Monix Nuc

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Responsive performance. Stunning visuals.

The Next Unit of Computing delivers stunning visuals and edge-of-your-seat performance in an ultra-small package. Powered by a visibly smart 3rd generation Intel® Core™ i3 processor on a 4-by-4-inch motherboard and enclosed in a tiny case, the Next Unit of Computing is big on performance yet surprisingly small in size. It’s an ideal engine for digital signage, kiosks, home theater systems, and intelligent devices for small spaces, or anywhere else you can imagine.
Responsive performance. Stunning visuals.
Beyond your Imagination



Beyond your Imagination

The Next Unit of Computing features a visibly smart Intel® Core™ i3 processor in a highly customizable package. It’s a breakthrough in compact but impactful computing. Drive two digital displays at once with dual HDMI. Get reliable connectivity through Gigabit LAN. And effortlessly move between applications with smart multitasking delivered by Intel® Hyper-Threading Technology.



Really Small. You won't believe how small it is.

Only 4" x 4" (Wide and Depth) and 2" of Height.
Really Small. You won't believe how small it is.



Almost indestructible

Please, don't try this at home or work. Take care of your Monix NUC.



Mount it on the back of your monitor

The Monix Nuc can be mounted on the back of your monitor.
All Monix PCs are 100% customizable; these are some of the available features. Please note that some of these features may not be available on every motherboard.
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HDMI
The HDMI specification defines the protocols, signals, electrical interfaces, and mechanical requirements of the standard.[39] The maximum pixel clock rate for HDMI 1.0 was 165 MHz, which was sufficient for supporting 1080p and WUXGA (1920×1200) at 60 Hz. HDMI 1.3 increased that to 340 MHz, which allows for higher resolution (such as WQXGA, 2560×1600) across a single digital link.[40] An HDMI connection can either be single-link (Type A/C) or dual-link (Type B) and can have a video pixel rate of 25 MHz to 340 MHz (for a single-link connection) or 25 MHz to 680 MHz (for a dual-link connection). Video formats with rates below 25 MHz (e.g., 13.5 MHz for 480i/NTSC) are transmitted using a pixel-repetition scheme.
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Wireless N
IEEE 802.11n is an amendment to IEEE 802.11-2007 as amended by IEEE 802.11k-2008, IEEE 802.11r-2008, IEEE 802.11y-2008, and IEEE 802.11w-2009, and builds on previous 802.11 standards by adding multiple-input multiple-output (MIMO) and 40 MHz channels to the PHY (physical layer), and frame aggregation to the MAC layer.
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DDR3 Memory
The primary benefit of DDR3 SDRAM over its predecessor, DDR2 SDRAM, is the ability to transfer at twice the data rate (8× the speed of its internal memory arrays), enabling higher bandwidth or peak data rates. In addition, the DDR3 standard allows for chip capacities of up to 8 gigabits, thus enabling a memory module size of 16 gigabytes (using 16 chips). With two transfers per cycle of a quadrupled clock, a 64-bit wide DDR3 module may achieve a transfer rate of up to 64 times the memory clock in MB/s. DDR3 memory provides a reduction in power consumption of 30% compared to DDR2 modules due to DDR3's 1.5 V supply voltage, compared to DDR2's 1.8 V or DDR's 2.5 V. The 1.5 V supply voltage works well with the 90 nanometer fabrication technology used in the original DDR3 chips. Some manufacturers further propose using "dual-gate" transistors to reduce leakage of current.
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Intel HD Graphics
Intel HD Graphics with dynamic frequency up to 1GHz delivers smooth HD video playback and mainstream 3D gaming without the need for add-in video cards or decoders. It also supports a wide range of display connectivity options and is dual display capable.
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Intel Smart Cache
Intel Smart Cache Technology dynamically allocates the shared cache to each processor core based on workload. This efficient, multi-core-optimized implementation increases the probability that each core can access data from faster, more efficient cache subsystem resulting in significantly reduced latency for frequently used data and improved performance.
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Intel Virtualization Technology
Increasing manageability, security, and flexibility in IT environments, virtualization technologies like hardware-assisted Intel Virtualization Technology (Intel VT) combined with software-based virtualization solutions provide maximum system utilization by consolidating multiple environments into a single server or PC. By abstracting the software away from the underlying hardware, a world of new usage models opens up that reduce costs, increase management efficiency, strengthen security, while making your computing infrastructure more resilient in the event of a disaster.
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Enhanced Intel SpeedStep Technology
Enhanced Intel SpeedStep Technology is an advanced means of enabling very high performance while also meeting the power-conservation needs of mobile systems. Conventional Intel SpeedStep Technology switches both voltage and frequency in tandem between high and low levels in response to processor load.
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Intel Hyper-Threading Technology (HT Technology)
Intel Hyper-Threading Technology delivers thread-level parallelism on each processor resulting in more efficient use of processor resources—higher processing throughput—and improved performance on the multi-threaded software of today and tomorrow.
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Integrated memory controller
Integrated memory controller enables two channels of DDR3 1333/1600 MHz memory, resulting in up to 25.6 GB/sec memory bandwidth. Plus the memory controller's lower latency and higher memory bandwidth delivers amazing performance for data-intensive applications.