 Hi, I'm Jordan Hanna, System Consultant here at Readle. Today we're looking at the new MicroNUHD product, which is the latest addition to our MediaNet SDI family. MicroNUHD is the next generation of MediaNet signal distribution and processing devices. Building on Readle's distributed and software-defined concept, this new node adds more bandwidth, more IO, native 12G, UHD, and more processing power to the MediaNet platform. Forming its role as a standard IO or multiview frame in the network, a 400-gig TDM backplane makes MicroNUHD a powerful routing node in the system. The one-to-four TDM backplane bandwidth allows systems with MicroNUHD units to be scaled up to non-blocking architectures of 40-plus nodes. Systems that incorporate other products in the family, including Metron, MicroN, and Compact, can also be connected to the MicroNUHD. MicroNUHD is capable of running in two modes. We have Standard App and the Multiview App. In the Standard App, the full video IO account, Matty Interfaces, and Ethernet tunnels are available. In a UHD workflow, eight-by-eight video is available, and the frame will accept single-link 12G signals as well as two-sample interleaf. The MediaWork software allows you to freely route between single-link 12G and 2SI. In addition, all UHD sources in the MediaNet network are available to be routed as a 3G 2SI proxy, which is perfect for monitoring or multiview applications. In a 3G or HD workflow, up to a total of 48 video channels are available. 16 by 16 are fixed IO, and an additional 16 IO are in a switchable direction. This flexibility allows a frame to operate in bias modes of 16 by 32 or 32 by 16, or any combination in between. In the Multiview App, FPGA resources are intelligently used for processing instead of IO. This changes the video IO account, however the Matty Interfaces and Ethernet tunnels are still available. The Multiview App is powerful, providing eight 3G multiviewer mosaics in landscape or four 3G multiviewer mosaics in portrait. Up to a total of 36 3G HD or HD pip sources can be displayed across the mosaics. Unlike we described earlier, any 12G sources are able to route a 2SI proxy to the multiviewer. In the Multiview App, IO of the Micron UHD node operates with 2x2 12G or any combination thereof with 3G HD or HD up to 8x8. The Multiviewer pip sources and mosaic outputs are not linked to the physical IO of the frame. These signals can be routed freely within the MediaNet network. Micron UHD has four 100G QSFP network ports, providing a one to four ratio of signal bandwidth to back playing capacity. Each slot runs in a four lane modes, putting independent link speeds 4.25, 10 and 25 gig. We will currently offer a range of QSFP fiber optic modules to suit a range of applications and infrastructure types. Each QSFP module can be used to interconnect Micron UHD as well as other products in the family, including Metron, Micron and Compact. The back pain bandwidth of the Micron UHD makes system design very flexible and utilizing 25 gig links unlocks more possibilities for delivering high signal counts over a single duplex pair, for example. Micron UHD provides an excellent platform for decentralized signal distribution solutions in many applications. Our biggest customers include broadcast, motorsport and stadiums. MediaNet SDI can also provide intuitive systems for theater and government markets as well. I think you'll find Micron UHD and Top Gear, where the system design leverages 12G workflows and high density non-blocking architectures are required. The decentralized nature of MediaNet allows you to optimize IO account and place a BNC connector closer to the source or destination. This flexibility of node placement makes MediaNet system design beautifully efficient. Micron UHD takes this concept even further with the addition of high speed links, additional IO density and powerful multi-view capabilities.