![]() Mitigating overheating and enhancing air circulation also protects the desk or table surface under the laptop. Some laptop holders have a fan feature and act as a cooling stand which further improves air circulation which can improve the laptop’s performance. This feature prevents the laptop from overheating. Laptop stands also allows for unrestricted air circulation around and under the laptop. ![]() Tilting the keyboard this way provides a more ergonomic method for typing, leading to less strain and stress on wrists. Laptop stands can also be adjusted to be used at an angle towards the user. In addition, having the monitor at eye level can help reduce headaches and migraines. This provides an opportunity for better posture and less neck strain, leading to a potential decrease in back and neck pain. For the user, adjustable laptop stands raise the laptop to the user’s eye level. There are wide benefits to using a laptop riser and the benefits extend to the user, equipment and surface under the laptop. Elevating the laptop also frees up space underneath for other uses. The laptop is securely fastened onto the laptop stand for safety and protection of the laptop. The laptop holder can be adjusted to different heights and angles for optimal use. Laptop risers come in multiple sizes to fit various laptop sizes. Laptop stands are adjustable laptop holders that can raise the laptop to a desired height. Laptop stands for desks offer multiple benefits and uses and have become an essential piece of equipment for frequent laptop users. 0.21s gpulist v4.A laptop stand is a device that allows laptops to be elevated off of the surface and is most commonly used on desks. #10 got benchmark programm data, about to get FAL images +0s. #8 Created sortOrder for cached benchmark data +0s. #7 Loaded cached benchmark data tx_nbc2_cpu_cache_values +0.01s. #6 found 5011 cached benchmark values +0.03s. #4 Cache table found with all needed fields in it! +0s. ![]() #3 Cache table for values found, checking fields. # started gpulist at took 0s on source +0s. Model Codename Series L2 Cache 元 Cache FSB / QPI TDP Watt MHz Turbo Cores Threads Process (nm) Architecture 64 Bit Days old Graphics Card all, noneģDMark06 CPU Cinebench R10 32Bit Single Cinebench R10 32Bit Multi Cinebench R11.5 CPU Single 64Bit Cinebench R11.5 64Bit Cinebench R15 CPU Single 64Bit Cinebench R15 CPU Multi 64Bit Cinebench R20 Single Cinebench R20 Cinebench R23 Single Core Cinebench R23 Multi Core SuperPI 1M* SuperPI 32M* wPrime 32 wPrime 1024 WinRAR 4.0 x264 Pass 1 x264 Pass 2 x265 TrueCrypt AES TrueCrypt Twofish TrueCrypt Serpent Blender 7-Zip Single 7-Zip Geekbench 2 Geekbench 3 32 Bit Single-Core Score Geekbench 3 32 Bit Multi-Core Score Geekbench 4.1 - 4.4 64 Bit Single-Core Score Geekbench 4.1 - 4.4 64 Bit Multi-Core Score Geekbench 5.0 5.0 Single-Core Geekbench 5.0 5.0 Multi-Core Geekbench 5.2 - 5.5 Single-Core Geekbench 5.2 - 5.5 Multi-Core PassMark PerformanceTest Mobile V1 CPU Tests Sunspider 1.0 Total Score Octane V2 Total Score Jetstream 2 Speedometer WebXPRT 3 all, none TDP W Cores Threads ArchitectureĪnnounced at least months ago (>0) Show only items with known benchmark results Still available (not archived) Show benchmark bars Show single scores on hover Show Percent Perf. (Manufacturer, Model, Series, Codename), Connect search words with and or .
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