We often find ourselves needing to measure temperature and take some action in our designs. But, thermal management can be a complicated area, with a lot of alternatives in terms of sensors and supporting circuitry. In this episode of Chalk Talk, Amelia Dalton chats with John Austin of Microchip Technology about the numerous options for thermal management solutions.
Building a hybrid computing platform from scratch is a huge and complicated project. Luckily, somebody has already done that work for you. In this episode of Chalk TalkHD Amelia chats with Justin Braun (4DSP) about how you can use pre-designed platforms to dramatically simplify these complex computing and data acquisition problems.
In this episode of Chalk TalkHD Amelia gets into the guts of display technology with Aaron Behman of Xilinx. From the newest standards to the details of 4K2K, we will tell you how FPGAs are uniquely capable of meeting the extreme performance and power challenges posed by current and emerging video standards.
FPGA-based physical prototyping is the go-to standard for high-performance, high-productivity verification, debug, and software development on many electronic systems today. But, it is becoming increasingly difficult to put together an ad hoc prototype mixing pieces from various vendors with home-grown components. With the complexity of today's systems, an integrated prototyping system can bring significant advantages. In this episode of Chalk Talk, Amelia Dalton chats with Neil Songcuan of Synopsys about the powerful HAPS integrated prototyping solution.
Have you been wanting to try FPGA design? Were FPGA development boards and tools always too expensive and difficult to use? In this episode of Chalk Talk, Amelia Dalton chats with Darren Zacher and Jim Burnham of Xilinx about ARTY, a new, easy-to-use $99 FPGA-based embedded development kit from Xilinx.
Even though the newest, fastest standards get all the press, most of the work in the world is being done by standards like 2.5G Ethernet. In this episode of Chalk Talk, Amelia Dalton chats with Juwayriyah Hussain of Altera about Altera's IP for 2.5G Ethernet. It'll have you up and running with Ethernet on your next design in no time.
In this episode of Chalk TalkHD Amelia Dalton talks to David Flowers from Microchip about creating tablet and smartphone accessories - and how it just may be easier than you think...
Even the best "plug and play" IP blocks are far from fool-proof. One of the most challenging aspects of IP-based design can be getting the blocks stitched together properly, making sure you have the right version of all the IP blocks, and confirming the configuration of your whole design. In this episode of Chalk Talk, Amelia Dalton chats with Tim Vanevenhoven about the powerful correct-by-construction automation built into the IP Integrator in Vivado Design Suite from Xilinx. IP Integrator seriously raises the bar on automation of IP-based design.
New SoCs like the Xilinx Zynq are changing the industry - with new levels of functionality, flexibility, performance, and power efficiency. But, to take advantage of this new technology you'll need connectivity solutions that are up to the task. In this episode of Chalk Talk, Amelia Dalton chats with Mark Bell from TE Connectivity about plugs, connectors, antennas, and other connectivity solutions for today's most demanding designs.
Ever notice how hard it can be to get the full utilization that an FPGA datasheet promises? Xilinx is aiming to change all that. In this episode of Chalk Talk, Amelia Dalton talks with Darren Zacher of Xilinx about the new Ultrascale FPGA family, and how the architecture has been optimized for maximum utilization.
Software engineers have long depended on integrated design environments (IDEs) to help manage complex design processes. Now, hardware engineers can take advantage of the same complexity-taming level of integration. In this episode of Chalk Talk, Amelia Dalton explores the IDE in Vivado Design Suite with Brian Lay of Xilinx.
This free eBook provides technical details and design considerations for implementing the common circuit board power management functions. This book also provides generalized cost effective solutions for each of these functions that can be customized to meet a circuit board’s specific voltage, current and control environment.