10M50DAF484C6G FPGA стрелка, Altera инструменты Дека развитию MAX 10The small form factor FPGA board packs with features:. The following tren turistico granada horarios diagram shows the Deca max 10 setup and software processes for graphics rendering. There are some challenges, the tough hardware and software ones are listed below:. To address the video timing deca max 10 i. This design uses DDR3 controller with 64 bit Avalon interface data width. This configuration worked for one resolution, but not in decz resolutions. The third task moves the main HMI screen.
MAX 10 - Design Tools
Building on the best of both worlds, MAX 10 is enhanced with features that enable the next level of cost effective integration — the perfect core for any smart device connected to the cloud. Although packed with sophisticated features and optimised to enable the efficient implementation of embedded products, the MAX 10 is surprisingly simple to use in design. Engaging in a MAX 10 development is easy thanks to the ready availability of versatile development kits , example designs and a strong user community.
MAX 10 reduces cost and size in a number of key areas: Internal flash is a huge advantage for MAX 10 FPGAs, but it does not stop there as Altera has included a number of useful features to enable its full use in products. FPGAs typically require a power up time period to read their image from an external memory.
MAX 10 features instant power up from one of several internal configuration flash arrays that provide a dynamic fail-safe remote upgrade. A watchdog timer can be enabled to monitor remote flash configuration with automatic fall back to a previous image if unsuccessful.
Multiple flash arrays are incorporated for program and data storage to eliminate the need for external, non-volatile memory in many applications. The MAX 10 reduces power supply cost and size with a single 3. A high efficiency dual supply device option is also available. Outputs that have the capability of being open drain with optionally enabled internal pull up resistors with a configurable slew rate control and a programmable current strength are able to drive up to 16mA for some interface standards.
Analog blocks containing multichannel ADCs , a temperature sensing diode and an integrated MHz internal ring oscillator round off a powerful architecture. Start Immediately with a Development Kit! Developments kits simplify the design process, enabling a way to rapidly develop the FPGA design and embedded software on a well-documented reference platform. Many kits are available, optimized for a wide range of applications.
Basing the underlying hardware architecture on tried and tested elements of reference designs enables the use of working example projects as starting points — speeding development and mitigating risk. Development timeframes can be accelerated by combining this strategy with the wide variety of available operating systems with development kit specific BSPs, integrated networking stacks and device drivers. It is an integrated platform with a number of reference designs that focus on a range of applications.
The kit is optimized to enable rapid design of customized solutions for embedded processing applications, multimedia interface products, human-machine interfaces and video display. The kit features a capacitive LCD multimedia color touch panel with native support of multi-touch gesturing.
It also incorporates an eight megapixel image sensor, a light sensor and a three-axis accelerometer. Demonstration reference designs include robotic control, HDMI Rx, sensing, audio and camera interfacing. The board is well documented, open and reusable as a proven platform to base a design upon.
The kit is incredibly flexible due to an integrated Arduino UNO R3 interface connector that enables connection to compatible Arduino Shields. This enables thousands of peripheral boards containing functionality like sensors, motor controllers, GPS and wireless transceivers. The expansion headers include two 6-pin PMOD and two 4- pin prototyping headers along with an pin card edge connector. Users can directly interface development tools via the inbuilt USB Blaster port. The board is well documented with a Getting Started User Guide for accelerating design and is perfect as a low cost prototyping platform for rapid development.
Give it a Go Today! Developing a system based upon an embedded FPGA has never been simpler. MAX 10 offers levels of integration that truly enable significant cost savings and levels of integration not before seen. A plethora of development kits with Operating System BSP support and access to peripheral expansion for sensing and network connectivity enable using the MAX 10 in applications that would have previously required more complex and expensive microcontrollers.
The introduction of dynamic image and user flash upload via a UART interface with watchdog and failsafe fall back future-proofs designs by facilitating upgrade and support. Hardware development risk is mitigated through well documented robust solutions and software is accelerated through access to many reference designs and a strong user community.
FPGA design tools include free web based options. Software development and debugging is made easy using the Altera software development environment based upon Eclipse. Talk to an Altera representative about how they can get you started today!
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