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1. #ALTIUM DESIGNER 17 DESCRIPTION WIKI DRIVERS#
2. #ALTIUM DESIGNER 17 DESCRIPTION WIKI DRIVER#
3. #ALTIUM DESIGNER 17 DESCRIPTION WIKI SOFTWARE#
4. #ALTIUM DESIGNER 17 DESCRIPTION WIKI SERIES#

There are also a number of system resources, that are not accessible from the User FPGA device, but are available to the user in various situations – such as audio-related connectors and resources for powering the board. The motherboard features a variety of resources, many of which are made available to the on-board User FPGA. Both top and bottom of the board are used for component placement. The other plane is used primarily for 5V and 3.3V supplies. One of the plane layers is used predominantly as a grounding plane (GND, AGND, AUGND, SHIELD), but incorporates split regions to accommodate 1.2V, 1.8V and 2.5V supplies. Each of Altium's 3000-series NanoBoards is a 242 x 176mm (9.5" x 6.9" ) six layer printed circuit board, powered by an external 5 Volt regulated supply.The Controller, which is part of the NanoBoard firmware, plays the role of multiplexer/router – determining which master has access to the common SPI bus and which SPI slave device is selected for communications. Providing the required SPI bus arbitration between the masters, and access to the SPI devices, is the NanoBoard 3000's SPI Controller. The majority of these SPI resources are accessible by three distinct SPI masters, over a common, multiplexed SPI bus. The NanoBoard 3000 SPI system involves a variety of SPI-compatible slave resources, located across the hardware system – on the motherboard itself and also on certain peripheral boards that plug into the motherboard.In addition, indication is given on how the satellite boards ( peripheral board, speaker board and TFT LCD panel board) fit together within the system. Motherboard resources are highlighted, showing which are dedicated for use by the Host Controller and which are available to the User FPGA. This page gives a high-level block diagram of the NanoBoard-3000, the heart of which is the Host Controller FPGA (NanoTalk Controller).

#ALTIUM DESIGNER 17 DESCRIPTION WIKI DRIVER#

They have everything you need to create next-generation, FPGA-hosted embedded systems with off-the-shelf components without having to write HDL or low level driver code.

#ALTIUM DESIGNER 17 DESCRIPTION WIKI SOFTWARE#

The IP libraries and intuitive graphical editors that are central to Altium Designer means that you can simply add processors, memory controllers, peripheral blocks and software stacks. Designers also have the option to deploy designs in modular commercial enclosures. IP libraries and intuitive graphical editors enable users to add processors, memory controllers, peripheral blocks, and software stacks. Using NanoBoard 3000, designers can construct, test, and implement FPGA-based embedded systems.

#ALTIUM DESIGNER 17 DESCRIPTION WIKI DRIVERS#

Much of the peripheral resource functionality found on the NanoBoard NB2 is also found on the NanoBoard 3000, along with additional resources of its own – including Relays, Power PWM Drivers and a MIDI interface. The NanoBoard 3000 provides a fixed User FPGA that is located on the motherboard itself and provision for the attachment of a single peripheral board.

#ALTIUM DESIGNER 17 DESCRIPTION WIKI SERIES#

In true NanoBoard style, each board in the series offers a reprogrammable hardware platform that harnesses the power of a high-capacity, low-cost programmable device to allow rapid and interactive implementation and debugging of your digital designs.