Fueled by Growing Demand for Smart Wearables, IDC Forecasts Worldwide Wearable Shipments to Reach 173.4 Million by 2019
A growing list of vendors, a proliferation of devices, experiences, and price points, and steady consumer adoption will fuel growth in the worldwide market for wearable devices. According...
Market research firm Infonetics Research released excerpts from its latest Mobile Device Security Client Software report, which tracks enterprise and consumer security client software...
Continued Progress at Electronics Marketing Drives Year-Over-Year Growth in Revenue and EPS Avnet, Inc. (NYSE:AVT) today announced results for the third quarter fiscal year 2014...
Global Chip Revenue Rises in 2013, Reversing Loss from Earlier Year; Memory and Wireless Lead the Way
Worldwide semiconductor revenue rose a solid 5.0 percent last year, with memory chips the star performers, according to the latest research from IHS Technology (NYSE: IHS). Total...
Featured Tech Videos
This video demonstrates how to use DS-5 Altera Edition to do some Linux kernel and driver debugging and trace using an Altera SoC Development board. It shows how DS-5's powerful FPGA-adaptive debugging makes easy to interact with the peripheral registers of the custom FPGA hardware. It shows how to debug the kernel both before and after the MMU is enabled.
ARM DS-5 Altera Edition is customized version of ARM's flagship software development tool suite, DS-5, for Altera SoC FPGA users. This short video shows how the toolkit brings together hardware and software domains, making it very easy for engineers to debug and optimize across the CPU and FPGA logic.
This video demonstrates how easy it is to use DS-5 Altera Edition to connect to and control a Altera SoC Development board and to build and do some initial bare-metal (no OS) debugging and tracing using it.
This video will show you how to use ARM Streamline on Beaglebone Black running Linux to analyze which processes, threads and functions are consuming the most CPU time. Developers can use this information to identify the hotspots and bottlenecks so they can fix these problems.
This video shows how you can slash your development time by reverse debugging Linux and Android applications on your target hardware using the Application Rewind feature in ARM DS-5™. End the frustration of tracking down hard-to-find non-deterministic bugs caused by race conditions, size mismatches and deadlocks. Simply step back through your application execution history or set watchpoints and run back to them.
Learn how to use ARM DS-5™ Streamline to find out which processes, threads, functions, and even source code lines are slowing down your Linux/Android system by generating excessive number of CPU performance events such as cache misses and branch mispredictions.
This video from Joe Alderson shows an amazing new feature in DS-5 called Application Rewind. Now you can do reverse debugging in Linux and Android applications on your target hardware using the Application Rewind feature in ARM DS-5™. I'm sure we've all had those frustrating moments when working on our code. Bugs appear in our code out of nowhere that are hard to track down, hard-to-find and non-deterministic. Sometimes these bugs are caused by race conditions, size mismatches and deadlocks. Now we can simply step back through our application execution history or set watchpoints and run back to the source of the bug.