart orientation from the other micro-strand heat dissipator connector features, wherein each of the plurality of first micro-strand heat dissipator elements are connected to a respective micro-strand heat dissipator connector feature. 9. The IHS of claim 7 , wherein the plurality of first micro-strand heat dissipator elements are integrated as part of the first processing device. 10. The IHS of claim 7 , wherein:the outer surface of the first processing device includes a first outer surface and a second outer surface that is oriented substantially perpendicularly to the first outer surface; each of a first subset of the plurality of first micro-strand heat dissipator elements extend from the first outer surface of the first processing device; and each of a second subset of the plurality of first micro-strand heat dissipator elements extend from the second outer surface of the first processing device. 11. The IHS of claim 7 , further comprising:a second processing device that is included in the chassis, coupled to the memory system, configured to read instructions from the memory system to perform one or more operations, and coupled to the first processing device in a stacked processing system configuration; a plurality of second micro-strand heat dissipator elements that are each positioned on the second processing device in a spaced apart orientation from the other second micro-strand heat dissipator elements, wherein each of the plurality of second micro-strand heat dissipator elements include:a first micro-strand heat dissipator element portion that extends into the second processing device from the outer surface of the second processing device; and a second micro-strand heat dissipator element portion that extends from the outer surface of the second processing device. 12. The IHS of claim 7 , wherein the first micro-strand heat dissipator element portion of at least one of the plurality of first micro-strand heat dissipator elements extends into the first processing device from the outer surface of the first processing device and through the first processing device such that the first micro-strand heat dissipator element portion of the at least one of the plurality of first micro-strand heat dissipator elements is located immediately adjacent a heat producing component in the first processing device. 13. The IHS of claim 7 , wherein the first processing device is a silicon photonics processing device. 14. A method for dissipating heat, comprising:generating, by a first processing device that includes a plurality of first micro-strand heat dissipator elements that are each positioned on the first processing device in a spaced apart orientation from the other first micro-strand heat dissipator elements, heat; conducting, by a first micro-strand heat dissipator element portion on each of the plurality of first micro-strand heat dissipator elements that extends into the first processing device from an outer surface of the first processing device, the heat that is generated by the first processing device to a respective second micro-strand heat dissipator element portion on that first micro-strand heat dissipator element that extends from the outer surface of the first processing device; and dissipating, by the second micro-strand heat dissipator element portion on each of the plurality of first micro-strand heat dissipator elements that extends from the outer surface of the first processing device, the heat. 15. The method of claim 14 , further comprising:connecting each of the plurality of first micro-strand heat dissipator elements to respective micro-strand heat dissipator connector features that are each accessible on the outer surface of the first processing device in a spaced apart orientation from the other micro-strand heat dissipator connector features. 16. The method of claim 14 , wherein the plurality of first micro-strand heat dissipator elements are integrated as part of the first processing device. 17. The method of claim 14 , wherein:the outer surface of the first processing device includes a first outer surface and a second outer surface that is oriented substantially perpendicularly to the first outer surface; each of a first subset of the plurality of first micro-strand heat dissipator elements extend from the first outer surface of the first processing device; and each of a second subset of the plurality of first micro-strand heat dissipator elements extend from the second outer surface of the first processing device. 18. The method of claim 14 , further comprising:generating, by a second processing device that is provided with the first processing device in a stacked processing system configuration and that includes a plurality of second micro-strand heat dissipator elements that are each positioned on the second processing device in a spaced apart orientation from the other second micro-strand heat dissipator elements, heat; conducting, by a first micro-strand heat dissipator element portion on each of the plurality of second micro-strand heat dissipator elements that extends into the second processing device from an outer surface of the second processing device, the heat that is generated by the second processing device to a respective second micro-strand heat dissipator element portion on that second micro-strand heat dissipator element that extends from the outer surface of the second processing device; and dissipating, by the second micro-strand heat dissipator element portion on each of the plurality of second micro-strand heat dissipator elements that extends from the outer surface of the second processing device, the heat. 19. The method of claim 14 , the first micro-strand heat dissipator element portion of at least one of the plurality of first micro-strand heat dissipator elements extends into the first processing device from the outer surface of the first processing device and through the first processing device such that the first micro-strand heat dissipator element portion of the at least one of the plurality of first micro-strand heat dissipator elements is located immediately adjacent a heat producing component in the first processing device that generates the heat. 20. The method of claim 14 , wherein the first processing device is a silicon photonics processing device.
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