Imagenomic portraiture 3 serial number. Flash memory devices are now widely used in a variety of applications to store configuration, program, or memory data. Although flash memory can be straightforward to program, a new method of programming makes it easier and offers cost and time savings. Ponents: a processor, memory, audio and video devices, and some simple I/O peripherals. The FPGA programming file that implements this system, as well as its design source files, can be obtained from the University Program section of Altera’s web site. 2DE1 Media Computer Contents A block diagram of the DE1 Media Computer is shown in Figure1.

“Customers in the MAX 10 early access program have already realised the benefits from the combination of high performance programmable logic, analogue, digital signal processing, micro-processor capabilities, and embedded flash technology provided by MAX 10 FPGAs with the Quartus II development software and pre-configured development and evaluation boards,” says Altera’s Patrick Dorsey. MAX 10 FPGAs reduce BOM while increasing board reliability, claims Altera, integrating up to 50K logic elements, flash memory blocks (user flash and dual-configuration flash), A-D converters, embedded memory and DSP blocks, DDR3 external memory interfaces, embedded processing with soft-core Nios II processors, up to 500 user I/O and power regulator. They configure in less than 10ms (milliseconds) using on-die flash memory.

For system management applications, instant-on allows MAX 10 FPGAs to be the first usable device on a system board and to control the bring-up of other board components. In data path applications it allows them to provide responsive user interaction when powered on. The on-die flash storage supports dual configuration, allowing two FPGA designs in a single chip. The dual-configuration capability enables the device to perform fail-safe upgrades, whereby one flash block is designated for upgrade images while the other block is reserved for a ‘safe’ factory image. This capability enables deployment of systems more quickly, reduces maintenance cost and provides longer operating life. The analogue blocks integrated with MAX 10 FPGAs include ADCs and temperature sensing diodes. The integrated analogue functionality allows them to be used in applications that require system monitoring, such as temperature control and touch-panel human-machine interface control.

Integrated analogue blocks reduce board complexity, lower latency and deliver more flexible sample-sequencing, including two-channel simultaneous sampling. The FPGAs support the integration of Altera’s soft core Nios II embedded processors, providing embedded developers a single-chip, fully configurable, instant-on processor subsystem. This allows the device to be used to efficiently manage complex control systems.

MAX 10 FPGAs provide system-level value to many end markets. The device’s integrated functions combined with small package options (as small as 3x3mm) make MAX 10 FPGAs an effective solution for space-constrained systems, such as automotive and industrial applications. In advanced communications, compute and storage applications, MAX 10 FPGAs can manage complex control functions, while performing system configuration, interface bridging, power sequencing and I/O expansion.

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