Next-generation FPGA-based processing platforms for radar and electronic warfare (EW) systems provide a substantial increase in computational resources, as well as greatly easing the implementation effort in a floating-point datapath.
In late April I visited the exhibits at the annual Embedded Systems Conference in San Jose, CA. For the most part, people I met with discussed microcontrollers, communication, and development kits. The short descriptions below represent only a snapshot of the interesting products announced or unveiled at ESC.
Around the world, Future Soldier Programs are focused primarily on development of technologies to reduce the soldiers fighting load and power requirements, improve the soldier’s protection, lethality, and environmental and situational awareness.
New generations of FPGAs present developers with a level of processing performance and potential I/O bandwidth that cannot easily be matched by conventional CPU configurations. While many COTS solutions enable developers to readily make use of FPGAs for processing, the real challenge to an application is often measured in terms of I/O bandwidth, latency and connectivity.
This article addresses the impact of material choice on heat sink performance. First, we evaluate different materials using mechanical samples and a research quality wind tunnel. This testing compares a constant heat sink geometry made from copper, aluminum, and graphite foam.
There is a lot of talk about going “green” lately, and while it is noble, timely and responsible to save the environment from excessive green house gases, in these tough economic times, it can be equally as responsible to lower energy and power costs.
As a result of the Comcast Corp. v. Federal Communications Commission (FCC) court decision, Internet service providers (ISPs) are no longer constrained from slowing or blocking different types of content or access to sites that offer content that conflicts with the providers’ interests.
Are you a “Themimech” engineer? If not now, you might be soon! As the rising frequencies of many applications are now forcing engineers to be aware of and plan for issues related to rising frequencies in electronic devices and systems, they are now required to participate...
With continued pressure for broader 3G coverage for smart phones, increased Internet connection for Wi-Fi and WiMAX, and the imminent introduction of 4G/LTE systems, design activity for digital communication RF components has never been greater.
Hardware virtualization, and the hypervisors that enable it, have become a hot topic in the embedded space. But while virtualization opens up new possibilities for system architects and designers, it also poses new challenges, especially when used with real-time applications.
Designing Custom, Low-Cost Instrumentation for Test and Measurement Using Off-the-Shelf FPGA ModulesApril 29, 2010 11:36 am | by Jake Janovetz, Opal Kelly | Comments
Designing for industrial applications presents many challenges, but it also allows an engineer to be creative, spread her wings, and explore new technologies to solve the task at hand. Field-Programmable Gate Arrays (FPGAs) and, in particular, commercial off-the-shelf (COTS) FPGA modules can be just the ticket to attack industrial applications that used to be a much more difficult challenge.
Industrial applications, such as home and commercial building automation, data loggers, point-of-sale terminals and cash registers, in-house displays for energy metering, alarm systems and medical equipment are starting to join the “smart” revolution currently enjoyed by portable media player and smartphone markets.
Monitoring the condition of large industrial machinery provides long term benefits in terms of lower production cost, reduced equipment down time, improved reliability, and increased safety. Industrial manufacturers face a constant battle in keeping production equipment operational.
What future technologies will reduce healthcare costs?